Secondary literature sources for LANC_like
The following references were automatically generated.
- Urano D, Jones AM
- "Round up the usual suspects": a comment on nonexistent plant G protein-coupled receptors.
- Plant Physiol. 2013; 161: 1097-102
- Zhong WX et al.
- Lanthionine synthetase C-like protein 1 interacts with and inhibits cystathionine beta-synthase: a target for neuronal antioxidant defense.
- J Biol Chem. 2012; 287: 34189-201
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The finding that eukaryotic lanthionine synthetase C-like protein 1 (LanCL1) is a glutathione-binding protein prompted us to investigate the potential relationship between LanCL1 and cystathionine beta-synthase (CBS). CBS is a trans-sulfuration enzyme critical for the reduced glutathione (GSH) synthesis and GSH-dependent defense against oxidative stress. In this study we found that LanCL1 bound to CBS in mouse cortex and HEK293 cells. Mapping studies revealed that the binding region in LanCL1 spans amino acids 158-169, and that in CBS contains N-terminal and C-terminal regulatory domains. Recombinant His-LanCL1 directly bound endogenous CBS from mouse cortical lysates and inhibited its activity. Overexpression of LanCL1 inhibited CBS activity in HEK293 cells. CBS activity is reported to be regulated by oxidative stress. Here we found that oxidative stress induced by H(2)O(2) or glutamate lowered the GSH/GSSG ratio, dissociated LanCL1 from CBS, and elevated CBS activity in primary rat cortical neurons. Decreasing the GSH/GSSG ratio by adding GSSG to cellular extracts also dissociated LanCL1 from CBS. Either lentiviral knockdown of LanCL1 or specific disruption of the LanCL1-CBS interaction using the peptide Tat-LanCL1(153-173) released CBS activity in neurons but occluded CBS activation in response to oxidative stress, indicating the major contribution of the LanCL1-CBS interaction to the regulation of CBS activity. Furthermore, LanCL1 knockdown or Tat-LanCL1(153-173) treatment reduced H(2)O(2) or glutamate-induced neuronal damage. This study implies potential therapeutic value in targeting the LanCL1-CBS interaction for neuronal oxidative stress-related diseases.
- Goto Y, Okesli A, van der Donk WA
- Mechanistic studies of Ser/Thr dehydration catalyzed by a member of the LanL lanthionine synthetase family.
- Biochemistry. 2011; 50: 891-8
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Members of the LanL family of lanthionine synthetases consist of three catalytic domains, an N-terminal pSer/pThr lyase domain, a central Ser/Thr kinase domain, and a C-terminal lanthionine cyclase domain. The N-terminal lyase domain has sequence homology with members of the OspF family of effector proteins. In this study, the residues in the lyase domain of VenL that are conserved in the active site of OspF proteins were mutated to evaluate their importance for catalysis. In addition, residues that are fully conserved in the LanL family but not in the OspF family were mutated. Activity assays with these mutant proteins are consistent with a model in which Lys80 in VenL deprotonates the alpha-proton of pSer/pThr residues to initiate the elimination reaction. Lys51 is proposed to activate this proton by coordination to the carbonyl of the pSer/pThr, and His53 is believed to protonate the phosphate leaving group. These functions are very similar to the corresponding homologous residues in OspF proteins. On the other hand, recognition of the phosphate group of pSer/pThr appears to be achieved differently in VenL than in the OspF proteins. Arg156 and Lys103 are thought to interact with the phosphate group on the basis of a structural homology model.
- Liao R et al.
- Thiopeptide biosynthesis featuring ribosomally synthesized precursor peptides and conserved posttranslational modifications.
- Chem Biol. 2009; 16: 141-7
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Thiopeptides, with potent activity against various drug-resistant pathogens, contain a characteristic macrocyclic core consisting of multiple thiazoles, dehydroamino acids, and a 6-membered nitrogen heterocycle. Their biosynthetic pathways remain elusive, in spite of great efforts by in vivo feeding experiments. Here, cloning, sequencing, and characterization of the thiostrepton and siomycin A gene clusters unveiled a biosynthetic paradigm for the thiopeptide specific core formation, featuring ribosomally synthesized precursor peptides and conserved posttranslational modifications. The paradigm generality for thiopeptide biosynthesis was supported by genome mining and ultimate confirmation of the thiocillin I production in Bacillus cereus ATCC 14579, a strain that was previously unknown as a thiopeptide producer. These findings set the stage to accelerate the discovery of thiopeptides by prediction at the genetic level and to generate structural diversity by applying combinatorial biosynthesis methods.
- Petersen J et al.
- Identification and characterization of a bioactive lantibiotic produced by Staphylococcus warneri.
- Biol Chem. 2009; 390: 437-44
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Lantibiotics are a group of potent antibacterial agents that contain unusual amino acids, such as the thioether amino acids lanthionine and methyllanthionine, and the didehydroamino acids didehydroalanine and didehydro-aminobutyric acid. Here, we report on an antibacterial lantibiotic peptide named SWLP1 (Staphylococcus warneri lantibiotic peptide 1), which is secreted from Staphylococcus warneri (deposited with DSMZ, accession number DSM 16081). SWLP1 was purified from growth media. The purified peptide displays antibacterial activity against several species, including Staphylococcus epidermidis. The molecular mass of SWLP1 is 2998.9 Da as determined by matrix-assisted laser desorption ionization time-of-flight mass spectrometry. The sequence and possible structure was elucidated by combining electrospray ionization mass spectrometry/mass spectrometry data of ethanethiol-treated and non-ethanethiol-treated tryptic fragments of the SWLP1. SWLP1 contains three thioether bridges, one didehydroalanine, and three didehydroaminobutyric acids. This peptide has the potential to be used in treatment of several Gram-positive bacterial infections.
- Sangadala S, Titus L, Boden SD
- Expression, purification and mass spectrometric analysis of LIM mineralization protein-1 in human lung epithelial cells.
- Acta Biochim Biophys Sin (Shanghai). 2008; 40: 909-18
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LIM mineralization protein-1 (LMP-1) is a novel osteoinductive protein that has been cloned and shown to induce bone formation both in vitro and in vivo. Detection and evaluation of the possible presence of carbohydrate structures in LMP-1 is an important regulatory consideration for the therapeutic use of recombinantly expressed protein. The sequence of LMP-1 contains a highly conserved N-terminal PDZ domain and three C-terminal LIM domains. The sequence analysis of LMP-1 predicts two potential N-glycosylation sites and several O-glycosylation sites. Here, we report the cloning and overexpression of LMP-1 in human lung carcinoma (A549) cells. Even though our group already reported the sequence of LMP-1 cDNA, we undertook this work to clarify whether or not the overexpressed protein undergoes any glycosylation in vivo. The expressed full-length recombinant protein was purified and subjected to chemical analysis and internal sequencing. The absence of any hexosamines (N-acetyl glucosamine or N-acetyl galactosamine) in chemical composition analysis of LMP-1 protein revealed that there is little or no post-translational glycosylation of the LMP-1 polypeptide in lung carcinoma cells (A549). We performed in-gel trypsin digestion on purified LMP-1, and the resulting peptide digests were analyzed further using matrix-assisted laser desorption and ionization mass spectrometry for peptide mass finger printing, which produced several exact matches with the corresponding LMP-1 peptides. Separation by high performance liquid chromatography and purification of the desired peptides followed by N-terminal sequencing resulted in many exact LMP-1 matches for several purified peptides, thus establishing the identity of the purified protein as LMP-1.
- Liu C, Lovenberg TW
- Relaxin-3, INSL5, and their receptors.
- Results Probl Cell Differ. 2008; 46: 213-37
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Relaxin-3 (R3) is the most recently identified member of the insulin superfamily, which is composed of peptides with diverse sequences held together by characteristic disulfide links connecting A and B peptide chains. R3 has nearly exclusive expression in the brainstem. It was demonstrated to be an additional ligand for the relaxin receptor LGR7, which is a class-C hormone receptor type G-protein coupled receptor (GPCR). We recently identified R3 as a ligand for two orphan G-protein coupled receptors, GPCR135 (aka SALPR) and GPCR142 (aka GPR100), which are class-A GPCRs and typical neuropeptide receptors. The predominant brain expression for both R3 and GPCR135, coupled with their high affinity interaction, strongly suggests that R3 is the endogenous ligand for GPCR135. Both R3 and GPCR135 from different species are highly conserved from genetic sequences to in vitro pharmacology. In contrast, GPCR142 is a pseudogene in rats, and the mouse gene is less conserved with human GPCR142, suggesting that GPCR142 may have a diminished role as a receptor for R3 in rodents. Further studies of GPCR142 in monkeys, cows, and pigs demonstrate that GPCR142 in those species shares high homology to the human GPCR142, and that it behaves similarly to the human receptor in vitro. This suggests that GPCR142 has conserved functions in these non-rodent species, including humans. In addition, the tissue expression pattern of GPCR142, primarily in peripheral tissue, is drastically different from R3, suggesting that GPCR142 may have an endogenous ligand other than R3. Sequence analysis among insulin/relaxin family members shows that insulin-like peptide 5 (INSL5) is the closest member to R3. Pharmacological characterization shows that INSL5 is a specific agonist for GPCR142, but not for GPCR135. Specifically, INSL5 binds to and activates GPCR142 at high affinity. Although INSL5 binds to GPCR135 at low affinity, it does not activate GPCR135. INSL5 mRNA is primarily expressed in the periphery, and its expression pattern overlaps with that of GPCR142, consistent with INSL5 being the endogenous ligand for GPCR142. Endogenous ligands and receptors tend to co-evolve. Consequently, INSL5, like GPCR142, is a pseudogene in rats, which further implies that INSL5/GPCR142 is an endogenous ligand/receptor pair. R3 can activate GPCR135, GPCR142, and LGR7. Therefore, in vivo administration of R3 could potentially activate all three receptors, which complicates the functional studies of GPCR135. By substituting the A chain of R3 with the A chain of INSL5, we devised a chimeric peptide (R3/I5), which is about 1000-fold more selective for GPCR135 and GPCR142, than for LGR7. C-terminal truncation of this chimeric peptide resulted in a potent antagonist [R3(BDelta23-27)R/I5] for GPCR135 and GPCR142, with no affinity for LGR7. The selective agonist and antagonist pair is particularly helpful for in vivo studies of GPCR135 in rats lacking GPCR142. R3 is highly expressed in the nucleus incertus, a region of the brain stem, which has been known to send afferent connections to different brain regions. [125 I]R3/I5 is a radioligand that has an improved signal/noise ratio compared to [125 ]R3. Autoradiographic distribution of GPCR135 binding sites using [125 I]R3/I5 in rat brain shows that GPCR135 receptor is prominent in many regions, including olfactory bulb, amygdala, thalamus, somatosensory cortex, and superior colliculus, which have been reported to have connections to the nucleus incertus. Different brain regions serve different functions. The expression pattern of R3 and GPCR135 in the brain suggests multiple functions of R3 and GPCR135. The high level expression of R3 in the brainstem co-localizes with the expression of corticotrophin releasing factor receptor 1 (CRF1), suggesting a potential role of R3/GPCR135 in stress response. Water-restraint stress-induced R3 mRNA expression in the brain stem seems to support this hypothesis. In addition, recent studies have shown that acute and chronic intracerebroventricular (i.c.v.) administration of R3 induces feeding in rats. More specifically, i.c.v. injection of R3/I5 (GPCR135 selective agonist) stimulates feeding in rats, an effect that can be blocked by the GPCR135-selective antagonist R3(BDelta23-27)/I5, thus confirming the involvement of R3 and GPCR135 in feeding. The availability of those pharmacological tools should greatly facilitate future studies of the physiology of GPCR135 and GPCR142.
- Bu S et al.
- Interaction between two putative glycosyltransferases is required for glycosylation of a serine-rich streptococcal adhesin.
