NTDB

Overview

Name	addA	Type	Machinery gene
Locus tag	QNH25_RS05250	Genome accession	NZ_CP126087
Coordinates	1077636..1081340 (+)	Length	1234 a.a.
NCBI ID	WP_283859994.1	Uniprot ID	-
Organism	Bacillus safensis strain CEW-AP100
Function	homologous recombination; plasmid transformation (predicted from homology) Homologous recombination

Genomic Context

Location: 1072636..1086340

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
QNH25_RS05235 (QNH25_05235)	-	1072943..1073353 (+)	411	WP_024425497.1	DoxX family protein	-
QNH25_RS05240 (QNH25_05240)	-	1073550..1073996 (-)	447	WP_024425498.1	ferritin-like domain-containing protein	-
QNH25_RS05245 (QNH25_05245)	addB	1074149..1077658 (+)	3510	WP_283859993.1	helicase-exonuclease AddAB subunit AddB	Machinery gene
QNH25_RS05250 (QNH25_05250)	addA	1077636..1081340 (+)	3705	WP_283859994.1	helicase-exonuclease AddAB subunit AddA	Machinery gene
QNH25_RS05255 (QNH25_05255)	sbcD	1081367..1082542 (+)	1176	WP_283859995.1	exonuclease subunit SbcD	-
QNH25_RS05260 (QNH25_05260)	-	1082539..1085934 (+)	3396	WP_283859996.1	SMC family ATPase	-
QNH25_RS05265 (QNH25_05265)	-	1085955..1086254 (+)	300	WP_024425503.1	hypothetical protein	-

Sequence

Protein

Download Length: 1234 a.a. Molecular weight: 142255.31 Da Isoelectric Point: 5.0351

                                >NTDB_id=835110 QNH25_RS05250 WP_283859994.1 1077636..1081340(+) (addA) [Bacillus safensis strain CEW-AP100]

MQIPKPNNSTWTDDQWEAIVSEGQDILVAAAAGSGKTAVLVERLIRKMTRPEDPVDVDRLLVVTFTNASAAEMKHRITEA

LEKELAKNPGSLHMRRQLSLMNRANISTLHSFCLQVLRTFYYEIDLDPGFRLADQTEGELLGDEVLDELFEDEYKAGKPA

FFELVDRYTSDRHDLDLQWLVKRIYEFSRSHPSPEQWMRAFLSLYDVEAQTKVEQLPFYPYIKEDLSLVFRSCLELLERA

LTLSKEPGGPAPRAENFIDDLEQVNELIRHQDDFEKLYELLPNINFKRLKTCKGDEYDPVLLEKATDARNQAKKQLEKLK

DEYFMRSPAQHLKSLAEMKPVVETLVELVIQFGQRFERAKQEKSIVDFSDLEHYCLRILAEQDAEGNLIETEAAKYYQQQ

FEEVLVDEYQDTNLVQETILKLVSKGEHAAEGNLFMVGDVKQSIYRFRLAEPMLFLTKYKQFTPDGKETGKRIDLNKNFR

SRSDVLDSTNFLFKQLMGETVGEIEYDEQAELKLGASYPESEDTTTEMLLVHLDQQEAETDEEREELETVQLEARVIAKK

IRQLVEQPFQVYDSKQQMTRNLQYRDIVILLRSMPWAPQMMEELKKQGIPVYANLSSGYFEATEVSVILSLLKVIDNPYQ

DIPLAAVLRSPIVHIDENEMALIRTSDKKGTYYDAVKAFMSGTHSDHPTCKKLERFFRLLRKWRDFSMNHSVAELIWEVY

RDTQYLDYVGGMPGGKQRQANLRALYDRAKQYEKAAFRGLFRFLRFIERMQERGDDLGAAKTFSETEDVVRMMTIHSSKG

LEFPVVFTAGLGRNFNMMDLNQSYLLDKELGFGSKYIHPELRISYATLPLVAMKKKMRKELLSEELRVLYVALTRAKEKL

FLVGSVKNQVKALSKWQNAATGEDWLIPDFERYQSKTYLDFIGPALIRHQAMSSILEEKGDVVLSHPSAFTISFTQASDL

LKENMSLEKKQQDEVVQALMDGLPVEGYGDADEKVAERLSWRYPYLAASQVGTKQSVSEIKRMKEIQDEYSVPSSLRRAH

ATLYDRPAFMKKKALTAAEQGTAMHTVMQHIPLSSDEPLDEIRIHQLLDSLQQRDLLTNEQVQSIDQEGISAFFSTSIGQ

KLLKADWVKREVSFSMALPVKEVYSHIDTEGEPVLIQGMIDCLFETDGKLYLLDYKTDRVQGRYTGGLEAAVPILKKRYE

TQIALYAQAVERLTNRTLEEKILYFFDGNLEISL

Nucleotide

Download Length: 3705 bp

                                >NTDB_id=835110 QNH25_RS05250 WP_283859994.1 1077636..1081340(+) (addA) [Bacillus safensis strain CEW-AP100]

