Secondary literature sources for ARID
The following references were automatically generated.
- Lours C, Bardot O, Godt D, Laski FA, Couderc JL
- The Drosophila melanogaster BTB proteins bric a brac bind DNA through a composite DNA binding domain containing a pipsqueak and an AT-Hook motif.
- Nucleic Acids Res. 2003; 31: 5389-98
- Display abstract
The bric a brac (bab) locus is composed of two paralogous genes, bab1 and bab2, in Drosophila melanogaster. Bab1 and Bab2 are nuclear proteins that contain a broad complex, tramtrack, bric a brac/poxviruses and zinc-finger (BTB/POZ) domain. Many BTB/POZ proteins are transcriptional regulators of which the majority contain C(2)H(2) zinc-finger motifs. There is no detectable zinc-finger motif in either Bab protein. However, they share the Bab conserved domain (BabCD) that is highly conserved between Bab1 and Bab2, and the Bab proteins of several other species, e.g. Anopheles gambiae, Apis mellifera and Drosophila virilis. Here we show that Bab2 binds to several discrete sites on polytene chromosomes including the bab locus, and that the BabCD of both Bab1 and Bab2 binds in vitro to the cis-regulatory regions of bab1 and bab2. Our results indicate that the BabCD binds to A/T-rich regions and that its optimum binding sites contain TA or TAA repeats. The BabCD is a composite DNA binding domain with a psq motif and an AT-Hook motif; both motifs are required for DNA binding activity. Structural similarities suggest that the BabCD may bind to DNA in a similar manner as some prokaryotic recombinases.
- Bowers PM, Schaufler LE, Klevit RE
- A folding transition and novel zinc finger accessory domain in the transcription factor ADR1.
- Nat Struct Biol. 1999; 6: 478-85
- Display abstract
The region responsible for sequence-specific DNA binding by the transcription factor ADR1 contains two Cys2-His2 zinc fingers and an additional N-terminal proximal accessory region (PAR). The N-terminal (non-finger) PAR is unstructured in the absence of DNA and undergoes a folding transition on binding the DNA transcription target site. We have used a set of HN-HN NOEs derived from a perdeuterated protein-DNA complex to describe the fold of ADR1 bound to the UAS1 binding site. The PAR forms a compact domain consisting of three antiparallel strands that contact A-T base pairs in the major groove. The three-strand domain is a novel fold among all known DNA-binding proteins. The PAR shares sequence homology with the N-terminal regions of other zinc finger proteins, suggesting that it represents a new DNA-binding module that extends the binding repertoire of zinc finger proteins.
