The domain within your query sequence starts at position 172 and ends at position 269; the E-value for the TOP1Bc domain shown below is 4.99e-37.

RVLRARFSEITPHAVRTACENLTEPDQRVSDAVDVRQELDLRIGAAFTRFQTLRLQRIFP
EVLAEQLISYGSCQFPTLGFVVERFKAIQAFVPEVFHK

TOP1Bc

Bacterial DNA topoisomeraes I ATP-binding domain
TOP1Bc
SMART accession number:SM00436
Description: Extension of TOPRIM in Bacterial DNA topoisomeraes I and III, Eukaryotic DNA topoisomeraes III, reverse gyrase beta subunit
Interpro abstract (IPR003601):

DNA topoisomerases regulate the number of topological links between two DNA strands (i.e. change the number of superhelical turns) by catalysing transient single- or double-strand breaks, crossing the strands through one another, then resealing the breaks [ (PUBMED:7770916) ]. These enzymes have several functions: to remove DNA supercoils during transcription and DNA replication; for strand breakage during recombination; for chromosome condensation; and to disentangle intertwined DNA during mitosis [ (PUBMED:12042765) (PUBMED:11395412) ]. DNA topoisomerases are divided into two classes: type I enzymes ( EC 5.99.1.2 ; topoisomerases I, III and V) break single-strand DNA, and type II enzymes ( EC 5.99.1.3 ; topoisomerases II, IV and VI) break double-strand DNA [ (PUBMED:12596227) ].

Type I topoisomerases are ATP-independent enzymes (except for reverse gyrase), and can be subdivided according to their structure and reaction mechanisms: type IA (Topo IA; bacterial and archaeal topoisomerase I, topoisomerase III and reverse gyrase) and type IB (Topo IB; eukaryotic topoisomerase I and topoisomerase V). These enzymes are primarily responsible for relaxing positively and/or negatively supercoiled DNA, except for reverse gyrase, which can introduce positive supercoils into DNA. This function is vital for the processes of replication, transcription, and recombination. Unlike Topo IA enzymes, Topo IB enzymes do not require a single-stranded region of DNA or metal ions for their function. The type IB family of DNA topoisomerases includes eukaryotic nuclear topoisomerase I, topoisomerases of poxviruses, and bacterial versions of Topo IB [ (PUBMED:17293019) ]. They belong to the superfamily of DNA breaking-rejoining enzymes, which share the same fold in their C-terminal catalytic domain and the overall reaction mechanism with tyrosine recombinases [ (PUBMED:21087076) (PUBMED:9488644) ]. The C-terminal catalytic domain in topoisomerases is linked to a divergent N-terminal domain that shows no sequence or structure similarity to the N-terminal domains of tyrosine recombinases [ (PUBMED:20644584) (PUBMED:17722649) ].

This entry describes domain 2 found in type IA topoisomerases, which may be an extension of the Toprim domain. The structures of bacterial topoisomerases I and III have been shown to consist of four domains that together form a toroidal structure with a central hole large enough to accommodate single- and double-stranded DNA. The N-terminal Toprim domain together with domain 3 forms the active site of the enzyme, while domains 2 and 4 form a single-strand DNA-binding groove [ (PUBMED:14604525) (PUBMED:10574789) ]. The Toprim domain ( IPR006171 ) forms a compact Rossmann fold that coordinates the Mg+2 ion [ (PUBMED:9722641) ].

GO process:DNA topological change (GO:0006265)
GO function:DNA binding (GO:0003677), DNA topoisomerase activity (GO:0003916)
Family alignment:
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There are 39725 TOP1Bc domains in 39719 proteins in SMART's nrdb database.

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