ATGCAAATACCAAAACCGAATAACAGTACTTGGACGGATGACCAGTGGGAAGCCATCGTTTCAGAAGGACAAGATATCCT

TGTTGCGGCGGCGGCAGGGTCAGGTAAAACAGCTGTTTTGGTTGAACGGCTGATTCGAAAAATGACCCGTCCTGAAGATC

CAGTTGATGTGGATCGTCTGCTCGTTGTGACTTTCACAAATGCATCTGCGGCAGAGATGAAGCATCGGATCACAGAAGCA

CTTGAAAAGGAATTAGCCAAAAACCCCGGGTCCCTTCATATGAGAAGACAGCTGTCGCTCATGAATCGTGCCAATATTTC

CACCCTGCACTCCTTTTGCTTGCAGGTTTTGCGCACCTTTTACTATGAGATTGACCTAGATCCAGGCTTTCGTTTGGCTG

ATCAAACAGAAGGAGAATTATTAGGAGATGAAGTGTTAGATGAACTGTTTGAGGATGAATATAAGGCTGGAAAGCCAGCG

TTCTTTGAACTGGTTGATCGTTACACTTCTGATCGTCATGATTTAGACTTGCAATGGCTTGTGAAGAGAATTTATGAGTT

TTCCAGATCTCACCCTTCACCTGAGCAATGGATGAGGGCATTCCTTTCTCTTTATGATGTAGAAGCTCAAACAAAAGTAG

AACAATTACCGTTTTACCCATATATCAAAGAGGACCTTTCTCTCGTTTTTCGAAGCTGTCTGGAACTGCTCGAACGAGCC

CTCACCCTATCAAAAGAACCGGGCGGTCCGGCACCGAGAGCAGAAAATTTTATAGATGATTTAGAGCAAGTCAATGAATT

AATCAGGCACCAAGATGATTTTGAGAAGCTTTACGAGCTTTTGCCAAACATCAATTTTAAAAGGCTCAAAACATGTAAAG

GGGACGAATATGACCCTGTGCTGTTAGAAAAAGCCACAGATGCACGCAATCAAGCAAAAAAACAATTAGAAAAGCTTAAA

GATGAATACTTTATGCGCAGTCCCGCCCAGCATTTGAAAAGCTTAGCTGAAATGAAGCCGGTGGTCGAGACACTTGTGGA

GCTTGTCATCCAATTTGGACAGCGTTTCGAAAGAGCGAAGCAAGAAAAATCAATCGTGGATTTTTCGGATTTAGAGCATT

ATTGCTTACGCATTTTAGCAGAGCAGGACGCGGAAGGAAATTTGATCGAAACAGAAGCGGCCAAGTACTATCAACAGCAG

TTTGAAGAAGTGCTCGTTGATGAATATCAAGATACAAACCTTGTGCAAGAAACGATTTTAAAGCTTGTATCTAAAGGGGA

ACATGCTGCAGAGGGCAACCTGTTTATGGTTGGTGATGTAAAGCAGTCCATATATCGTTTTAGACTGGCTGAGCCCATGC

TCTTTTTAACCAAATATAAACAATTCACACCAGACGGCAAAGAAACAGGGAAGAGAATTGATTTAAATAAAAACTTCCGC

AGCCGTTCAGATGTGTTAGACAGTACGAACTTTTTGTTCAAACAGCTGATGGGGGAAACAGTTGGAGAAATTGAATATGA

TGAACAAGCTGAATTAAAGCTTGGAGCGAGTTATCCAGAAAGCGAAGATACAACGACAGAAATGCTTCTTGTACATTTAG

ATCAACAGGAAGCAGAAACTGACGAAGAGCGAGAAGAGCTAGAAACCGTACAGCTTGAAGCGAGAGTCATTGCTAAAAAA

ATAAGACAATTGGTGGAGCAGCCATTTCAAGTGTATGATTCAAAACAGCAAATGACCCGTAACTTGCAGTATCGGGACAT

TGTGATTTTGCTTCGCTCCATGCCGTGGGCACCGCAAATGATGGAGGAATTGAAGAAGCAGGGAATCCCTGTGTATGCGA

ATCTTTCCTCTGGTTATTTTGAAGCAACAGAGGTGTCTGTGATTCTTTCTCTGTTAAAAGTCATTGATAACCCATATCAA

GATATCCCGCTTGCAGCTGTATTAAGATCACCAATTGTTCATATAGACGAAAATGAAATGGCACTGATCCGCACGAGTGA

TAAAAAAGGCACCTATTATGATGCTGTGAAAGCATTTATGAGTGGGACTCATTCAGATCACCCTACATGCAAAAAACTAG

AACGATTTTTCAGGTTGTTGCGTAAGTGGCGTGATTTCTCTATGAATCATTCAGTAGCGGAATTGATTTGGGAAGTATAC

CGCGATACGCAGTATCTAGATTACGTCGGCGGGATGCCTGGAGGCAAACAGAGACAGGCGAATCTCCGTGCTCTTTATGA

