Sequence of ADDB_BACSU
EC Number:3.6.4.12
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
Other sequences found for EC No. 3.6.4.12
General information:
Sequence
0 MGAEFLVGRS GSGKTKLIIN SIQDELRRAP FGKPIIFLVP DQMTFLMEYE LAKTPDMGGM
60 IRAQVFSFSR LAWRVLQHTG GMSRPFLTST GVQMLLRKLI EEHKQEFKVY QKASDKSGFT
120 AQVERMLTEF KRYCLEPEDI RRMAESGTAS EYRGERVLSE KLHDLSILYQ QMEKSLADQY
180 LHSEDYLTLL AEHIPLAEDI KGAHIYVDGF YQFTPQEFRV LEQLMVHAEH ITFSLTADKP
240 SYEREPHELE LFRMTGKTYY RLHQKAKELN LDITYKELSG TERHTKTPEL AHLEAQYEAR
300 PAIPYAEKQE ALTVMQAANR RAELEGIARE IHALVREKGY RYKDVAILAR QPEDYKDMVK
360 EVFADYEIPY FIDGKASMLN HPLIEFIRSS LDVLKGNWRY EAVFRCVKTE LLFPLNEPKA
420 KVREQVDQLE NYCIAYGIKG DRWTKGDRFQ YRRFVSLDDD FAQTDQEIEM ENMLNDTRDW
480 IVPPLFQLQK RMKKAKTVQE KAEALYRYLE ETDVPLKLDQ ERQRAEDDGR IIEAQQHQQA
540 WDAVIQLLEE FVEMMGDDEI SLDLFQQMIE AGAESLTFSL IPPALDQVFV GNMDLSRMYG
600 TSCTFVLGAN DGVLPARPDE NGVLSDDDRE WLKTIGVELS SGGRERLLDE HFLIYMAFSS
660 PSDRLYVSYP IADAEGKTLL PSMIVKRLEE LFPHHKERLL TNEPEQVSDE EQLMYVVNKS
720 VAQSFTASQL RLWTREYDIS DVWWSTYNVL MSEQDRLQSK KLFSSLFFRN EVKQLERSVS
780 RQLYGERIQG SVSRMETFNA CPFSHFASHG LHLKERQFFK LEAPDIGQLF HSSLKLISDR
840 LREQKLDWRD LTKEQCELFS YDAVERLAPK LQKEILLSSN RHYYVKEKLQ KIVTRVSGIL
900 SEHAKASGFV PIGLELGFGG KGPLPPLTFQ LKNGCTMELV GRIDRVDKAE SSKGLLLRIV
960 DYKSSDKGLD LAEVYYGLAL QMLTYLDLSI THSADWLGMR ATPAGVLYFH IHDPMIQSNL
1020 PLGLDEIEQE IFKKFKMKGL LLGDQEVVRL MDTTLQEGRS NIINAGLKKD GSLRSDSAAV
1080 GEKEFDLLTK HVRRTFQEAG EQITDGRVSI EPYKMKNKTP CTYCAFKSVC QFDESLEENE
1140 YRPLKAEKDK TILEWIKKEA DGNEHS
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Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
129293
Kooistra J.,Venema G.
Cloning, sequencing, and expression of Bacillus subtilis genes involved in ATP-dependent nuclease synthesis.
J. Bacteriol.
173
3644-3655
1991
129294
Noback M.A.,Holsappel S.,Kiewiet R.,Terpstra P.,Wambutt R.,Wedler H.,Venema G.,Bron S.
The 172 kb prkA-addAB region from 83 degrees to 97 degrees of the Bacillus subtilis chromosome contains several dysfunctional genes, the glyB marker, many genes encoding transporter proteins, and the ubiquitous hit gene.