- J Bacteriol. 2008; 190: 1256-66
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Fap1, a serine-rich glycoprotein, is essential for fimbrial biogenesis and biofilm formation of Streptococcus parasanguinis (formerly S. parasanguis). Fap1-like proteins are conserved in many streptococci and staphylococci and have been implicated in bacterial virulence. Fap1 contains two serine-rich repeat regions that are modified by O-linked glycosylation. A seven-gene cluster has been identified, and this cluster is implicated in Fap1 biogenesis. In this study, we investigated the initial step of Fap1 glycosylation by using a recombinant Fap1 as a model. This recombinant molecule has the same monosaccharide composition profile as the native Fap1 protein. Glycosyl linkage analyses indicated that N-acetylglucosamine (GlcNAc) is among the first group of sugar residues transferred to the Fap1 peptide. Two putative glycosyltransferases, Gtf1 and Gtf2, were essential for the glycosylation of Fap1 with GlcNAc-containing oligosaccharide(s) in both S. parasanguinis as well as in the Fap1 glycosylation system in Escherichia coli. Yeast two-hybrid analysis as well as in vitro and in vivo glutathione S-transferase pull-down assays demonstrated the two putative glycosyltransferases interacted with each other. The interaction domain was mapped to an N-terminal region of Gtf1 that was required for the Fap1 glycosylation. The data in this study suggested that the formation of the Gtf1 and Gtf2 complex was required for the initiation of the Fap1 glycosylation and that the N-terminal region of Gtf1 was necessary.
- Helfrich M, Entian KD, Stein T
- Structure-function relationships of the lanthionine cyclase SpaC involved in biosynthesis of the Bacillus subtilis peptide antibiotic subtilin.
- Biochemistry. 2007; 46: 3224-33
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Biosynthesis of the lantibiotic subtilin in Bacillus subtilis is accomplished by a synthetase complex consisting of the dehydratase SpaB, cyclase SpaC, and transporter SpaT. Genetically engineered subtilin cyclases SpaC and related NisC and EriC proteins involved in biosynthesis of the lantibiotics nisin and ericin A/S, respectively, were analyzed to functionally substitute native SpaC in vivo. We could show for the first time posttranslational modification of a lantibiotic precursor peptide (subtilin) by a hybrid lantibiotic synthetase (SpaBT/EriC). Genetically engineered SpaC alanine replacement mutants revealed the essentiality of residues His231, Trp302, Cys303, Tyr304, Gly305, Cys349, and His350, as well as the conserved C-terminal motif Lys437-Ala438-Leu439-Leu440-Ile441 for subtilin biosynthesis. Assignment of these strictly conserved lantibiotic cyclase residues to the NisC structure [Li, B., Yu, J. B., Brunzelle, J. S., Moll, G. N., van der Donk, W. A., and Nair, S. K. (2006) Science, 311, 1464-1467] revealed the first experimental evidence for structure-function relationships in catalytic centers of lantibiotic cyclases. SpaC residues His231, Cys303, and Cys349 are involved in coordination of the central zinc ion. The pair His231/Tyr304 is discussed to act as general acid/base catalysts in lanthionine formation. Furthermore, pull-down experiments revealed that functional inactive SpaC mutants were still able to interact with the hexahistidine-tagged subtilin precursor peptide in vitro. Our results suggest that Trp302 and the C-terminal residues of SpaC are constituents of a hydrophobic cluster which is involved in stabilization of the catalytic center and binding of the subtilin precursor peptide.
- McComb ME, Perlman DH, Huang H, Costello CE
- Evaluation of an on-target sample preparation system for matrix-assisted laser desorption/ionization time-of-flight mass spectrometry in conjunction with normal-flow peptide high-performance liquid chromatography for peptide mass fingerprint analyses.
- Rapid Commun Mass Spectrom. 2007; 21: 44-58
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Large-scale mass spectrometry (MS)-based proteomic analyses require high-throughput sample preparation techniques due to the increasing numbers of samples that make up a typical proteomics experiment. Moreover, extensive sample pre-treatment steps are necessary prior to MS acquisition for even the most rapid and robust MS-based proteomics methodology, matrix-assisted laser desorption/ionization time-of-flight (MALDI-TOF) MS followed by peptide mass fingerprinting (PMF) analysis. These include sample purification and fractionation, removal of digestion buffers or solvents, and spotting of sample with matrix onto the MALDI target. These multiple steps of time-consuming sample handling can result in high overall analysis costs and the likelihood of sample contamination and loss. In order to overcome some of these limitations in sample processing, we have investigated the use of a novel, simple, inexpensive 96-well elastomeric array that affixes to a MALDI target to create an on-target 96-well plate that accommodates a high solution volume (ca. 200 microL), thereby enabling the on-target processing of samples for MALDI-TOFMS. We explored several factors that influence MALDI sample preparation: type of matrix, solution volume, solution organic composition, solution drying rates and matrix/analyte co-crystallization methods. We also investigated the use of the 96-well elastomeric device for coupling MALDI-TOFMS analysis directly to high flow rate (1 mL/min) reversed-phase (rp)-HPLC. By developing an optimized, robust sample preparation protocol, we were able to obtain mass spectra with a high signal-to-noise ratio from peptide standards present at the 50-fmol level in large starting volumes of solution. PMF analyses were possible from 1-pmol and 500-fmol protein-digest standards. Coupling the device to high-flow HPLC (750 microL/min) yielded a robust and semi-automated means to obtain enhanced MALDI-TOFMS data at 500 ng of protein digest. These methodologies developed for this simple, on-target, elastomeric device show promise for streamlining the sample preparation process from HPLC to MALDI-MS.
- Han KY, Song JA, Ahn KY, Park JS, Seo HS, Lee J
- Enhanced solubility of heterologous proteins by fusion expression using stress-induced Escherichia coli protein, Tsf.
- FEMS Microbiol Lett. 2007; 274: 132-8
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Through two-dimensional electrophoresis, Escherichia coli proteome response to a protein denaturant, guanidine hydrochloride, was analyzed and elongation factor Ts (Tsf) detected as a stress-induced protein. Many host proteins aggregated, or their synthesis levels decreased significantly under conditions of protein denaturation as 34 out of 699 soluble proteins knocked out and 63 proteins decreased by over 2.5-fold. Interestingly, the expression level of Tsf increased 1.61-fold compared with a nonstress condition. Contrary to direct expression, various heterologous proteins were solubly expressed in E. coli when subjected to N-terminus fusions of Tsf. Owing most likely to an intrinsic high folding efficiency, Tsf seemed to play critical roles in sequestering interactive surfaces of heterologous proteins from nonspecific protein-protein interactions leading to formation of inclusion bodies. It has been also demonstrated that Tsf is effective in aiding the production of a biologically active bacterial cutinase, which could be of interest to biotechnology and commercial applications.
- Zhang X, Ni W, van der Donk WA
- On the regioselectivity of thioether formation by lacticin 481 synthetase.
- Org Lett. 2007; 9: 3343-6
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Lantibiotic synthetases generate intramolecular thioether cross-links within peptides through the Michael-type addition of cysteines onto dehydroamino acids originating from Ser and Thr. Presented here is an assay that readily distinguishes between enzymatic and nonenzymatic formation of these cross-links. The results demonstrate unequivocally that lacticin 481 synthetase can generate non-native thioether cross-links.
- Gupta P, Aggarwal N, Batra P, Mishra S, Chaudhuri TK
- Co-expression of chaperonin GroEL/GroES enhances in vivo folding of yeast mitochondrial aconitase and alters the growth characteristics of Escherichia coli.
- Int J Biochem Cell Biol. 2006; 38: 1975-85
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Over last two decades many researchers have demonstrated the mechanisms of how the Escherichia coli chaperonin GroEL and GroES work in the binding and folding of different aggregation prone substrate proteins both in vivo and in vitro. However, preliminary aspects, such as influence of co-expressing GroEL and GroES on the over expression of other recombinant proteins in E. coli cells and subsequent growth aspects, as well as the conditions for optimum production of recombinant proteins in presence of recombinant chaperones have not been properly investigated. In the present study we have demonstrated the temperature dependent growth characteristics of E. coli cells, which are over expressing recombinant aconitase and how the co-expression of E. coli chaperonin GroEL and GroES influence the growth rate of the cells and in vivo folding of recombinant aconitase. Presence of co-expressed GroEL reduces the aconitase over-expression drastically; however, exogenous GroEL & GroES together compensate this reduction. For the aconitase over-expressing cells the growth rate decreases by 30% at 25 degrees C when compared with the M15 E. coli cells, however, there is an increase of 20% at 37 degrees C indicating the participation of endogenous chaperonin in the folding of a fraction of over expressed aconitase. However, in presence of co-expressed GroEL and GroES the growth rate of aconitase producing cells was enhanced by 30% at 37 degrees C confirming the assistance of exogenous chaperone system for the folding of recombinant aconitase. Optimum in vivo folding of aconitase requires co-production of complete E. coli chaperonin machinery GroEL and GroES together.
- Mills KV, Connor KR, Dorval DM, Lewandowski KT
- Protein purification via temperature-dependent, intein-mediated cleavage from an immobilized metal affinity resin.
- Anal Biochem. 2006; 356: 86-93
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The intein that interrupts the DNA polymerase II DP2 subunit in Pyrococcus abyssi can be overexpressed in Escherichia coli and purified as an unspliced precursor. On in vitro incubation at 37 degrees Celsius or higher, the intein mediates efficient protein splicing. Mutations can be introduced into an intein fusion protein that prevent the second and third steps of protein splicing. As a result, the intein fusion protein can facilitate temperature-dependent formation of a thioester linkage between the N-extein and intein. This thioester is susceptible to in vitro hydrolysis or thiolysis at temperatures of 40 degrees Celsius or higher, and we have exploited this activity to generate a temperature-dependent protein purification scheme. Protein purification using this intein does not require the addition of exogenous thiols and is compatible with the use of immobilized metal affinity chromatography. The identity of the C-terminal residue of the N-extein has less influence on the cleavage reaction than in current purification systems in terms of premature in vivo cleavage and is complementary to current systems in terms of efficient in vitro cleavage.
- Kulkarni MJ, Vinod VP, Umasankar PK, Patole MS, Rao M
- Intact cell matrix-assisted laser desorption/ionization mass spectrometry as a tool to screen drugs in vivo for regulation of protein expression.
- Rapid Commun Mass Spectrom. 2006; 20: 2769-72
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Here we demonstrate for the first time the application of intact cell matrix-assisted laser desorption/ionization mass spectrometry (ICM-MS) to study the regulation of protein expression. This technique can be extended to screen the drugs that inhibit protein synthesis in various diseases. We have used Escherichia coli cells expressing a recombinant glutathione-S-transferase (GST) gene under an arabinose-inducible promoter as a model system. Using ICM-MS analysis, we have detected a 28 kDa peak corresponding to the production of recombinant GST under the arabinose-induced condition. Furthermore, recombinant GST protein was purified by a single-step affinity purification using a glutathione Sepharose 4B affinity column from arabinose-induced E. coli cells. The purified GST protein was found to be a 28 kDa protein by MALDI analysis suggesting the arabinose-induced protein is indeed GST. The regulation of protein expression was studied using glucose as an alternative metabolite. The glucose-mediated regulation of the ara-operon was followed using the ICM-MS technique. All the results obtained from ICM-MS data were validated using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) analysis. The present technique can be extended for in vivo screening of drugs and it holds tremendous potential to discover novel drugs against specific protein expressions in different diseases.
- Brenac V, Mouz N, Schapman A, Ravault V
- Expression optimization and purification process development of an engineered soluble recombinant mouse linker of activation of T cells using surface enhanced laser desorption/ionization-mass spectrometry.
- Protein Expr Purif. 2006; 47: 533-41
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Protein purification development is the bottleneck of recombinant protein production therefore there is a need to shorten process development and monitoring. Surface enhanced laser desorption/ionization-mass spectrometry (SELDI-MS) was evaluated to optimize the expression and to develop the purification of a recombinant mouse protein: a transmembrane adaptor involved in T cell receptor signaling named "linker for activation of T cells" (LAT). The protein was expressed as a soluble form (S-LAT) in three strains of Escherichia coli: BL21 (DE3), Rosetta (DE3), and BL21 (DE3) pLys S. The expression of S-LAT was monitored on immobilized metal affinity chromatography (IMAC) ProteinChip arrays. The highest level of expression was found in Rosetta (DE3) with a C-terminal construct after induction at 37 degrees C. The purification scheme was elucidated using SELDI-MS: S-LAT was efficiently captured on an IMAC ProteinChip array saturated with nickel ions (Ni(2+)) and then fractionated on a Q ProteinChip array. These conditions were directly transferred to IMAC-Ni(2+) HyperCel and Q Ceramic HyperD F chromatography sorbents. After these two purification steps, S-LAT was estimated to be more than 80% pure, confirming a very good match between array and sorbent. Finally, a peptide mapping was performed on a hydrophobic array after in gel trypsin digest, verifying that the purified protein was the mouse LAT. This is the first report of a protocol for the production and purification of S-LAT. The selection of the best expression and purification strategy along with the identification were enabled in 5 days with less than 5 mL of soluble fraction of crude culture samples.
