Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | DvMF_2484 |
Symbol | |
ID | 7174420 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Desulfovibrio vulgaris str. 'Miyazaki F' |
Kingdom | Bacteria |
Replicon accession | NC_011769 |
Strand | - |
Start bp | 3134244 |
End bp | 3137258 |
Gene Length | 3015 bp |
Protein Length | 1004 aa |
Translation table | 11 |
GC content | 68% |
IMG OID | 643541015 |
Product | Phosphoribosylformylglycinamidine synthase |
Protein accession | YP_002436892 |
Protein GI | 218887571 |
COG category | [F] Nucleotide transport and metabolism |
COG ID | [COG0046] Phosphoribosylformylglycinamidine (FGAM) synthase, synthetase domain |
TIGRFAM ID | [TIGR01736] phosphoribosylformylglycinamidine synthase II |
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Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
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Fosmid Coverage information |
Num covering fosmid clones | 90 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCTTCGGC GCATAGAAGT TGGCCTTCGG CCGCAGGTCA CCGATACCGT GGGCCGCAAC GTCGCCGCCA AGATCCGGGC CTCGCTGGGC CTGAACGTTG AATCCGTGCG CCTTGTCAGG GTGTTCACCG TGGATGGCCT TTCCGAAGAC GCGCTGGCCA GCATGGTGGC CCAGGGCGTG CTGCACGACC CCGTGCTGCA GGACGCCGCG CTGGACCTGC TGCCCGCCCC GCAGGGCGCG GCCCCGGCGG ACTGGGTGCT GGAAGTGGGC TTTCGCCCCG GCGTCACCGA CAACGAGGGC CGCACCGCGC GCGACACCCT GGCCCTGGTG CTGGGGGCCG ACCGCCGCTC CATCGCCGTG TACACCTCGG CCCAGTTCCA CGTGACCTGC GCCGCGGACA CGCCCCTGTC CCGCGCGGAC ATGGAGCACA TCGCCCGCGA CCTGCTGGCC AACGAACTCA TCCAGCGCTT TGCCCTGAAA AGCCGCGACG AATGGGCCGC CGAGCCCGGC TTCGTCCCGC AGGCCGCGCA GGTGACCGGG GCATCCAGCG ACGAGGTGGC CATAATCCCG CTGTCCTCCA TGGACGATGC GGCCATGCTG GCCTTCAGCC GCGAGAATAC CCTGGCCCTC AGCCTGGAAG AACTGCACGC CATCCGCGCC TACTACGCGG ACCCCGCCGT GCGCGCCGAC CGCGCCACCC TCGGCCTGCC CGCCGACCCC ACCGACGCGG AAATCGAGGT GCTGGCCCAG ACCTGGTCCG AGCACTGCAA GCACAAGATA TTTTCTGCCC GCATCGACTA CGAGAACCGC GAAACGGGCC GCCGCGAGGT GGTGGACAGC CTGTACAAGA CGTACATCCA GGGCTCCACA AAGACCATCC GCCAGCGCCT GGGCGAGCGC GACTTCTGCC GTTCGGTGTT CAAGGACAAC GCCGGGGTCA TCGCCTTCAA CGACACCCAC GACGTGTGCA TCAAGGTGGA AACCCACAAC AGCCCCTCGG CGCTGGACCC CTACGGCGGC GCGCTGACCG GCATCGTGGG CGTGAACCGC GACCCCATGG GCACCGGCCT CGGCGCGGAA CTGCTGTGCA ACACCGACGT GTTCTGCTTT GCCTCGCCCT TTCACGAGGG TGAACTGCCC CCCCGCCTGC TGCACCCGCG CCGGGTCATG GAAGGCGTGC GTGAAGGTGT GGAGCACGGC GGCAACAAGT CGGGCATCCC CACCGTCAAC GGCTCCATCG TGTTCGACGA ACGCTACCTC GGCAAGCCGC TGGTGTACTG CGGCACCGTG GGCATGCTGC CCCGGGAAAT CCACGGGCGT CCCGGCTGGT ACAAGAAGGC CCTGCCCGGC GACATCATCG TCATGGCGGG CGGGCGCATC GGCAAGGACG GCATCCACGG CGCCACCTTC TCGTCGGAAG AACTGCACGA AGGCTCCCCG GCCACGGCGG TGCAGATCGG CGACCCCATC ACCCAGCGCA AGATGTACGA CTGCATCATG CGCGCCCGCG ACATGGGCCT GTACAACGCC ATCACCGACA ACGGCGCGGG CGGCCTGTCC TCGTCCGTGG GCGAAATGGC CCAGGATACC GGCGGCTGCC