Sequence of A0A1J5C4U4_9BURK
EC Number:3.1.11.5
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
Exonucleolytic cleavage (in the presence of ATP) in either 5'- to 3'- or 3'- to 5'-direction to yield 5'-phosphooligonucleotides
Other sequences found for EC No. 3.1.11.5
General information:
Sequence
0 MPAVKKLDAL TLPLTSLQVI EASAGTGKTW TLAALYVRLV LGHTPGHTLP DSGLYPPQIL
60 VMTFTEAATA ELRGRIRARL AQAARFFQHG EQADFEVDDF LRKLRADIEV AHWPACAERL
120 DLAAQWMDEA AIFTIHGWSS RMLKTHAFDS ASLFQQSRVE DSAALKLSAA QDYWRKWFYP
180 LTAAQLGALK DLGNTPEELM LAIMPLWKLE ERAPQPNAPT PAPPDAVIRD WEHWQTRFLQ
240 LEDTARSACT DTVIALLNDS IAQKAIKGYR KDWPPKLADW AKGPLLDDMS AKERDAAQTL
300 LQRFATGVLR QKGWQPACQQ PVFDHLEALC DHLNQQPQVT ELLLAHAAFE VAAAYHQAKA
360 RLAQFDFSDL LQNLYHALQA TDGRLASAIR AQFPVALVDE FQDTDPWQYG ALSKIYGACG
420 SVVQDAGSTG LIMIGDPKQA IYSFRGADLA TYLSARQQAQ AIHTLSGNYR STPGVVAAVN
480 HIFEHAIKPF GDVPFDTVTA SNTLVQPLQV AGQRQVAMTV WHLQSPHIQR KAVWMRQMAD
540 SFATQMTALL NAGAAQPGAM AVLVRDWREA RAIRGALASR GVRSVYLSER DSVFATPEAL
600 DLWRILRAVA NPRASHWVRA ALATGLWGLP WREVEALFLD EAAWDALTER FHAWQAVWQR
660 QGFLPMLHQL LHDQAIPARL LAQDKAEQKP QGNSGERQLT NLLHLGDLLQ SASLGLQGVA
720 ALQRYLEDQL RDPQASGDSA QLRLESDADL VQVVTLHKAK GLQYPLVFLP FVANFRAVDK
780 GQDDGPRLAE DIRLLYVGLT RAEQALWLGI TATRGDVEGK TIQVKSAVSA LLGRQASGDL
840 AQCLTAWQTE HIVVQDTPEP NATAYTPAAS SKHWQPALRP HRLLFSRWWS ASFSALTRDV
900 ASASPALAAG SAQDERLGDA QIDSALPQDT DLSGQSDLPD QPELWDQHDQ LNLPPPPLNA
960 FPAGSHYGTL LHDLLEWQAQ QGWPAAQNTP PDAITADWHK LLTRKAQALK LDESECDLLR
1020 SWVPAVVNTP VPVLASTKLV LGHLNSDQHW AEMAFSLKVS ALGSAQLDRL IAQHVLVGQP
1080 RQAMQQRQLE GMLTGFIDLV FMFEGCYYVL DYKSNKLPTY DPAQLQQAML AHRYDVQYAL
1140 YLLALHRLLK SRLGVHYDYN LHIGGAAYLF LRGIDQAGAG LYFDKPPKAL IEALDAAFAG
1200 SQASTATQET SA
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
7963555
Probst A.J.,Castelle C.J.,Singh A.,Brown C.T.,Anantharaman K.,Sharon I.,Hug L.A.,Burstein D.,Emerson J.B.,Thomas B.C.,Banfield J.F.
Genomic resolution of a cold subsurface aquifer community provides metabolic insights for novel microbes adapted to high CO concentrations.
Environ. Microbiol.
0
0-0
2016