- Schmoock G et al.
- Functional cross-talk between fatty acid synthesis and nonribosomal peptide synthesis in quinoxaline antibiotic-producing streptomycetes.
- J Biol Chem. 2005; 280: 4339-49
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Quinoxaline antibiotics are chromopeptide lactones embracing the two families of triostins and quinomycins, each having characteristic sulfur-containing cross-bridges. Interest in these compounds stems from their antineoplastic activities and their specific binding to DNA via bifunctional intercalation of the twin chromophores represented by quinoxaline-2-carboxylic acid (QA). Enzymatic analysis of triostin A-producing Streptomyces triostinicus and quinomycin A-producing Streptomyces echinatus revealed four nonribosomal peptide synthetase modules for the assembly of the quinoxalinoyl tetrapeptide backbone of the quinoxaline antibiotics. The modules were contained in three protein fractions, referred to as triostin synthetases (TrsII, III, and IV). TrsII is a 245-kDa bimodular nonribosomal peptide synthetase activating as thioesters for both serine and alanine, the first two amino acids of the quinoxalinoyl tetrapeptide chain. TrsIII, represented by a protein of 250 kDa, activates cysteine as a thioester. TrsIV, an unstable protein of apparent Mr about 280,000, was identified by its ability to activate and N-methylate valine, the last amino acid. QA, the chromophore, was shown to be recruited by a free-standing adenylation domain, TrsI, in conjunction with a QA-binding protein, AcpPSE. Cloning of the gene for the QA-binding protein revealed that it is the fatty acyl carrier protein, AcpPSE, of the fatty acid synthase of S. echinatus and S. triostinicus. Analysis of the acylation reaction of AcpPSE by TrsI along with other A-domains and the aroyl carrier protein AcmACP from actinomycin biosynthesis revealed a specific requirement for AcpPSE in the activation and also in the condensation of QA with serine in the initiation step of QA tetrapeptide assembly on TrsII. These data show for the first time a functional interaction between nonribosomal peptide synthesis and fatty acid synthesis.
- Flensburg J, Tangen A, Prieto M, Hellman U, Wadensten H
- Chemically-assisted fragmentation combined with multi-dimensional liquid chromatography and matrix-assisted laser desorption/ionization post source decay, matrix-assisted laser desorption/ionization tandem time-of flight or matrix-assisted laser desorption/ionization tandem mass spectrometry for improved sequencing of tryptic peptides.
- Eur J Mass Spectrom (Chichester, Eng). 2005; 11: 169-79
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Derivatization of tryptic peptides using an Ettan CAF matrix-assisted laser desorption/ionization (MALDI) sequencing kit in combination with MALDI-post source decay (PSD) is a fast, accurate and convenient way to obtain de novo or confirmative peptide sequencing data. CAF (chemically assisted fragmentation) is based on solid-phase derivatization using a new class of water stable sulfonation agents, which strongly improves PSD analysis and simplifies the interpretation of acquired spectra. The derivatization is performed on solid supports, ZipTip(microC18, limiting the maximum peptide amount to 5 microg. By performing the derivatization in solution enabled the labeling of tryptic peptides derived from 100 microg of protein. To increase the number of peptides that could be sequenced, derivatized peptides were purified using multidimensional liquid chromatography (MDLC) prior to MALDI sequencing. Following the first dimension strong cation exchange (SCX) chromatography step, modified peptides were separated using reversed-phase chromatography (RPC). During the SCX clean up step, positively charged peptides are retained on the column while properly CAF-derivatized peptides (uncharged) are not. A moderately complex tryptic digest, prepared from six different proteins of equimolar amounts, was CAF-derivatized and purified by MDLC. Fractions from the second dimension nano RPC step were automatically sampled and on-line dispensed to MALDI sample plates and analyzed using MALDI mass spectrometry fragmentation techniques. All proteins in the derivatized protein mixture digest were readily identified using MALDI-PSD or MALDI tandem mass spectrometry (MS/MS). More than 40 peptides were unambiguously sequenced, representing a seven-fold increase in the number of sequenced peptides in comparison to when the CAF-derivatized protein mix digest was analyzed directly (no MDLC-separation) using MALDI-PSD. In conclusion, MDLC purification of CAF-derivatized peptides significantly increases the success rate for de novo and confirmative sequencing using various MALDI fragmentation techniques. This new approach is not only applicable to single protein digests but also to more complex digests and could, thus, be an alternative to electrospray ionization MS/MS for peptide sequencing.
- Preusser-Kunze A et al.
- Molecular characterization of the human Calpha-formylglycine-generating enzyme.
- J Biol Chem. 2005; 280: 14900-10
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Calpha-formylglycine (FGly) is the catalytic residue in the active site of sulfatases. In eukaryotes, it is generated in the endoplasmic reticulum by post-translational modification of a conserved cysteine residue. The FGly-generating enzyme (FGE), performing this modification, is an endoplasmic reticulum-resident enzyme that upon overexpression is secreted. Recombinant FGE was purified from cells and secretions to homogeneity. Intracellular FGE contains a high mannose type N-glycan, which is processed to the complex type in secreted FGE. Secreted FGE shows partial N-terminal trimming up to residue 73 without loosing catalytic activity. FGE is a calcium-binding protein containing an N-terminal (residues 86-168) and a C-terminal (residues 178-374) protease-resistant domain. The latter is stabilized by three disulfide bridges arranged in a clamp-like manner, which links the third to the eighth, the fourth to the seventh, and the fifth to the sixth cysteine residue. The innermost cysteine pair is partially reduced. The first two cysteine residues are located in the sequence preceding the N-terminal protease-resistant domain. They can form intramolecular or intermolecular disulfide bonds, the latter stabilizing homodimers. The C-terminal domain comprises the substrate binding site, as evidenced by yeast two-hybrid interaction assays and photocross-linking of a substrate peptide to proline 182. Peptides derived from all known human sulfatases served as substrates for purified FGE indicating that FGE is sufficient to modify all sulfatases of the same species.
- Gomes C et al.
- Expression of the putative sterol binding protein Stard6 gene is male germ cell specific.
- Biol Reprod. 2005; 72: 651-8
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Mammalian spermatogenesis is orchestrated by many specific molecular and cellular events. To understand the detailed mechanism by which spermatogenesis is controlled, the specific genes involved in this process must be identified and studied. From the subtracted cDNA library of rat testis prepared using the representational difference analysis (RDA) method, we isolated the cDNA clone of steroidogenic acute regulatory (StAR) protein-related lipid transfer (START) protein 6 (Stard6). Stard6 cDNA consists of 1146 base pairs of nucleotides and has the longest open reading frame, of 227 amino acids. Northern blot analysis revealed Stard6 mRNA to be testis-specific. The mRNA transcript appeared from the third week of postnatal development, and the expression level increased up to adulthood. Moreover, in situ hybridization showed Stard6 mRNA expression to be germ cell-specific and expressed only during the maturation stages of round and elongated spermatids of adult rat testis. Western blot analysis with Stard6 antibody revealed a 28-kDa Stard6 protein only in testis. Immunohistochemistry further confirmed localization of Stard6 protein expressed in mature germ cells, in concert with the in situ hybridization result. Taken together, these results suggest that Stard6, a member of the START protein family, may play a role during germ cell maturation in adult rat testis.
- Patton GC, van der Donk WA
- New developments in lantibiotic biosynthesis and mode of action.
- Curr Opin Microbiol. 2005; 8: 543-51
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Lantibiotics are a unique class of peptide antibiotics. Recent studies of the proteins involved in the elaborate post-translational modifications of lantibiotics have revealed that these enzymes have relaxed substrate specificity. These modifications include the dehydration of serine and threonine residues followed by the intramolecular addition of cysteine thiols to the unsaturated amino acids to create an intricate polycyclic peptide. The use of peptide engineering in vivo and in vitro has allowed investigation of their biosynthetic machinery. Several members utilize a unique mode of biological action that involves the sequestration of lipid II, a crucial intermediate in peptidoglycan biosynthesis, to form pores in bacterial membranes.
- Pfister TD et al.
- Monooxygenation of an aromatic ring by F43W/H64D/V68I myoglobin mutant and hydrogen peroxide. Myoglobin mutants as a model for P450 hydroxylation chemistry.
- J Biol Chem. 2005; 280: 12858-66
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Myoglobin (Mb) is used as a model system for other heme proteins and the reactions they catalyze. The latest novel function to be proposed for myoglobin is a P450 type hydroxylation activity of aromatic carbons (Watanabe, Y., and Ueno, T. (2003) Bull. Chem. Soc. Jpn. 76, 1309-1322). Because Mb does not contain a specific substrate binding site for aromatic compounds near the heme, an engineered tryptophan in the heme pocket was used to model P450 hydroxylation of aromatic compounds. The monooxygenation product was not previously isolated because of rapid subsequent oxidation steps (Hara, I., Ueno, T., Ozaki, S., Itoh, S., Lee, K., Ueyama, N., and Watanabe, Y. (2001) J. Biol. Chem. 276, 36067-36070). In this work, a Mb variant (F43W/H64D/V68I) is used to characterize the monooxygenated intermediate. A modified (+16 Da) species forms upon the addition of 1 eq of H2O2. This product was digested with chymotrypsin, and the modified peptide fragments were isolated and characterized as 6-hydroxytryptophan using matrix-assisted laser desorption ionization time-of-flight tandem mass spectroscopy and 1H NMR. This engineered Mb variant represents the first enzyme to preferentially hydroxylate the indole side chain of Trp at the C6 position. Finally, heme extraction was used to demonstrate that both the formation of the 6-hydroxytryptophan intermediate (+16 Da) and subsequent oxidation to form the +30 Da final product are catalyzed by the heme cofactor, most probably via the compound I intermediate. These results provide insight into the mechanism of hydroxylation of aromatic carbons by heme proteins, demonstrating that non-thiolate-ligated heme enzymes can perform this function. This establishes Mb compound I as a model for P450 type aromatic hydroxylation chemistry.
- Rao XC et al.
- A novel carrier molecule for high-level expression of peptide antibiotics in Escherichia coli.
- Protein Expr Purif. 2004; 36: 11-8
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Peptide antibiotics are often hard to express in engineered bacteria at high level. According to the properties of peptide antibiotics, a heterologous protein PaP3.30, encoded by ORF30 of Pseudomonas aeruginosa bacteriophage PaP3, was selected as a carrier molecule. The gene of the carrier molecule was constructed into the plasmid pQE-32 to give rise to the vector pQE-PaP30 for expression of peptide antibiotics in Escherichia coli. A his-tagged fusion protein was genetically constructed with a peptide antibiotic at its carboxy terminus. The novel carrier molecule was used for high-level expression of six peptide antibiotics with different sizes and isoelectric points in E. coli, which are hPAB-beta, MSI-78, Melletin, hBD-1, Cecropin A, and an ovine anion peptide. And further, one of six peptide antibiotics, hPAB-beta (an analog of a human peptide antibiotic), was taken as an example for studies of recovery of interesting products from the fusion partner, purification and antimicrobial activity evaluation. The results indicated that the expressed fusion protein existed as an inclusion body in the cytoplasm and the expression amounts of six peptide antibiotic fusions are all higher than 34% of the total cell protein. The expression products could be easily purified by Ni-NTA chromatography. Cyanogen bromide was used to cut at the methionine linker between the carrier and hPAB-beta peptide. hPAB-beta was recovered from the fusion partner and purified to homogeneity with High S cation-exchange and Bio-gel P6 gel chromatography. The bactericidal activities of the purified recombinant hPAB-beta against P. aeruginosa are 31-64 microg/ml, and against Staphylococcus aureus are > or = 128 microg/ml, being comparable to that of the chemical synthesis peptide. These results show that the carrier molecule can result in high-level expression of peptide antibiotics, and expression products can be easily recovered from their fusion partner and retain their bioactivity.
- Liu YQ, Sun ZJ, Wang C, Li SJ, Liu YZ
- Purification of a novel antibacterial short peptide in earthworm Eisenia foetida.
