| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | SAG0873 |
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| Symbol | rexB |
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| ID | 1013677 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Streptococcus agalactiae 2603V/R |
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| Kingdom | Bacteria |
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| Replicon accession | NC_004116 |
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| Strand | + |
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| Start bp | 873995 |
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| End bp | 877228 |
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| Gene Length | 3234 bp |
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| Protein Length | 1077 aa |
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| Translation table | 11 |
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| GC content | 34% |
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| IMG OID | 637316060 |
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| Product | exonuclease RexB |
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| Protein accession | NP_687887 |
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| Protein GI | 22537036 |
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| COG category | [L] Replication, recombination and repair |
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| COG ID | [COG3857] ATP-dependent nuclease, subunit B |
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| TIGRFAM ID | [TIGR02774] ATP-dependent nuclease subunit B |
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Plasmid Coverage information |
| Num covering plasmid clones | 2 |
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| Plasmid unclonability p-value | 0.458095 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGAAATTAC TTTATACTGA TATTAATCAT GATATGACAG AAATCTTAGT CAATCAGGCC
GCGCATGCTG CTGAAGCTGG ATGGCGTATT TTTTATATTG CTCCAAACTC TTTATCTTTT
GAAAAAGAGC GTGCAGTATT AGAGAACCTT CCTCAAGAAG CCTCTTTTGC TATTACAATT
ACTCGCTTTG CTCAATTGGC ACGTTATTTT ACTTTAAACC AGCCTAATCA AAAAGAAAGT
TTAAACGATA TTGGATTAGC AATGATCTTT TATCGTGCTT TAGCAAGTTT TGAAGATGGA
CAATTAAAAG TTTTTGGACG ATTGAAGCAA GATGCTTCCT TTATCAGTCA ATTGGTAGAC
CTATACAAAG AATTGCAGAC AGCAAATCTG AGTATTTTAG AGTTAAAATA TTTACATTCT
CCTGAAAAAT TTGAAGATTT ATTAGCTATT TTTCTAGTGG TTTCAGATCT TTTAAGAGAA
GGAGAATACG ACAATCAATC TAAAATTGCC TTTTTTACAG AACAAGTAAG GTCAGGCCAG
CTAGATGTGG ATTTAAAGAA CACTATCCTT ATAGTCGATG GTTTTACCCG TTTCTCAGCT
GAAGAAGAAG CTTTAATTAA AAGTCTGAGT TCACGTTGTC AAGAGATTAT CATCGGAGCT
TATGCTAGCC AAAAAGCGTA TAAGGCTAAC TTTACTAATG GAAATATTTA TTCTGCAGGG
GTTGATTTTT TAAGATATCT AGCAACGACA TTTCAAACAA AACCAGAATT TATCTTGTCC
AAGTGGGAAA GTAAATCTGG TTTTGAAATG ATTTCGAAAA ATATCGAAGG TAAACATGAT
TTTACAAATA GTAGTCACAT TTTAGACGAC ACTGCTAAAG ATTGTATAAC AATTTGGGAG
TGCATTAATC AAAAAGATGA AGTGGAACAT GTGGCTAGAG CTATACGTCA GAAACTTTAT
CAAGGATATC GCTACAAAGA TATTTTAGTT TTACTAGGAG ATGTAGATAG TTATAAACTA
CAATTAAGTA AGATTTTTGA GCAGTATGAT ATTCCTTATT ATTTCGGTAA AGCTGAAACA
ATGGCTGCGC ACCCTTTAGT TCATTTTATG GATTCCTTGT CTCGAATAAA ACGTTATCGA
TTTAGAGCTG AAGATGTTTT AAATCTTTTT AAGACAGGTA TTTATGGAGA GATTAGCCAA
GATGATTTAG ATTATTTTGA GGCTTATATC TCATATGCAG ACATTAAAGG TCCTAAGAAG
TTCTTTACAG ATTTTGTTGT GGGGGCTAAA AAATTTGATT TAGGGCGTCT TAACACTATT