TCGAGCGAAGCAGTATGAAAAAGCTGCTTTTAGAGGGCTGTTCCGTTTTCTTCGCTTTATCGAAAGAATGCAGGAGCGTG

GAGATGATCTTGGGGCGGCAAAAACGTTCAGTGAAACAGAGGACGTTGTTCGCATGATGACGATCCACAGCAGTAAAGGA

TTAGAATTTCCAGTCGTCTTTACCGCAGGACTCGGCAGAAACTTTAATATGATGGACTTAAACCAGTCCTACTTGCTTGA

TAAAGAATTAGGCTTTGGAAGCAAATATATTCATCCAGAGCTGAGAATTAGTTATGCAACATTACCGCTTGTTGCGATGA

AAAAAAAGATGAGGAAAGAGCTATTATCTGAAGAGCTGAGAGTTCTATATGTAGCGCTCACAAGGGCTAAGGAAAAATTA

TTTCTTGTCGGCTCTGTCAAAAATCAGGTGAAGGCATTAAGCAAATGGCAAAATGCTGCAACCGGAGAGGATTGGCTCAT

CCCTGATTTTGAACGTTATCAATCGAAAACATACTTAGACTTTATTGGTCCTGCTCTCATCCGTCACCAAGCAATGTCAT

CTATTTTAGAAGAAAAAGGTGATGTTGTTCTTTCGCACCCATCAGCATTCACAATCTCATTTACTCAAGCTTCCGATCTT

CTAAAAGAAAATATGTCACTTGAAAAGAAGCAGCAAGATGAGGTGGTACAAGCATTGATGGACGGCTTACCTGTTGAAGG

TTATGGTGATGCTGATGAGAAAGTAGCAGAGAGACTTTCATGGAGATACCCGTATCTAGCGGCCTCACAAGTCGGCACAA

AGCAGTCTGTTTCAGAGATAAAGAGAATGAAAGAAATACAGGATGAGTACAGTGTTCCTTCTTCTCTTAGAAGAGCTCAT

GCAACGTTGTATGACCGGCCGGCTTTCATGAAGAAAAAAGCACTCACTGCCGCAGAGCAAGGCACCGCAATGCATACAGT

CATGCAGCATATTCCGCTTTCTTCTGACGAGCCCCTCGATGAAATCCGTATACATCAGCTGCTCGATTCCTTACAGCAGC

GAGACTTGCTAACAAATGAGCAAGTTCAGTCAATTGATCAAGAAGGAATTTCCGCTTTTTTCTCTACTTCTATTGGTCAA

AAGCTGCTGAAAGCGGACTGGGTGAAACGAGAAGTGTCATTTAGTATGGCGTTACCTGTTAAAGAGGTATACAGCCATAT

TGATACAGAGGGGGAGCCTGTCCTTATTCAAGGGATGATTGACTGTTTATTTGAAACGGATGGAAAACTATATTTACTAG

ATTATAAAACAGATAGAGTGCAAGGCAGATATACAGGCGGTCTTGAAGCAGCTGTACCTATTTTGAAAAAGCGCTATGAA

ACTCAAATAGCGTTGTATGCACAAGCGGTGGAACGTTTAACAAACAGAACATTAGAGGAGAAAATTCTTTATTTCTTTGA

TGGGAATTTAGAAATTTCATTATAA

Domains

Predicted by InterproScan.

UvrD/REP helicase N-terminal domain (UvrD-helicase)

(11-462)

PD-(D/E)XK nuclease superfamily (PDDEXK_1)

(1052-1226)

UvrD-like helicase C-terminal domain (UvrD_C)

(473-883)

Secondary structure

Protein secondary structures were predicted by S4PRED and visualized by seqviz.

3D structure

Source	ID	Structure

Transmembrane helices

Transmembrane helices of protein were predicted by TMHMM 2.0 and visualized by seqviz and ECharts.

Visualization of predicted probability:

Similar proteins

Only experimentally validated proteins are listed.

Protein	Organism	Identities (%)	Coverage (%)	H_a-value
addA	Bacillus subtilis subsp. subtilis str. 168	66.424	100	0.665

Detailed information NTG0835110