- Acta Biochim Biophys Sin (Shanghai). 2004; 36: 297-302
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A novel antimicrobial short peptide was purified from earthworm (Eisenia foetida) by a five-step protocol including ammonium sulfate precipitation, ultrafiltration, DE-52 ion exchange chromatography, Sephadex G-10 column chromatography, and C-18 reversed-phase HPLC techniques. The purified peptide was applied to the MALDI-TOP MS to determine the molecular mass and was also subjected to TOF MS-MS analysis to determine the amino acid sequence. As a result, a novel antibacterial peptide, named OEP3121, was obtained, with the molecular mass of 510.8 Da and the sequence being "ACSAG".
- Hou EW, Prasad R, Beard WA, Wilson SH
- High-level expression and purification of untagged and histidine-tagged HIV-1 reverse transcriptase.
- Protein Expr Purif. 2004; 34: 75-86
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We have devised simplified protocols to purify large quantities of histidine-tagged (His-tagged) and untagged heterodimeric forms of human immunodeficiency virus type-1 reverse transcriptase (HIV-1 RT). Here, we report the optimization of overexpression and purification of heterodimeric RT expressed in Escherichia coli. The coding sequences of p66 and p51 subunits of RT were amplified using PCR from HXB2 HIV-1 and cloned into a bacterial expression system. The resulting expression plasmids for the RT subunits, pET-RT66 and pET-RT51, were under a strong T7/lac promoter that is induced by isopropyl-beta-d-thiogalactopyranoside. Purification of heterodimeric forms of RT was facilitated by high-level expression of these subunits that represented approximately 30-40% of total cell protein. For purification of the His-tagged heterodimeric RT, cell pellet from cells expressing the untagged p66 subunit was mixed in excess with a cell pellet expressing tagged p51. For untagged heterodimeric RT, the pellet from cells expressing p51 was mixed in excess with pellet expressing p66. Subunit dimerization occurred during cell lysis. During the subsequent chromatography steps, stable p66/p51 heterodimer was purified to homogeneity. The heterodimeric nature of the final preparations of RT was confirmed by analytical gel filtration, mass spectrometry, and denaturing gel electrophoresis. Further, the sensitivity of these enzyme preparations to AZTTP indicated that the histidine tag had no effect on nucleoside inhibitor binding, nucleotide binding or insertion, or DNA binding. The application of these expression/purification methodologies represents a useful method to purify large quantities of heterodimeric RT for structural investigations and provides an efficient protocol to produce subunit-specific amino acid alterations necessary for unambiguous structure/function investigations.
- Kuipers A et al.
- NisT, the transporter of the lantibiotic nisin, can transport fully modified, dehydrated, and unmodified prenisin and fusions of the leader peptide with non-lantibiotic peptides.
- J Biol Chem. 2004; 279: 22176-82
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Lantibiotics are lanthionine-containing peptide antibiotics. Nisin, encoded by nisA, is a pentacyclic lantibiotic produced by some Lactococcus lactis strains. Its thioether rings are posttranslationally introduced by a membrane-bound enzyme complex. This complex is composed of three enzymes: NisB, which dehydrates serines and threonines; NisC, which couples these dehydrated residues to cysteines, thus forming thioether rings; and the transporter NisT. We followed the activity of various combinations of the nisin enzymes by measuring export of secreted peptides using antibodies against the leader peptide and mass spectroscopy for detection. L. lactis expressing the nisABTC genes efficiently produced fully posttranslationally modified prenisin. Strikingly, L. lactis expressing the nisBT genes could produce dehydrated prenisin without thioether rings and a dehydrated form of a non-lantibiotic peptide. In the absence of the biosynthetic NisBC enzymes, the NisT transporter was capable of excreting unmodified prenisin and fusions of the leader peptide with non-lantibiotic peptides. Our data show that NisT specifies a broad spectrum (poly)peptide transporter that can function either in conjunction with or independently from the biosynthetic genes. NisT secretes both unmodified and partially or fully posttranslationally modified forms of prenisin and non-lantibiotic peptides. These results open the way for efficient production of a wide range of peptides with increased stability or novel bioactivities.
- Fenaille F, Tabet JC, Guy PA
- Identification of 4-hydroxy-2-nonenal-modified peptides within unfractionated digests using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.
- Anal Chem. 2004; 76: 867-73
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The lipid peroxidation product 4-hydroxy-2-nonenal (HNE) is generated as a consequence of oxidative stress and can readily react with nucleophilic sites of proteins (e.g., histidine residues), mainly via a Michael addition. The formation of such lipid-protein conjugates can alter protein properties and biological functions, thus leading to highly deleterious effects. The present work describes a rapid (very limited sample preparation) and sensitive (low-femtomole range) procedure to identify HNE-modified peptides (Michael adducts) within unfractionated tryptic digests. The protocol involves the formation of dinitrophenylhydrazones of the Michael adducts, when using 2,4-dinitrophenylhydrazine as reactive matrix, followed by analysis using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOFMS). The hydrazone derivatives present high desorption/ionization yield and can thus be preferentially detected compared to unmodified peptides. The MALDI mass spectrum obtained is therefore drastically different from the one obtained with the classical 4-hydroxy-alpha-cyanocinnamic acid matrix. Moreover, the presence of HNE, or more generally speaking carbonylated peptides, could be highlighted by 180 mass units differences (corresponding to the dinitrophenylhydrazone moiety) between these two MALDI mass spectra. Further information (e.g., localization/identification of the modified residues, peptide sequences) could be obtained by performing MALDI postsource decay (or electrospray) MS/MS experiments on the ions of interest.
- Kuhn M et al.
- Identification of an orphan guanylate cyclase receptor selectively expressed in mouse testis.
- Biochem J. 2004; 379: 385-93
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We have identified a novel membrane form of guanylate cyclase (GC) from a mouse testis cDNA library and termed it mGC-G (mouse GC-G) based on its high sequence homology to rat GC-G. It encodes a potential type I transmembrane receptor, with the characteristic domain structure common to all members of the family of membrane GCs, including an extracellular, putative ligand-binding domain, a single membrane-spanning segment and cytoplasmic protein kinase-like and cyclase catalytic domains. Real-time quantitative reverse transcriptase--PCR and Northern-blot analyses showed that mGC-G is highly and selectively expressed in mouse testis. Phylogenetic analysis based on the extracellular protein sequence revealed that mGC-G is closely related to members of the subfamily of natriuretic peptide receptor GCs. When overexpressed in HEK-293T cells (human embryonic kidney 293T cells) or COS-7 cells, mGC-G manifests as a membrane-bound glycoprotein, which can form either homomeric or heteromeric complexes with the natriuretic peptide receptor GC-A. It exhibits marked cGMP-generating GC activity; however, notably, all ligands known to activate other receptor GCs failed to stimulate enzymic activity. The unique testis-enriched expression of mGC-G, which is completely different from the broader tissue distribution of rat GC-G, suggests the existence of as-yet-unidentified ligands and unappreciated species-specific physiological functions mediated through mGC-G/cGMP signalling in the testis.
- Kleerebezem M, Bongers R, Rutten G, de Vos WM, Kuipers OP
- Autoregulation of subtilin biosynthesis in Bacillus subtilis: the role of the spa-box in subtilin-responsive promoters.
- Peptides. 2004; 25: 1415-24
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The production of the type I antimicrobial peptide (AMP) subtilin by Bacillus subtilis is regulated in a cell-density-dependent manner [Kleerebezem M, de Vos WM, Kuipers OP. The lantibiotics nisin and subtilin act as extracellular regulators of their own biosynthesis. In: Dunny GM, Winans SC, editors. Cell-cell signaling in bacteria. Washington, D.C., USA: ASM Press; 1999. p. 159-74; Stein T, Borchert S, Kiesau P, Heinzmann S, Kloss S, Klein C, Helfrich M, Entian KD. Dual control of subtilin biosynthesis and immunity in Bacillus subtilis. Mol Microbiol 2002;44:403-16; Stein T, Heinzmann S, Kiesau P, Himmel B, Entian KD. The spa-box for transcriptional activation of subtilin biosynthesis and immunity in Bacillus subtilis. Mol Microbiol 2003;47:1627-36]. Three subtilin-responsive promoter elements within the spaBTCSIFEGRK are controlled by the specific cis-acting sequence element called the spa-box, which represents the binding site of the subtilin regulator SpaR [Stein T, Heinzmann S, Kiesau P, Himmel B, Entian KD. The spa-box for transcriptional activation of subtilin biosynthesis and immunity in Bacillus subtilis. Mol Microbiol 2003;47:1627-36]. Here, we describe the functional characterization of the spaB, spaS and spaI promoters by transcriptional fusion with a promoterless beta-glucuronidase encoding gusA gene. Within these gusA fusion constructs, transcription initiation start sites of the spaS and spaI promoters were mapped to be located downstream of the spa-box, which is in contrast to previous reports [Banerjee S, Hansen JN. Structure and expression of a gene encoding the precursor of subtilin, a small protein antibiotic. J Biol Chem 1988;263:9508-14; Stein T, Heinzmann S, Kiesau P, Himmel B, Entian KD. The spa-box for transcriptional activation of subtilin biosynthesis and immunity in Bacillus subtilis. Mol Microbiol 2003;47:1627-36]. Nevertheless, all spa-promoters displayed typical cell-density-dependent activity in a subtilin-producing strain B. subtilis ATCC6633. Moreover, analysis of beta-glucuronidase activities in a spaB mutant of B. subtilis ATCC6633 and a derivative of strain 168 that harbors the spaRK genes integrated in the chromosomal amyE locus, confirmed that these promoters are activated by subtilin-triggered, SpaRK-mediated, quorum-sensing control. Quantitative analysis showed that the spaS promoter strength at a given subtilin concentration appeared to be approximately five-fold higher than the spaB promoter, which in turn is approximately two-fold higher than the spaI promoter. Finally, it is shown that the elementary components involved in subtilin-mediated regulation are the two-component system, SpaRK, and a spa-box containing promoter.
- Kleerebezem M
- Quorum sensing control of lantibiotic production; nisin and subtilin autoregulate their own biosynthesis.
- Peptides. 2004; 25: 1405-14
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Lantibiotics are produced by a variety of Gram-positive bacteria. The production of these peptides appears to be regulated at the transcriptional level in a cell-density-dependent manner in various bacteria. This phenomenon has been studied in detail for the production of nisin by Lactococcus lactis, and the production of the structurally similar subtilin by Bacillus subtilis. In this paper, the molecular mechanism underlying regulation of nisin and subtilin production is reviewed. This quorum sensing, autoregulatory module includes the lantibiotics themselves as peptide pheromones, the signal transduction by the corresponding two-component regulatory systems, and the lantibiotic-responsive promoter elements in the biosynthesis gene clusters. Finally, the exploitation of these regulatory characteristics for the development of highly effective controlled gene expression systems in Gram-positive bacteria is discussed.
- Thomas X et al.
- Siderophore peptide, a new type of post-translationally modified antibacterial peptide with potent activity.
- J Biol Chem. 2004; 279: 28233-42
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Microcin E492 (MccE492, 7886 Da), the 84-amino acid antimicrobial peptide from Klebsiella pneumoniae, was purified in a post-translationally modified form, MccE492m (8717 Da), from culture supernatants of either the recombinant Escherichia coli VCS257 strain harboring the pJAM229 plasmid or the K. pneumoniae RYC492 strain. Chymotrypsin digestion of MccE492m led to the MccE492m-(74-84) C-terminal fragment that carries the modification and that was analyzed by mass spectrometry and nuclear magnetic resonance at natural abundance. The 831-Da post-translational modification consists of a trimer of N-(2,3-dihydroxybenzoyl)-l-serine linked via a C-glycosidic linkage to a beta-d-glucose moiety, itself linked to the MccE492m Ser-84-carboxyl through an O-glycosidic bond. This modification, which mimics a catechol-type siderophore, was shown to bind ferric ions by analysis of the collision-induced dissociation pattern obtained for MccE492m-(74-84) by electrospray ion trap mass spectrometry experiments in the presence of FeCl(3). By using a series of wild-type and mutant isogenic strains, the three catechol-type siderophore receptors Fiu, Cir, and FepA were shown to be responsible for the recognition of MccE492m at the outer membrane of sensitive bacteria. Because MccE492m shows a broader spectrum of antibacterial activity and is more potent than MccE492, we propose that by increasing the microcin/receptor affinity, the modification leads to a better recognition and subsequently to a higher antimicrobial activity of the microcin. Therefore, MccE492m is the first member of a new class of antimicrobial peptides carrying a siderophore-like post-translational modification and showing potent activity, which we term siderophore-peptides.