CGTCAGTCCC TCCTTACTCC ACTGGAAAGT TTTGTGAAAA CGAAAAAACA AGACGGTATA
AAAACACTCA ACCAATTCAT GTTTTTCCTT ACTCAGGTAG GTTTGAGTGA CAATTTATCG
CGATTAGTTG GTCAAATGTC TGAAAATGAA CAAGAAAAAC ATCAAGAAGT TTGGAAAACA
TTTACAGATA TTTTAGAGCA GTTTCAAACA ATATTTGGTC AAGAAAAATT AAATTTAGAC
GAATTTTTAT CGTTATTAAA TTCAGGTATG ATGCAAGCCG AGTATCGTAT GGTCCCTGCT
ACTGTTGATG TGGTTACTGT TAAGTCTTAC GATTTGGTAG AACCACATAG TAATCAATTT
GTCTATGCCC TAGGCATGAC ACAATCACAT TTTCCAAAGA TTGCTCAAAA CAAATCTTTA
ATATCTGATA TTGAACGTCA GCTTATAAAT GATGCCAATG ACACTGATGG TCATTTTGAC
ATTATGACGC AAGAAAATTT GAAGAAAAAC CATTTTGCTG CCCTCTCTCT TTTTAATGCT
GCTAAACAAG AATTAGTGTT GACTATACCA CAATTATTGA ATGAGTCTGA AGATCAGATG
TCACCATATC TTGTCGAACT AAGAGATATA GGTGTTCCTT TTAATCATAA AGGACGCCAA
TCGTTAAAAG AAGAAGCTGA TAATATTGGG AATTACAAAG CTTTATTATC GCGTGTTGTT
GACTTGTATC GCTCTGCTAT TGACAAAGAG ATGACTAAAG AAGAACAAAC TTTTTGGTCA
GTTGCTGTTC GTTATTTGCG TCGTCAATTA ACTTCTAAAG GGATTGAGAT ACCAATAATT
ACAGATAGTC TTGATACTGT GACAGTTTCA TCAGATGTGA TGACCAGACG CTTCCCAGAA
GATGACCCAC TTAAATTATC CTCATCTGCT TTGACAACTT TTTATAATAA TCAATATAAG
TATTTTTTAC AATATGTGTT AGGTTTGGAA GAACAAGACT CAATTCATCC AGATATGCGG
CACCATGGAA CGTACCTTCA TCGTGTTTTT GAAATTCTGA TGAAAAACCA AGGGATAGAA
TCTTTTGAAG AGAAACTCAA CTCTGCAATT AATAAAACCA ATCAAGAAGA TGTTTTCAAA
TCCTTGTATT CAGAAGATGC AGAAAGTCGT TATTCTTTAG AAATTTTAGA AGATATCGCG
CGTGCAACTG CAACCATATT ACGACAAGAT AGTCAGATGA CTGTTGAAAG TGAAGAAGAA
CGATTTGAAC TAATGATTGA TAATACTATA AAAATTAACG GTATTATTGA CCGTATCGAT
CGTTTATCTG ATGGTTCTTT GGGTGTCGTG GACTATAAAT CAAGCGCTCA AAAATTCGAT
ATCCAAAAAT TTTATAACGG TCTAAGTCCA CAATTAGTCA CCTACATTGA TGCTATCAGT
CGTGACAAGG AAGTTGAACA AAAACCACCG ATTTTTGGAG CTATGTACTT ACATATGCAG
GAACCTAGAC AAGACTTGTC TAAAATTAAA AATTTAGATG ATTTAGTAAC AAAAAATCAT
CAAGCTTTAA CTTATAAAGG ATTATTTTCA GAAGCCGAAA AAGAATTCTT AGCAAATGGG
AAATACCATC TCAAAGATTC CCTTTATTCA GAGACTGAAA TTGCTATTTT ACAAGCACAT
AACCAATCGC TTTACAAAAA AGCATCTGAG ACTATTAAGT CAGGTAAGTT TTTGATCAAT
CCATATACAG AAGATGCTAA AACAGTTGAC GGAGATCAGT TTAAGAGTAT TACGGGATTC
GAGGCGGATA GGCATATGGC ACGTGCCAGA GCGCTTTATA AATTACCTGC TAAGGAAAAA
CGTCAAGGTT TCTTAACATT AATGCAGCAA GAGGAGGAAA ATGATGACCT TTAA
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| Protein sequence | MKLLYTDINH DMTEILVNQA AHAAEAGWRI FYIAPNSLSF EKERAVLENL PQEASFAITI
TRFAQLARYF TLNQPNQKES LNDIGLAMIF YRALASFEDG QLKVFGRLKQ DASFISQLVD
LYKELQTANL SILELKYLHS PEKFEDLLAI FLVVSDLLRE GEYDNQSKIA FFTEQVRSGQ
LDVDLKNTIL IVDGFTRFSA EEEALIKSLS SRCQEIIIGA YASQKAYKAN FTNGNIYSAG
VDFLRYLATT FQTKPEFILS KWESKSGFEM ISKNIEGKHD FTNSSHILDD TAKDCITIWE
CINQKDEVEH VARAIRQKLY QGYRYKDILV LLGDVDSYKL QLSKIFEQYD IPYYFGKAET
MAAHPLVHFM DSLSRIKRYR FRAEDVLNLF KTGIYGEISQ DDLDYFEAYI SYADIKGPKK
FFTDFVVGAK KFDLGRLNTI RQSLLTPLES FVKTKKQDGI KTLNQFMFFL TQVGLSDNLS
RLVGQMSENE QEKHQEVWKT FTDILEQFQT IFGQEKLNLD EFLSLLNSGM MQAEYRMVPA
TVDVVTVKSY DLVEPHSNQF VYALGMTQSH FPKIAQNKSL ISDIERQLIN DANDTDGHFD
IMTQENLKKN HFAALSLFNA AKQELVLTIP QLLNESEDQM SPYLVELRDI GVPFNHKGRQ
SLKEEADNIG NYKALLSRVV DLYRSAIDKE MTKEEQTFWS VAVRYLRRQL TSKGIEIPII
TDSLDTVTVS SDVMTRRFPE DDPLKLSSSA LTTFYNNQYK YFLQYVLGLE EQDSIHPDMR
HHGTYLHRVF EILMKNQGIE SFEEKLNSAI NKTNQEDVFK SLYSEDAESR YSLEILEDIA
RATATILRQD SQMTVESEEE RFELMIDNTI KINGIIDRID RLSDGSLGVV DYKSSAQKFD
IQKFYNGLSP QLVTYIDAIS RDKEVEQKPP IFGAMYLHMQ EPRQDLSKIK NLDDLVTKNH
QALTYKGLFS EAEKEFLANG KYHLKDSLYS ETEIAILQAH NQSLYKKASE TIKSGKFLIN
PYTEDAKTVD GDQFKSITGF EADRHMARAR ALYKLPAKEK RQGFLTLMQQ EEENDDL
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