GCCTGGACCT TTCGCGCGCC CCGCTGAAGT ACGACGGCCT GCGCCCGTGG GAAATCCTGC TGTCGGAAGC GCAGGAACGC ATGACCCTTG CCGTGCCGCC GCAAAAGCTG GACGCCTTCC TGGCGCTGGC CAGAGAGATG GACGTGGAAC TCACCCCGCT GGGCGAATTC ACCGAATCGG GTCGCTTCCA CGTGGTCTAC GGCGACAAGC ATGTGGCTTG CCTGGACATG GACTTTCTGC ATGACGGCGT GCCCCAGATG CAACTTTCCG CCGTGTGGGA ACGTCCGTCC TTCGCCCCGG AATGCGAATG CAGGCTGAAC CCGGCCCCCG CCGAGCAGGG CCCGCTGCTG CACGCCATGC TGGGCCGCCT GAACATCTGC AGCAAGGAAT ACCTGATCCG CCAGTACGAC CACGAGGTGA AGGGCGGCAG CGTGGTGAAG CCGCTGGTCG GCGTCAAGCG CGACGGCCCG GCGGACGCCG CCGTGGTGCG CCCCCTGCTG GACAGCCAGG CGGGCATCGT GCTTTCGCAC GGCATCTGCC CCAAGTTCAG CGACTACGAC ACCTACTGGA TGATGGCCAA CGCCATCGAC GAGGCGGTGC GCAACGCCGT GGCCGTGGGC GGCGACCCCG ACCGCATGGC CGGCACCGAC AACTTCTGCT GGTGCGACCC GGTGCAGTCG GAAAAGACCC CCGACGGCCA GTACAAGCTG GCCCAGCTGG TGCGCGCCAA CCAGGCCCTG GCCCACTTCT GCCTTGCCTA CGGGGTGCCC TGCGTTTCCG GCAAGGACTC CATGAAGAAC GACTACTTCG GCGGCGGGGT GAAGATTTCC ATCCCGCCCA CGGTGCTGTA CTCGGTGCTG GGCGTCATGG ACGACGTGAA CCGGGCCGTC ACCTCCGACT TCAAGCAGCC CGGCGACAAG GTGTACCTGC TGGGCGACAC CCTTCGCGAA CTGGGCGGCA GCGAAATCGC CGACCAGCTG AACACCGTGG GCGCGCAGGT GCCGCAGGTG GACGCGCTGG CCGCCATGGC CCGCTACCGC GCCCTGCACG GGGCCATCAA CGCGGGTCTG GTCACCGCCT GCCACGACCT GTCCGACGGC GGCCTTGCCG TGGCTCTGGC CGAAATGGCC GTGGGTGGCC GGCTGGGCGC CCGCTGCGAC ATCGCCGCAG TGCCCGCCGT ATGCGACATG ACCGCCACGG AACTGCTGTA CTCCGAATCT GCCAGCCGCC TGCTGGTCAC CGTGAAGCCG GACAACGCCG CCGCCTTCGA GGCGCGGTTT GCCGGGTCCG CCTGCGCCTG CATCGGCGAG GTGACGGCGG ACGCGGTCCT TACCGTCACC GCGCAGGGCG AGCCCCTGCT GGCGGAAGGC GTGGAAGGGC TGGCCCGGTC GTTCAAGGCC ACCTTCGACT GGTAG
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Protein sequence | MLRRIEVGLR PQVTDTVGRN VAAKIRASLG LNVESVRLVR VFTVDGLSED ALASMVAQGV LHDPVLQDAA LDLLPAPQGA APADWVLEVG FRPGVTDNEG RTARDTLALV LGADRRSIAV YTSAQFHVTC AADTPLSRAD MEHIARDLLA NELIQRFALK SRDEWAAEPG FVPQAAQVTG ASSDEVAIIP LSSMDDAAML AFSRENTLAL SLEELHAIRA YYADPAVRAD RATLGLPADP TDAEIEVLAQ TWSEHCKHKI FSARIDYENR ETGRREVVDS LYKTYIQGST KTIRQRLGER DFCRSVFKDN AGVIAFNDTH DVCIKVETHN SPSALDPYGG ALTGIVGVNR DPMGTGLGAE LLCNTDVFCF ASPFHEGELP PRLLHPRRVM EGVREGVEHG GNKSGIPTVN GSIVFDERYL GKPLVYCGTV GMLPREIHGR PGWYKKALPG DIIVMAGGRI GKDGIHGATF SSEELHEGSP ATAVQIGDPI TQRKMYDCIM RARDMGLYNA ITDNGAGGLS SSVGEMAQDT GGCRLDLSRA PLKYDGLRPW EILLSEAQER MTLAVPPQKL DAFLALAREM DVELTPLGEF TESGRFHVVY GDKHVACLDM DFLHDGVPQM QLSAVWERPS FAPECECRLN PAPAEQGPLL HAMLGRLNIC SKEYLIRQYD HEVKGGSVVK PLVGVKRDGP ADAAVVRPLL DSQAGIVLSH GICPKFSDYD TYWMMANAID EAVRNAVAVG GDPDRMAGTD NFCWCDPVQS EKTPDGQYKL AQLVRANQAL AHFCLAYGVP CVSGKDSMKN DYFGGGVKIS IPPTVLYSVL GVMDDVNRAV TSDFKQPGDK VYLLGDTLRE LGGSEIADQL NTVGAQVPQV DALAAMARYR ALHGAINAGL VTACHDLSDG GLAVALAEMA VGGRLGARCD IAAVPAVCDM TATELLYSES ASRLLVTVKP DNAAAFEARF AGSACACIGE VTADAVLTVT AQGEPLLAEG VEGLARSFKA TFDW
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