- Hwang KC, Ok DW, Hong JC, Kim MO, Kim JH
- Cloning, sequencing, and characterization of the murine nm23-M5 gene during mouse spermatogenesis and spermiogenesis.
- Biochem Biophys Res Commun. 2003; 306: 198-207
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Nucleoside diphosphate kinases (NDPKs) are conserved throughout evolution and have been shown to be involved in various biological phenomena. By functional screening in yeast, we identified a new member of the NDPK family, nm23-M5, which encodes a 211-amino acid protein with 86% identity to the human homolog Nm23-H5. Northern blot analysis revealed that nm23-M5 encodes two transcripts of 0.8 and 0.7kb, which are highly and specifically expressed in adult testis. Reverse transcriptase polymerase chain reaction (RT-PCR) analysis showed that nm23-M5 transcripts first appear in pachytene spermatocytes and increase in abundance in subsequent stages. However, a low level of nm23-M5 mRNA was detected by RT-PCR in other tissues, such as ovary, brain, heart, and kidney. In situ hybridization studies showed that testicular nm23-M5 transcripts are localized in stage 12 to stage 16 spermatids in the neighboring lumen of seminiferous tubules. This distribution contrasts with that of Nm23-H5 transcripts, which are specifically found in spermatogonia and early spermatocytes. The heterologous expression of nm23-M5 in yeast cells confers protection from cell death induced by Bax, which is due to the generation of reactive oxygen species. Furthermore, overexpression of nm23-M5 in fibroblasts altered the cellular levels of several antioxidant enzymes, particularly glutathione peroxidase 5. Thus, we believe that the murine nm23-M5 gene plays an important role in late spermiogenesis by elevating the ability of late-stage spermatids to eliminate reactive oxygen species.
- Hooper JD, Campagnolo L, Goodarzi G, Truong TN, Stuhlmann H, Quigley JP
- Mouse matriptase-2: identification, characterization and comparative mRNA expression analysis with mouse hepsin in adult and embryonic tissues.
- Biochem J. 2003; 373: 689-702
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We report the identification and characterization of mouse matriptase-2 (m-matriptase-2), an 811-amino-acid protein composed of an N-terminal cytoplasmic domain, a membrane-spanning domain, two CUB (complement protein subcomponents C1r/C1s, urchin embryonic growth factor and bone morphogenetic protein 1) domains, three LDLR (low-density-lipoprotein receptor class A) domains and a C-terminal serine-protease domain. All m-matriptase-2 protein domain boundaries corresponded with intron/exon junctions of the encoding gene, which spans approx. 29 kb and comprises 18 exons. Matriptase-2 is highly conserved in human, mouse and rat, with the rat matriptase-2 gene ( r-maltriptase-2 ) predicted to encode transmembrane and soluble isoforms. Western-blot analysis indicated that m-matriptase-2 migrates close to its theoretical molecular mass of 91 kDa, and immunofluorescence analysis was consistent with the proposed surface membrane localization of this protein. Reverse-transcription PCR and in-situ -hybridization analysis indicated that m-matriptase-2 expression overlaps with the distribution of mouse hepsin (m-hepsin, a cell-surface serine protease identified in hepatoma cells) in adult tissues and during embryonic development. In adult tissues both are expressed at highest levels in liver, kidney and uterus. During embryogenesis m-matriptase-2 expression peaked between days 12.5 and 15.5. m-hepsin expression was biphasic, with peaks at day 7.5 to 8.5 and again between days 12.5 and 15.5. In situ hybridization of embryonic tissues indicated abundant expression of both m-matriptase-2 and m-hepsin in the developing liver and at lower levels in developing pharyngo-tympanic tubes. While m-hepsin was detected in the residual embryonic yolk sac and with lower intensity in lung, heart, gastrointestinal tract, developing kidney tubules and epithelium of the oral cavity, m-matriptase-2 was absent in these tissues, but strongly expressed within the nasal cavity by olfactory epithelial cells. Mechanistic insight into the potential role of this new transmembrane serine protease is provided by its novel expression profile in embryonic and adult mouse.
- Speidel D et al.
- A family of Ca2+-dependent activator proteins for secretion: comparative analysis of structure, expression, localization, and function.
- J Biol Chem. 2003; 278: 52802-9
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Ca2+-dependent activator protein for secretion (CAPS) 1 is an essential cytosolic component of the protein machinery involved in large dense-core vesicle (LDCV) exocytosis and in the secretion of a subset of neurotransmitters. In the present study, we report the identification, cloning, and comparative characterization of a second mammalian CAPS isoform, CAPS2. The structure of CAPS2 and its function in LDCV exocytosis from PC12 cells are very similar to those of CAPS1. Both isoforms are strongly expressed in neuroendocrine cells and in the brain. In subcellular fractions of the brain, both CAPS isoforms are enriched in synaptic cytosol fractions and also present on vesicular fractions. In contrast to CAPS1, which is expressed almost exclusively in brain and neuroendocrine tissues, CAPS2 is also expressed in lung, liver, and testis. Within the brain, CAPS2 expression seems to be restricted to certain brain regions and cell populations, whereas CAPS1 expression is strong in all neurons. During development, CAPS2 expression is constant between embryonic day 10 and postnatal day 60, whereas CAPS1 expression is very low before birth and increases after postnatal day 0 to reach a plateau at postnatal day 21. Light microscopic data indicate that both CAPS isoforms are specifically enriched in synaptic terminals. Ultrastructural analyses show that CAPS1 is specifically localized to glutamatergic nerve terminals. We conclude that at the functional level, CAPS2 is largely redundant with CAPS1. Differences in the spatial and temporal expression patterns of the two CAPS isoforms most likely reflect as yet unidentified subtle functional differences required in particular cell types or during a particular developmental period. The abundance of CAPS proteins in synaptic terminals indicates that they may also be important for neuronal functions that are not exclusively related to LDCV exocytosis.
- Kanazawa R et al.
- Isolation and characterization of a human sperm antigen gene h-Sp-1.
- Int J Androl. 2003; 26: 226-35
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We isolated and characterized a human sperm antigen gene (h-Sp-1) from human testis complementary DNA using antiserum against the human sperm membrane. Northern blot analysis detected two transcripts (2.3 and 1.1 kb) of the h-Sp-1 gene. The 2.3-kb transcript is ubiquitous, whereas the 1.1-kb transcript is specific to the human testis with a high level of expression. Determination of the base sequence of h-Sp-1 showed a size of 2170 bp and 43.4% homology with human synaptophysin. The base sequence indicates a molecule consisting of 259 amino acids, with four hydrophilic and four hydrophobic regions. In order to further characterize the h-Sp-1 molecule, we synthesized the probable region of amino acids with high antigenicity based on the amino acid sequence (amino acid nos. 174-198) and immunized rabbits to prepare an antiserum. In our experimental model of fertilization between human sperm and zona pellucida-free hamster ova, partial inhibition of fertilization was observed. We were able to synthesize a large quantity of recombinant protein by inserting the h-Sp-1 gene into a baculovirus vector and infecting spodoptera frugiperda culture cells (sf9 insect cells). The synthesized protein had a molecular weight of 30 kDa. We then immunized Balb/c mice with this protein to prepare a monoclonal antibody (G3G9), which was used to localize the h-Sp-1 molecule in sperm and tissues (e.g. testis). The h-Sp-1 molecule was present in the cell membrane from the head to tail of human sperm. Staining of the testis and epididymis also showed h-Sp-1 to be present in spermatogonia, spermatocyte, sperm and epididymal duct epithelium. These findings suggest that the h-Sp-1 molecule is expressed in sperm and testes and plays a role in fertilization.
- Koy C et al.
- Matrix-assisted laser desorption/ionization- quadrupole ion trap-time of flight mass spectrometry sequencing resolves structures of unidentified peptides obtained by in-gel tryptic digestion of haptoglobin derivatives from human plasma proteomes.
- Proteomics. 2003; 3: 851-8
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Two-dimensional gel electrophoresis-separated and excised haptoglobin alpha2-chain protein spots were subjected to in-gel digestion with trypsin. Previously unassigned peptide ion signals observed in mass spectrometric fingerprinting experiments were sequenced using the matrix-assisted laser desorption/ionization-quadrupole ion trap-time of flight (MALDI-QIT-TOF) mass spectrometer and showed that the haptoglobin alpha-chain derivative under study was cleaved by trypsin unspecifically. Abundant cleavages occurred C-terminal to histidine residues at H23, H28, and H87. In addition, mild acidic hydrolysis leading to cleavage after aspartic acid residues at D13 was observed. The uninterpreted tandem mass spectrometry (MS/MS) spectrum of the peptide with ion signal at 2620.19 was submitted to database search and yielded the identification of the corresponding peptide sequence comprising amino acids (aa) aa65-87 from the haptoglobin alpha-chain protein. Also, the presence of a mixture of two tryptic peptides (mass to charge ratio m/z 1708.8; aa40-54, and aa99-113, respectively), that is caused by a tiny sequence variation between the two repeats in the haptoglobin alpha2-chain protein was resolved by MS/MS fragmentation using the MALDI-QIT-TOF mass spectrometer instrument. Advantageous features such as (i) easy parent ion creation, (ii) minimal sample consumption, and (iii) real collision induced dissociation conditions, were combined successfully to determine the amino acid sequences of the previously unassigned peptides. Hence, the novel mass spectrometric sequencing method applied here has proven effective for identification of distinct molecular protein structures.
- Dorenbos R et al.
- Thiol-disulfide oxidoreductases are essential for the production of the lantibiotic sublancin 168.
- J Biol Chem. 2002; 277: 16682-8
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Thiol-disulfide oxidoreductases are required for disulfide bond formation in proteins that are exported from the cytoplasm. Four enzymes of this type, termed BdbA, BdbB, BdbC, and BdbD, have been identified in the Gram-positive eubacterium Bacillus subtilis. BdbC and BdbD have been shown to be critical for the folding of a protein required for DNA uptake during natural competence. In contrast, no function has been assigned so far to the BdbA and BdbB proteins. The bdbA and bdbB genes are located in one operon that also contains the genes specifying the lantibiotic sublancin 168 and the ATP-binding cassette transporter SunT. Interestingly sublancin 168 contains two disulfide bonds. The present studies demonstrate that SunT and BdbB, but not BdbA, are required for the production of active sublancin 168. In addition, the BdbB paralogue BdbC is at least partly able to replace BdbB in sublancin 168 production. These observations show the unprecedented involvement of thiol-disulfide oxidoreductases in the synthesis of a peptide antibiotic. Notably BdbB cannot complement BdbC in competence development, showing that these two closely related thiol-disulfide oxidoreductases have different, but partly overlapping, substrate specificities.
- Yan W, Burns KH, Ma L, Matzuk MM
- Identification of Zfp393, a germ cell-specific gene encoding a novel zinc finger protein.
- Mech Dev. 2002; 118: 233-9
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Using the digital differential display program of the National Center for Biotechnology Information, we identified a contig of expression sequence tags (ESTs) which were unique to ovary, testis, and egg libraries. The full-length cDNA of this transcript was deduced and further confirmed by reverse transcriptase polymerase chain reaction (RT-PCR). The cDNA encodes a novel protein of 341 amino acids with a nuclear localization signal. The carboxyl-terminus of the protein contains three C2H2 zinc fingers, and the NH(2)-terminus is proline and serine-rich. Based on the conserved zinc finger motifs, we have termed this novel protein as zinc finger protein 393 (ZFP393). Northern blot and RT-PCR analyses revealed that Zfp393 mRNA was exclusively expressed in testis and ovary. The expression sites were further localized by in situ hybridization to step 3-8 spermatids in testis and growing oocytes in ovary. The Zfp393 gene consists of three exons spanning approximately 8 kb on the distal part of mouse chromosome 4. The carboxyl-terminal zinc finger region is highly homologous to several zinc finger-containing proteins, but no proteins were found to share sequence similarity with the NH(2)-terminal region of ZFP393. Genomic database mining and Southern blot analysis indicate that Zfp393 is a single copy gene. We hypothesize that ZFP393 functions as a germ cell-specific transcription factor that plays important roles in spermatid differentiation and oocyte development.
- Doiguchi M, Yamashita H, Ichinose J, Mori T, Shibata Y, Iida H
- Complementary DNA cloning and characterization of rat spergen-1, a spermatogenic cell-specific gene-1, containing a mitochondria-targeting signal.