Microbiology
144
859-875
1998
129295
Kunst F.,Ogasawara N.,Moszer I.,Albertini A.M.,Alloni G.,Azevedo V.,Bertero M.G.,Bessieres P.,Bolotin A.,Borchert S.,Borriss R.,Boursier L.,Brans A.,Braun M.,Brignell S.C.,Bron S.,Brouillet S.,Bruschi C.V.,Caldwell B.,Capuano V.,Carter N.M.,Choi S.-K.,Codani J.-J.,Connerton I.F.,Cummings N.J.,Daniel R.A.,Denizot F.,Devine K.M.,Duesterhoeft A.,Ehrlich S.D.,Emmerson P.T.,Entian K.-D.,Errington J.,Fabret C.,Ferrari E.,Foulger D.,Fritz C.,Fujita M.,Fujita Y.,Fuma S.,Galizzi A.,Galleron N.,Ghim S.-Y.,Glaser P.,Goffeau A.,Golightly E.J.,Grandi G.,Guiseppi G.,Guy B.J.,Haga K.,Haiech J.,Harwood C.R.,Henaut A.,Hilbert H.,Holsappel S.,Hosono S.,Hullo M.-F.,Itaya M.,Jones L.-M.,Joris B.,Karamata D.,Kasahara Y.,Klaerr-Blanchard M.,Klein C.,Kobayashi Y.,Koetter P.,Koningstein G.,Krogh S.,Kumano M.,Kurita K.,Lapidus A.,Lardinois S.,Lauber J.,Lazarevic V.,Lee S.-M.,Levine A.,Liu H.,Masuda S.,Mauel C.,Medigue C.,Medina N.,Mellado R.P.,Mizuno M.,Moestl D.,Nakai S.,Noback M.,Noone D.,O'Reilly M.,Ogawa K.,Ogiwara A.,Oudega B.,Park S.-H.,Parro V.,Pohl T.M.,Portetelle D.,Porwollik S.,Prescott A.M.,Presecan E.,Pujic P.,Purnelle B.,Rapoport G.,Rey M.,Reynolds S.,Rieger M.,Rivolta C.,Rocha E.,Roche B.,Rose M.,Sadaie Y.,Sato T.,Scanlan E.,Schleich S.,Schroeter R.,Scoffone F.,Sekiguchi J.,Sekowska A.,Seror S.J.,Serror P.,Shin B.-S.,Soldo B.,Sorokin A.,Tacconi E.,Takagi T.,Takahashi H.,Takemaru K.,Takeuchi M.,Tamakoshi A.,Tanaka T.,Terpstra P.,Tognoni A.,Tosato V.,Uchiyama S.,Vandenbol M.,Vannier F.,Vassarotti A.,Viari A.,Wambutt R.,Wedler E.,Wedler H.,Weitzenegger T.,Winters P.,Wipat A.,Yamamoto H.,Yamane K.,Yasumoto K.,Yata K.,Yoshida K.,Yoshikawa H.-F.,Zumstein E.,Yoshikawa H.,Danchin A.
The complete genome sequence of the Gram-positive bacterium Bacillus subtilis.
Nature
390
249-256
1997
129296
Barbe V.,Cruveiller S.,Kunst F.,Lenoble P.,Meurice G.,Sekowska A.,Vallenet D.,Wang T.,Moszer I.,Medigue C.,Danchin A.
From a consortium sequence to a unified sequence: the Bacillus subtilis 168 reference genome a decade later.
Microbiology
155
1758-1775
2009
129297
Kooistra J.,Haijema B.J.,Venema G.
The Bacillus subtilis addAB genes are fully functional in Escherichia coli.
Mol. Microbiol.
7
915-923
1993
129298
Chedin F.,Ehrlich S.D.,Kowalczykowski S.C.
The Bacillus subtilis AddAB helicase/nuclease is regulated by its cognate Chi sequence in vitro.
J. Mol. Biol.
298
7-20
2000
129299
Kidane D.,Graumann P.L.
Dynamic formation of RecA filaments at DNA double strand break repair centers in live cells.
J. Cell Biol.
170
357-366
2005
129300
Sanchez H.,Kidane D.,Castillo Cozar M.,Graumann P.L.,Alonso J.C.
Recruitment of Bacillus subtilis RecN to DNA double-strand breaks in the absence of DNA end processing.
J. Bacteriol.
188
353-360
2006
129301
Yeeles J.T.P.,Dillingham M.S.
A dual-nuclease mechanism for DNA break processing by AddAB-type helicase-nucleases.
J. Mol. Biol.
371
66-78
2007
129302
Yeeles J.T.P.,Cammack R.,Dillingham M.S.
An iron-sulfur cluster is essential for the binding of broken DNA by AddAB-type helicase-nucleases.
J. Biol. Chem.
284
7746-7755
2009