- Biol Reprod. 2002; 66: 1462-70
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To elucidate the molecular mechanisms involved with spermiogenesis in testis, we performed differential display screening to isolate genes that are developmentally up-regulated during rat testis development. One of the cDNAs isolated by differential display was highly expressed in testis. Both reverse transcription-polymerase chain reaction and Northern blot analysis showed that the expression level of the gene developmentally increased. By screening the rat testis cDNA library, we successfully isolated rat cDNA clones encoding the entire open-reading frame of 462 base pairs coding a small protein of 154 amino acids. Because in situ hybridization revealed that the gene was specifically expressed in haploid spermatids in the rat seminiferous tubules, it was designated as spergen-1 (spermatogenic cell-specific gene-1). The recently opened database of the full-length mouse cDNA collection contains a mouse gene that is homologous to rat spergen-1. Subcellular fractionation followed by immunoblot analysis revealed that spergen-1 protein was associated with mitochondria. The transfection experiments performed in COS-7 cells suggested that spergen-1 has a N-terminal mitochondria-targeting signal. We suggest that spergen-1 might be involved in spermiogenesis by transiently associating with spermatid mitochondria.
- Li Y, Friel PJ, Robinson MO, McLean DJ, Griswold MD
- Identification and characterization of testis- and epididymis-specific genes: cystatin SC and cystatin TE-1.
- Biol Reprod. 2002; 67: 1872-80
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Differential display-reverse transcriptase-polymerase chain reaction was used to examine Sertoli cell gene expression. As a result, two new members of the mouse cystatin multigene family were isolated and named cystatin SC (cystatin-related gene expressed in Sertoli cells) and cystatin TE-1 (cystatin-related gene highly expressed in testis and epididymis). The full-length cDNA sequence of cystatin SC contains an open reading frame that encodes a putative signal peptide of 20 amino acids and a mature protein of 110 amino acids, whereas that of cystatin TE-1 encodes a 128 amino acid protein with a predicted signal peptide of 21 amino acids. Both of the deduced amino acid sequences contain four highly conserved cysteine residues in precise alignment with other cystatin family members. The derived cystatin SC and TE-1 amino acid sequences lack some of the specific, highly conserved motifs believed to be necessary for cysteine proteinase inhibition activity. Northern blot analysis revealed that cystatin SC mRNA was detected only in the testis, whereas the cystatin TE-1 gene was highly expressed in testis and epididymis with very low expression in ovary and prostate. In situ hybridization showed that cystatin SC mRNA was localized mainly to Sertoli cells with an obvious stage-dependent expression, and that cystatin TE-1 mRNA was predominantly expressed in Sertoli cells without apparent stage-dependent expression. Cystatin TE-1 mRNA, as displayed by in situ hybridization, was expressed only in the epithelial cells of the proximal caput region of the epididymis. The unusual amino acid sequence and highly restricted expression suggests that cystatins SC and TE-1 play a very specialized role in the testis and epididymis.
- Zelenin S, Aperia A, Diaz Heijtz R
- Calcyon in the rat brain: cloning of cDNA and expression of mRNA.
- J Comp Neurol. 2002; 446: 37-45
- Display abstract
Calcyon is a 24 kD protein recently cloned from a human brain cDNA library and shown to interact with the dopamine receptor 1 (D1R) of D1-like receptors. This interaction shifts the effector coupling of D1R to stimulate a calcium signaling pathway, without influencing the D1R-adenylyl-cAMP pathway. To obtain more knowledge about the potential role of calcyon in the brain, we cloned rat calcyon cDNA and studied its distribution in the brain. Northern blot analysis and RT-PCR revealed that rat calcyon mRNA was expressed only in the brain. With the use of the in situ hybridization technique, we studied rat calcyon mRNA distribution in the brain and related it to the distribution of D1R and dopamine receptor 5 (D5R) mRNAs. Prominent calcyon mRNA signals were found in several brain regions, including hippocampus, hypothalamus, cerebellum, and medial prefrontal cortex. Less abundant calcyon mRNA expression was observed in the dorsal striatum region, where D1R mRNA is highly expressed and where D1R/cAMP-DARPP-32 signaling pathway is of great functional importance. The strongest expression of D5R mRNA was found in the hippocampus and cerebellum, where D1R mRNA expression was relatively low. In conclusion, rat calcyon appears to be a brain specific protein. There is a certain overlap between calcyon mRNA distribution and that of the D1R and D5 mRNAs, indicating that calcyon might be associated not only with D1R but also with D5R.
- Zhang F et al.
- Characterization of Glis2, a novel gene encoding a Gli-related, Kruppel-like transcription factor with transactivation and repressor functions. Roles in kidney development and neurogenesis.
- J Biol Chem. 2002; 277: 10139-49
- Display abstract
In this study, we describe the characterization of a gene encoding a novel Kruppel-like protein, named Glis2. Glis2 encodes a relatively proline-rich, basic 55.8-kDa protein. Its five tandem Cys(2)-His(2) zinc finger motifs exhibit the highest homology to those of members of the Gli and Zic subfamilies of Kruppel-like proteins. Confocal microscopic analysis demonstrated that Glis2 localizes to the nucleus. Analysis of the genomic structure of the Glis2 gene showed that it is composed of 6 exons separated by 5 introns spanning a genomic region of more than 7.5 kb. Fluorescence in situ hybridization mapped the mouse Glis2 gene to chromosome 16A3-B1. Northern blot analysis showed that the Glis2 gene encodes a 3.8-kb transcript that is most abundant in adult mouse kidney. By in situ hybridization, expression was localized to somites and neural tube, and during metanephric development predominantly to the ureteric bud, precursor of the collecting duct, and inductor of nephronic tubule formation. One-hybrid analysis using Glis2 deletion mutants identified a novel activation function (AF) at the N terminus. The activation of transcription through this AF domain was totally suppressed by two repressor functions just downstream from the AF. One of the repressor functions is contained within the first zinc finger motif. The level of transcriptional activation and repression varied with the cell line tested, which might be due to differences in cell type-specific expression of co-activators and co-repressors. Our results suggest that Glis2 behaves as a bifunctional transcriptional regulator. Both the activation and repressor functions may play an important role in the regulation of gene expression during embryonic development.
- Misawa H, Yamaguchi M
- Molecular cloning and sequencing of the cDNA coding for a novel regucalcin gene promoter region-related protein in rat, mouse and human liver.
- Int J Mol Med. 2001; 8: 513-20
- Display abstract
The molecular cloning and sequencing of the cDNA coding for a novel regucalcin gene promoter region-related protein (RGPR) was investigated using rat, mouse and human liver cDNA library with a yeast one-hybrid system and a rapid amplification of cDNA ends (RACE) method. The clone coding an unknown protein was isolated, and a novel protein was identified. This protein was termed as RGPR-p117. RGPR-p117 in rat, mouse and human liver consisted of 1058, 1051 and 1060 amino acid residues with calculated molecular mass of 117, 115 and 117 kDa and estimated pI of 5.69, 5.70 and 5.71, respectively. The homologies of amino acids among rat, mouse and human RGPR-p117 were at least 70%. RGPR-p117 had a leucine zipper motif. The expression of RGPR-p117 mRNA was found in the liver, kidney, heart, spleen, and brain of rats. The database search of the human RGPR-p117 showed that its gene consisted of at least 26 exons spanning approximately 4.1 kbp and localized on human chromosome 1q25.2. Furthermore, we found a cDNA clone which was highly identical to a front half part of the human RGPR-p117 cDNA, using the BLAST search of human RGPR-p117. This cDNA clone was a splicing variant of human RGPR-p117, which derived from human placental choriocarcinoma. Our study demonstrates that a novel gene coding RGPR-p117 is present in rat, mouse and human.
- Jiang J et al.
- Identification of two novel human dynein light chain genes, DNLC2A and DNLC2B, and their expression changes in hepatocellular carcinoma tissues from 68 Chinese patients.
- Gene. 2001; 281: 103-13
- Display abstract
Two full-length cDNAs, DNLC2A and DNLC2B, were cloned and characterized. Their open reading frames respectively encode 96 amino acids which are most closely homologous to roadblock/LC7, one member of an ancient dynein light chain protein family, conserved in nematode, fruit fly, mouse and rat. The DNLC2A was expressed in 12 of 16 human tissues examined, with especially strong expression in heart, liver and brain, whereas there was weak expression in lung, prostate, testis, small intestine and colon. The expression of DNLC2B was generally high compared with that of DNLC2A except in liver. Northern blotting and/or semi-quantitative RT-PCR analysis examined the expression changes of DNLC2A and DNLC2B in 68 hepatocellular carcinoma tissue samples. It was revealed that DNLC2A was up-regulated (45 out of the 68 cases) while DNLC2B was down-regulated (44 out of 68 cases), compared with their adjacent tumor-free liver tissues. Interestingly, among the total 68 liver cancer samples tested, DNLC2A was up-regulated while DNLC2B was down-regulated in 28 cases; DNLC2A was up-regulated while no obvious change was observed for DNLC2B in 10 cases; no obvious change was observed for DNLC2A while DNLC2B was down-regulated in 14 cases. Although the underlying mechanism is not clear to date, the apparent up-regulation of DNLC2A and down-regulation of DNLC2B suggest that these genes might be involved in tumor progression. On the other hand, the different expression changes of the two homologous genes indicate that hepatocellular carcinomas are caused by different pathological mechanisms. In addition, DNLC2A was assigned to human chromosome 20q12-q13.11 near the marker D20S106 by radiation hybrid mapping.
- Baulande S, Lasnier F, Lucas M, Pairault J
- Adiponutrin, a transmembrane protein corresponding to a novel dietary- and obesity-linked mRNA specifically expressed in the adipose lineage.
- J Biol Chem. 2001; 276: 33336-44
- Display abstract
We have used a mRNA differential display technique to identify new genes involved in the reprogramming of gene expression during the adipose conversion of mouse 3T3 preadipocyte cell lines. We report here on the identification and cloning of a novel adipose-specific cDNA encoding a predicted membrane protein of 413 amino acids. The level of the corresponding 3.2-kilobase mRNA is tremendously increased during 3T3-L1 and 3T3-F442A differentiation into adipocytes. A single, very abundant 3.2-kilobase transcript is also found in inguinal and epididymal white adipose tissues and in interscapular brown adipose tissue but not in any other tissues examined. Its expression in adipose tissue is under tight nutritional regulation. The level of this novel 3.2-kilobase transcript becomes virtually nondetectable during fasting but is dramatically increased when fasted mice are refed a high carbohydrate diet. Based on its adipose specificity and dietary regulation, the novel gene product has been designated adiponutrin. The expression of adiponutrin mRNA is also 50-fold elevated in genetically obese fa/fa rats, indicating a link between adiponutrin and obesity. Western blot and confocal imagery analyses with epitope-tagged protein transiently expressed in 3T3-L1 adipocytes, and COS cells show that adiponutrin strictly localizes to membranes and is absent from the cytosol. Sequence analysis reveals homologies with several other members of related eukaryotic proteins, including a human paralog, which has been recently described in vesicular transport mechanisms. This leads us to suggest that adiponutrin could be involved in vesicular targeting and protein transport restricted to the adipocyte function.
- Brands A, Munzel PA, Bock KW
- In situ hybridization studies of UDP-glucuronosyltransferase UGT1A6 expression in rat testis and brain.
- Biochem Pharmacol. 2000; 59: 1441-4
- Display abstract
UDP-glucuronosyltransferases (UGTs), in addition to their role in overall pharmacokinetics, play important roles in local protection of cells against toxins and in the control of endogenous receptor ligands. UGT1A6, which conjugates planar phenols, appears to be expressed in many organs, but information on cell-specific expression in these organs is controversial or absent. Therefore, a non-isotopic in situ hybridization method was developed and applied to localize UGT1A6 expression in rat testis and brain. It was found that UGT1A6 is expressed in Sertoli cells and spermatogonia of rat testis and in brain neurons, in particular in hippocampal pyramidal cells and Purkinje cells of the cerebellum.
- Hayashi MA et al.
- Molecular and immunochemical evidences demonstrate that endooligopeptidase A is the predominant cytosolic oligopeptidase of rabbit brain.
- Biochem Biophys Res Commun. 2000; 269: 7-13
- Display abstract
Oligopeptidases are tissue endopeptidases that do not attack proteins and are likely to be involved in the maturation and degradation of peptide hormones and neuropeptides. The rabbit brain endooligopeptidase A and the rat testes soluble metallopeptidase (EC 3.4.24.15) are thiol-activated oligopeptidases which are able to generate enkephalin from a number of opioid peptides and to inactivate bradykinin and neurotensin by hydrolyzing the same peptide bonds. A monospecific antibody raised against the purified rabbit brain endooligopeptidase A allowed the identification of a 2. 3 kb cDNA coding for a truncated enzyme of 512 amino acids, displaying the same enzymatic features as endooligopeptidase A. In spite of all efforts, employing several strategies, the full-length cDNA could not be cloned until now. The analysis of the deduced amino acid sequence showed no similarity to the rat testes metalloendopeptidase sequence, except for the presence of the typical metalloprotease consensus sequence [HEXXH]. The antibody raised against recombinant endooligopeptidase A specifically inhibited its own activity and reduced the thiol-activated oligopeptidase activity of rabbit brain cytosol to less than 30%. Analysis of the endooligopeptidase A tissue distribution indicated that this enzyme is mainly expressed in the CNS, whereas the soluble metallo EC 3.4.24.15 is mainly expressed in peripheral tissues.
- Falk JD et al.
- Rhes: A striatal-specific Ras homolog related to Dexras1.
- J Neurosci Res. 1999; 57: 782-8
- Display abstract
We have characterized an apparently full-length cDNA corresponding to a rat mRNA, SE6C, previously identified by subtractive hybridization as being expressed predominantly in the striatal region of the brain. The SE6C mRNA encodes a 266 amino acid protein with significant similarity to members of the Ras-like GTP-binding protein family; thus, we have chosen the name Rhes, for Ras homolog enriched in striatum. The human homolog was found in a genomic sequence from human chromosome 22q13.1 and shares 95% identity with rat Rhes. Among the family of small G-proteins, Rhes shares 62% identity with Dexras1, a mouse dexamethasone-inducible Ras-like protein. Both Rhes and Dexras1 have substantially longer C-termini than other members of the Ras-like small G-protein family. Divergence between the C-terminal sequences of Rhes and Dexras1 suggests that, although their functions are probably similar, they have unique properties. Bacterially expressed Rhes binds GTP, suggesting that the protein indeed has GTPase functionality. Although Rhes was not induced by dexamethasone, its full expression is dependent upon thyroid hormone availability. Its accumulation is postnatal, consistent with the dependence upon thyroid hormone. It is noteworthy that most striatum-"specific" mRNAs characterized to date encode components of signal transduction cascades.
- Rosok O, Pedeutour F, Ree AH, Aasheim HC
- Identification and characterization of TESK2, a novel member of the LIMK/TESK family of protein kinases, predominantly expressed in testis.
- Genomics. 1999; 61: 44-54
- Display abstract
In this study we present the cDNA sequence of a novel putative protein kinase, denoted TESK2. The open reading frame of TESK2 encodes a putative 555-amino-acid protein, including a protein kinase consensus sequence in the N-terminal half. The protein kinase domain of TESK2 is structurally similar to the kinase domain of the protein serine/threonine kinase TESK1 (64% identity) and to those of the LIMK1 and LIMK2 kinases (42 and 39% identity, respectively). TESK2, together with TESK1, constitutes a second subgroup of the LIMK/TESK family of protein kinases, as revealed by phylogenetic analysis of the protein kinase domains. Chromosomal localization of human TESK2 was assigned to 1p32. Expression analysis of human TESK2 revealed a single mRNA species of 3.0 kb predominantly expressed in testis and prostate and low expression in most other tissues examined. Rat testicles expressed a single species of TESK2 mRNA of approximately 3.5 kb. However, the transcript was first detectable in rat testis after day 30 of postnatal development and was predominantly expressed in round spermatids. These observations suggest that TESK2 plays an important role in spermatogenesis.
- Nishi M, Takeshima H, Houtani T, Nakagawara K, Noda T, Sugimoto T
- RhoN, a novel small GTP-binding protein expressed predominantly in neurons and hepatic stellate cells.
- Brain Res Mol Brain Res. 1999; 67: 74-81
- Display abstract
A cDNA encoding a novel member of the small molecular weight GTP-binding protein (small G-protein) superfamily was cloned from rat spinal cord. The deduced amino acid sequence was highly homologous with those of so-far-known Rho proteins. Rho proteins were reported to alter many important cellular functions including formation of both actin stress fibers and focal adhesions. RNA blot hybridization and in situ hybridization analyses indicated that the novel small G-protein is expressed specifically in neurons in the brain and spinal cord and also in hepatic stellate cells. Based on the sequence similarity and neuron-specific expression in the brain, this protein was named RhoN. Unlike classical Rho proteins, RhoN was not susceptible to the ADP-ribosylation reaction by C3 botulinum toxin. Accordingly, RhoN seemed to be specifically involved in neuronal and hepatic functions as a C3 toxin-insensitive member of the Rho subfamily. Then, a mouse genomic DNA segment containing the RhoN gene was cloned. The locus was mapped on the mouse chromosome 11C-D. The sequence data showed that the protein-coding sequence for RhoN is divided by 4 introns, and that the defined 5 exons may encode intramolecular domains serving for different functions.
- Okui M et al.
- High-level expression of the Mnb/Dyrk1A gene in brain and heart during rat early development.
- Genomics. 1999; 62: 165-71
- Display abstract
We previously isolated human MNB/DYRK1A cDNA from "the Down syndrome critical region" of human chromosome 21 (Shindoh et al., 1996, Biochem. Biophys. Res. Commun. 225: 92-99). As described herein, we prepared a polyclonal anti-MNB/DYRK1A antibody and used it in a Western blot assay to assess the expression of the MNB/DYRK1A protein during rat development. The MNB/DYRK1A protein was expressed strongly not only in the brain but also in other tissues from embryonic rats. At the early postnatal stage, expression of the protein was high in the central nervous system and heart, but low in liver, lung, spleen, and kidney. The level of MNB/DYRK1A protein in all tissues studied gradually decreased with postnatal growth. Similarly, Northern blot analysis revealed that a major 6.0-kb transcript of the Mnb/Dyrk1A gene was expressed at a high level in the brain during the early postnatal period but that its level was low in the adult. The finding that the MNB/DYRK1A protein is expressed strongly in the central nervous system and heart may indicate a significant role for this protein in the development of these organs.
- Cikos S, Gregor P, Koppel J
- Sequence and tissue distribution of a novel G-protein-coupled receptor expressed prominently in human placenta.
- Biochem Biophys Res Commun. 1999; 256: 352-6
- Display abstract
We report here a novel gene, NPGPR, which encodes a G-protein-coupled receptor (GPCR) that is most similar to the peptide receptor subfamily. The coding region of the human NPGPR gene predicts a seven transmembrane domain receptor of 522 amino acids and having a relatively large N-terminus of 147 amino acids. The NPGPR sequence has 30-33% amino acid identity to NPY receptors and similar percentage identity to orexin receptors (32%). Northern blot analysis reveals an abundant 1.5 kb NPGPR transcript in human placenta. Semi-quantitative RT-PCR determined additional sites of expression in thymus, testis and small intestine. These sites of mRNA expression suggest a potential role for the novel receptor in signaling to tissues undergoing active cell growth and differentiation. At low levels, NPGPR message is detectable in several other tissues including spleen, prostate, brain, heart, ovary, colon, kidney, lung, liver, and pancreas.
- Maeda K, Inui S, Tanaka H, Sakaguchi N
- A new member of the alpha4-related molecule (alpha4-b) that binds to the protein phosphatase 2A is expressed selectively in the brain and testis.
- Eur J Biochem. 1999; 264: 702-6
- Display abstract
A murine alpha4, identified in lymphocytes, binds to protein phosphatase 2A (PP2A). We found another murine alpha4-related gene (named alpha4-b) expressed selectively in the brain and testis. The alpha4-b transcript is expressed in the brain and testis, but is not detected in the spleen, thymus, bone marrow, liver, kidney, lung, heart or muscle. In-situ RNA hybridization analysis suggested that alpha4-b is expressed in most neuronal cells in the brain, but it is not expressed in the glial cells. The alpha4-b cDNA encodes a putative protein that is highly homologous (66% identity in amino-acid sequence) to the alpha4 molecule. The alpha4-b protein associates with the catalytic subunit of PP2A (PP2Ac), suggesting that the alpha4-b protein is involved in the regulation of phosphatase activity in neuronal cells.
- Bojer CD, Wohlrab F, Ivessa NE
- Molecular cloning and expression of an avian rab5 homolog.
- Biochim Biophys Acta. 1998; 1398: 25-31
- Display abstract
A chicken rab5 cDNA was isolated that contains the complete open reading frame for a protein of 216 amino acids, which, by comparison with available rab5 sequences from other species, is most closely related to the rab5c isoform. Two rab5 transcripts of 1.3 and 1.8 kb were detectable in various chicken tissues; they are abundant in tissues with high endocytic activity, such as brain, ovary, and testis. Similarly, high levels of rab5 protein expression were found in endocytotically active tissues and were increased upon estrogen treatment of roosters.
- Itadani H et al.
- Cloning and characterization of a new subtype of thyrotropin-releasing hormone receptors.
- Biochem Biophys Res Commun. 1998; 250: 68-71
- Display abstract
A new subfamily member of thyrotropin releasing hormone (TRH) receptor gene, TRHR2, was isolated from rat brain cDNAs. The deduced amino acid sequence of TRHR2 is 51 % identical to that of rat TRH receptor gene which was reported previously. Northern blot analysis with TRHR2 probe revealed brain-specific expression of a 9.5 kb mRNA. In a binding experiment using the TRHR2-expressing COS cells, specific binding of TRH to TRHR2 was observed with Kd value of 9 nM which was equivalent to the Kd value (= 13 nM) of TRH binding to the TRH receptor previously reported. The active metabolite of TRH, histidyl-proline diketopiperazine, or cyclo(His-Pro), showed no specific binding activity. These results suggest that TRHR2 is a novel subtype of TRH receptor.
- Mayer H, Salzer U, Breuss J, Ziegler S, Marchler-Bauer A, Prohaska R
- Isolation, molecular characterization, and tissue-specific expression of a novel putative G protein-coupled receptor.
- Biochim Biophys Acta. 1998; 1395: 301-8
- Display abstract
We isolated a 40 kDa integral membrane protein (p40) from human erythrocyte ghosts by affinity chromatography, using a C-terminal peptide of stomatin, and obtained partial sequences which enabled us to isolate two full-length cDNAs from human bone marrow and fetal brain cDNA libraries. The cDNA sequences were identical and encoded a novel putative G protein-coupled receptor (399 amino acids). Northern and RNA dot blot analyses demonstrated that the major 4.8 kb-transcript is predominantly expressed in brain. In situ hybridization studies of tissue sections revealed high expression in neurons of the brain and spinal cord, in thymocytes, megakaryocytes, and macrophages.
- Frayne J, Jury JA, Barker HL, Hall L
- Rat MDC family of proteins: sequence analysis, tissue distribution, and expression in prepubertal and adult rat testis.
- Mol Reprod Dev. 1997; 48: 159-67
- Display abstract
Increasing number of sequence-related cysteine-rich membrane proteins containing metalloproteinase-like and disintegrin-like domains (the MDC protein family) have been identified in mammalian tissues. Here, we report the cloning and sequence analysis of cDNAs encoding several rat orthologues of this protein family, some of which are found to be expressed exclusively in the male reproductive tract, others exhibiting a broader tissue distribution. We also examine their expression in prepubertal an adult rat testis, which, in conjunction with the data on tissue distribution, form a necessary prelude to further studies aimed at establishing their individual functions.
- Sakakibara R, Uemura M, Hirata T, Okamura N, Kato M
- Human placental fructose-6-phosphate,2-kinase/fructose-2,6-bisphosphatase: its isozymic form, expression and characterization.
- Biosci Biotechnol Biochem. 1997; 61: 1949-52
- Display abstract
The nucleotide sequence of 1981 bp cDNA containing the entire coding region of a human placental fructose-6-phosphate,2-kinase/fructose-2,6-bisphosphatase was determined. The sequence encodes 469 amino acids and, based on homology to the rat testis enzyme, appears to be the testis-type isozyme expressed in placenta. The enzyme was expressed in Escherichia coli BL21 (DE3) by using a T7 RNA polymerase-based expression system and purified to homogeneity. The expressed enzyme was bifunctional with specific activities of 75 and 80 mU/mg of kinase and phosphatase, respectively. Kinetic parameters of the expressed enzyme are similar to those of the rat testis enzyme.
- McClintock TS, Xu F, Quintero J, Gress AM, Landers TM
- Molecular cloning of a lobster G alpha(q) protein expressed in neurons of olfactory organ and brain.
- J Neurochem. 1997; 68: 2248-54
- Display abstract
We have isolated from an American lobster (Homarus americanus) olfactory organ cDNA library a clone, hG alpha(q), with >80% identity to mammalian and arthropod G alpha(q) sequences. In brain and olfactory organ, hG alpha(q) mRNA was expressed predominantly in neurons, including virtually all the neuronal cell body clusters of the brain. G alpha(q) protein was also expressed broadly, appearing on western blots as a single band of 46 kDa in brain, eyestalk, pereiopod, dactyl, tail muscle, olfactory organ, and aesthetasc hairs. These results suggest that hG alpha(q) plays a role in a wide variety of signal transduction events. Its presence in the olfactory aesthetasc hairs, which are almost pure preparations of the outer dendrites of the olfactory receptor neurons, the expression of a single hG alpha(q) mRNA species (6 kb) in the olfactory organ, and the localization of hG alpha(q) mRNA predominantly in the olfactory receptor neurons of the olfactory organ strongly suggest that one function of hG alpha(q) is to mediate olfactory transduction.
- Kupke T, Gotz F
- Expression, purification, and characterization of EpiC, an enzyme involved in the biosynthesis of the lantibiotic epidermin, and sequence analysis of Staphylococcus epidermidis epiC mutants.
- J Bacteriol. 1996; 178: 1335-40
- Display abstract
The plasmid-encoded epidermin biosynthetic gene epiC of Staphylococcus epidermidis Tu3298 was expressed in Escherichia coli by using the T7 RNA polymerase-promoter system, and the gene product EpiC was identified by Western blotting (immunoblotting) with an anti-EpiC-peptide antiserum. EpiC was a hydrophobic but soluble protein. EpiC was purified by hydrophobic-interaction chromatography. The determined amino-terminal amino acid sequence was M I N I N N I .... The electrophoretic migration behavior of EpiC depended on the oxidation state of the enzyme, indicating the formation of an intramolecular disulfide bridge between C-274 and C-321. The cysteine residues in the motifs WC-274YG and C-321HG of EpiC are conserved in all lantibiotic enzymes of the C type (so-called LanC proteins) and in the CylM protein. Mutated epiC genes from S. epidermidis epiC mutants were cloned and expressed in E. coli. Sequence analysis revealed that the mutations occurred in the two motifs -S-X-X-X-G-X-X-G- and -N-X-G-X-A-H-G-X-X-G-, which are conserved in all LanC proteins. For the investigation of EpiC-EpiA interactions, precursor peptide EpiA was coupled to N-hydroxysuccinimide-activated Sepharose High Performance Material (HiTrap). Under reducing conditions, EpiC was retarded on the EpiA-HiTrap column. In the incubation experiments, EpiC did not react with EpiA, with proepidermin, or with oxidative decarboxylated peptides.
- Foulon T, Cadel S, Chesneau V, Draoui M, Prat A, Cohen P
- Two novel metallopeptidases with a specificity for basic residues: functional properties, structure and cellular distribution.
- Ann N Y Acad Sci. 1996; 780: 106-20
- Hayashi MA, Gomes MD, Reboucas NA, Fernandes BL, Ferro ES, de Camargo AC
- Species specificity of thimet oligopeptidase (EC 3.4.24.15).
- Biol Chem Hoppe Seyler. 1996; 377: 283-91
- Display abstract
The recombinant rat testes metallo-endooligopeptidase (EC 3.4.24.15) and the rabbit brain endooligopeptidase A (formerly EC 3.4.22.19) were compared, side-by-side, in view of their striking similarities in both the physicochemical features and the specificities for oligopeptides. Concerning the tissue distribution in rat and rabbit, no relation between the levels of enzyme activity in cytosol and the levels of metallo-endooligopeptidase 24.15 mRNA could be established. The results suggest that the predominant neuropeptide-metabolizing activity attributed to the metallo-endooligopeptidase 24.15 is performed by, at least, two distinct cytosolic enzymes, one predominant in rat testes and the other in rabbit brain and testes, and possibly also in rat brain. Both enzymes are activated by dithiothreitol and irreversibly inhibited by a SH-affinity labeling dynorphin-related compound, but they are not inhibited by EDTA in a concentration dependent manner. Both enzymes exhibit the same specificity toward several bioactive peptides, except for LH-RH and substance P, which are only hydrolysed by the rat testes enzyme. Taken together, these results lead us to conclude that it is unlikely that the recombinant rat testes metallo-endooligopeptidase 24.15 and the rabbit brain endooligopeptidase A are the same molecule although they might belong to the same family of oligopeptidases.
- Kwon OJ, Gainer H, Wray S, Chin H
- Identification of a novel protein containing two C2 domains selectively expressed in the rat brain and kidney.
- FEBS Lett. 1996; 378: 135-9
- Display abstract
We have isolated and characterized a rat brain cDNA clone which encodes a new protein of 474 amino acids in length which contains two C2 domains structurally homologous to those present in synaptotagmins. The overall amino acid identity in C2 domains between this protein and the synaptotagmins is 36-44%. This protein also contains 3 putative consensus sequences for phosphorylation by cAMP-dependent protein kinase. RNA blot hybridization revealed a 3.0 kb transcript abundantly expressed only in the rat brain and the kidney. Thus, we called this brain/kidney protein (B/K). In situ hybridization and Northern blot analyses showed that the B/K transcript was found in forebrain including the olfactory bulb, cerebral cortex, hippocampus, and hypothalamus. In the kidney, high levels of B/K transcript were expressed in the papillary region of the inner medulla, the inner stripe of the outer medulla and the cortex. The selective expression in forebrain and kidney suggests that B/K may be involved in similar cAMP-dependent processes at these very different sites.
- Yu Y, Terada K, Nagasaki A, Takiguchi M, Mori M
- Preparation of recombinant argininosuccinate synthetase and argininosuccinate lyase: expression of the enzymes in rat tissues.
- J Biochem. 1995; 117: 952-7
- Display abstract
Nitric oxide (NO) is synthesized from arginine by nitric oxide synthase, generating citrulline as another product, which can be recycled to arginine by argininosuccinate synthetase and argininosuccinate lyase. Rat argininosuccinate synthetase was expressed in Escherichia coli as a fusion protein with maltose binding protein, cleaved from binding protein, and purified. The purified synthetase had no enzyme activity. Rat argininosuccinate lyase was expressed in E. coli using pET-3a as a vector, and purified. The purified enzyme had a specific enzyme activity of arginine formation of 2.6 mumol/min/mg protein at 37 degrees C, the value being somewhat lower than those of the enzyme purified from various tissues. Antibodies against these enzymes were produced in rabbits. Immunoblot analyses showed that the two enzymes are most abundant in the liver, followed by kidney and testis. Smaller amounts of the enzyme proteins were present in other tissues. RNA blot analysis showed that the argininosuccinate synthetase mRNA was most abundant in the liver and kidney, followed by testis and other tissues. On the other hand, argininosuccinate lyase mRNA was most abundant in the testis, followed by kidney and liver, and by other tissues. These results show that argininosuccinate synthetase and argininosuccinate lyase are expressed both tissue-specifically and ubiquitously, and that practically all tissues have activities to convert citrulline to arginine.
- Kupke T, Kempter C, Gnau V, Jung G, Gotz F
- Mass spectroscopic analysis of a novel enzymatic reaction. Oxidative decarboxylation of the lantibiotic precursor peptide EpiA catalyzed by the flavoprotein EpiD.
- J Biol Chem. 1994; 269: 5653-9
- Display abstract
The epidermin biosynthetic reaction between the flavoprotein EpiD and the precursor peptide EpiA was investigated by reversed-phase chromatography and ion spray mass spectrometry. Several products with molecular masses 46 and 104 Da less than that of EpiA were observed; these results were confirmed by using an MBP-EpiD fusion protein as enzyme and the mutant peptides EpiAR-1Q and K-EpiA as substrates. The reaction was inhibited by Zn2+ ions. Modifications were localized in the C-terminal fragment of EpiA as shown by factor Xa cleavage of the products followed by mass spectrometry analysis. In addition, EpiD reacted with the precursor peptides and with proepidermin, indicating that the leader peptide is not necessary for the recognition of EpiA by EpiD. Sequence analysis of modified proepidermin revealed that at least the amino acids Ile(+1)-Tyr+20 are unmodified. The observed decrease in mass of 46 Da and the modification at the C terminus of EpiA is in agreement with the proposed enzymatic function of EpiD, the oxidative decarboxylation of the precursor peptide. In addition, the increased absorbance at 260 nm of the modified peptides indicates the presence of a thioenol group in the C-terminal proepidermin.
- Klein C, Kaletta C, Entian KD
- Biosynthesis of the lantibiotic subtilin is regulated by a histidine kinase/response regulator system.
- Appl Environ Microbiol. 1993; 59: 296-303
- Display abstract
Subtilin is a lanthionine-containing peptide antibiotic (lantibiotic) which is produced by Bacillus subtilis ATCC 6633. Upstream from the structural gene of subtilin, spaS, three genes (spaB, spaT, and spaC) which are involved in the biosynthesis of subtilin have been identified (C. Klein, C. Kaletta, N. Schnell, and K.-D. Entian, Appl. Environ. Microbiol. 58:132-142, 1992). By using a hybridization probe specific for these genes, the DNA region downstream from spaS was isolated. Further subcloning revealed a 5.2-kb KpnI-HindIII fragment on which two open reading frames, spaR and spaK, were identified approximately 3 kb downstream from spaS. The spaR gene encodes an open reading frame of 220 amino acids with a predicted molecular mass of 25.6 kDa. SpaR shows 35% similarity to positive regulatory factors OmpR and PhoB. The spaK gene encodes an open reading frame of 387 amino acids with a predicted molecular mass of 44.6 kDa and was highly similar to histidine kinases previously described (PhoM, PhoR, and NtrB). Hydrophobicity blots suggested two membrane-spanning regions. Thus, spaR and spaK belong to a recently identified family of environmentally responsive regulators. These results indicated a regulatory function of spaR and spaK in subtilin biosynthesis. Indeed, batch culture experiments confirmed the regulation of subtilin biosynthesis starting in the mid-logarithmic growth phase and reaching its maximum in the early stationary growth phase. Gene deletions within spaR and spaK yielded subtilin-negative mutants, which confirms that subtilin biosynthesis is under the control of a two-component regulatory system.(ABSTRACT TRUNCATED AT 250 WORDS)
- Hoyer-Fender S
- Identity of two rat testis cDNAs.
- Dev Biol. 1993; 157: 553-553
- Taira M, Iizasa T, Yamada K, Shimada H, Tatibana M
- Tissue-differential expression of two distinct genes for phosphoribosyl pyrophosphate synthetase and existence of the testis-specific transcript.
- Biochim Biophys Acta. 1989; 1007: 203-8
- Display abstract
Cloning of cDNA coding for rat phosphoribosyl pyrophosphate (PPRibP) synthetase (EC 2.7.6.1) revealed two distinct types of subunit, referred to as PRS I and PRS II (Taira et al. (1987) J. Biol. Chem. 262, 14867-14870). Tissue-specific expression of PRS I and PRS II genes (designated PRPS1 and PRPS2, respectively), was shown for 16 rat organs, using Northern blot analysis. The 2.3 kb PRPS1 mRNA level was high in the brain and adrenal gland, whereas the 3.7 kb PRPS2 mRNA level prevailed in the lung and spleen. Both genes were highly expressed in the thymus, adipose tissue and testis. In other mammals (mouse, calf and human), these two types of mRNA were also detected in various tissues and cell lines. Thus, the expression of each gene is regulated in a tissue-specific manner and there may be functional differences between catalytic and/or regulatory properties of subunits PRS I and II of this enzyme. In the testis, an additional PRPS1-related transcript of 1.4 kb was noted in rats, mice and humans. This transcript may belong to a group of testis-specific gene expressions or functions.
- MACMORINE HG, SLINN GS
- Plate techniques for the assay of subtilin.
- Can J Public Health. 1948; 39: 203-8
- Salle AJ, Jann GJ
- Studies on Subtilin Fastness in Vitro.
- J Bacteriol. 1948; 55: 463-9
- DIMICK KP, ALDERTON G, et al.
- Purification and some properties of subtilin.
- Arch Biochem. 1947; 15: 1-11