Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Gmet_1941 |
Symbol | |
ID | 3741592 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Geobacter metallireducens GS-15 |
Kingdom | Bacteria |
Replicon accession | NC_007517 |
Strand | - |
Start bp | 2165657 |
End bp | 2168647 |
Gene Length | 2991 bp |
Protein Length | 996 aa |
Translation table | 11 |
GC content | 63% |
IMG OID | 637779233 |
Product | phosphoribosylformylglycinamidine synthase II |
Protein accession | YP_384895 |
Protein GI | 78223148 |
COG category | [F] Nucleotide transport and metabolism |
COG ID | [COG0046] Phosphoribosylformylglycinamidine (FGAM) synthase, synthetase domain [COG1828] Phosphoribosylformylglycinamidine (FGAM) synthase, PurS component |
TIGRFAM ID | [TIGR01736] phosphoribosylformylglycinamidine synthase II |
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Plasmid Coverage information |
Num covering plasmid clones | 33 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 67 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGCGAGAC GAATTGAGAT TGCCCTCAAG GAAGGCGTCC GTGACGCCCG TGGCGAGCGG ATCAAACGCG AGATCGAGCA TTTTCTCCAT CTGCCGGTGG AAGCGGTGCG GACCATCGAC GTCTACACCG TTGATGCGAA GCTTTCCGAG GAGGAGCTTG TCAAGGCCGC CTCGGAGCCC TTCTGCGACC CGGTCATCCA GGTCTGGAGC ATCGACCGTC CCCTGGCTGC CGGTTTCGAT TTTCTCGTGG AGGTGGGATA CCGTCCCGGG GTTACCGACA ACGTGGGGCG CACCGGCCGG GAAGCAATCG AGTACATCAC CGGCCGGCCC ATGGAGGCGG GGGAGGGGGT CTACACCTCG GTCCAGTACC TTCTGAGCGG GAAACTCTCC CGTGCCGACG TGGAGCGGAT CGCCCGGGAC CTCCTCGGCA ACGCCCTTAT CCAGCGCTTC GTGGTTCTGG ACAGGGCCGA GTTCGCGGCC CAGGGGGGAG TGCCGGTTTC GGTCCCCAAA GTTCAGGGCG AAACCAAAGC CCAGGTCAGG GATATCGACC TGGAGGTTTC CGACGATGAG CTGCTGCGTA TCAGCAAGGA CGGGGTTCTG GCCCTGACCC TGGAGGAGAT GAAGATCATC CAGGCCCACT ACCGGGATCC GAAGGTGCAG GAGGAGCGCC GGAAGCAGGG TCTCGGCGTT AGACCGACCG ACGTGGAACT GGAGTGCCTG GCCCAGACCT GGTCCGAACA CTGCAAACAC AAGATCTTCG CCGGCACGGT TCACTACGAG GATGAGCAGG GGAACCGGCA GGAGATCAAG TCCCTCTTTA AGTCGTTCAT CCAGCGCACC ACAAAGGACG TGCGGGAAAA GCTGGGCGAC AGCGACTTTT GCCTCTCGGT CTTCAAGGAC AACGCCGGGG TCATTCGGTT CAACGACGAC TGGTCCTTGG TCTTCAAGGT GGAGACCCAC AACTCTCCAT CAGCCCTCGA CCCCTACGGC GGGGCTCTCA CCGGCATCGT CGGCGTGAAC AGGGATCCCT TCGGCACCGG CAAAGGTGCC AAGCTCATCT TCAACACGGA CGTTTTCTGC TTCGCCGATC CCTTCTACGA TAAGCCCTTG CCGTCGCGGC TCCTGCATCC CCGGCGCATC TACGAAGGGG TCGTGGAGGG AGTCGAGCAC GGTGGCAACA AGAGCGGCAT CCCCACGGTG AACGGCTCTC TCGTTTTTGA CGAGCGATTT GCCGGCAAGC CCCTGGTTTT CTGCGGCACG GCCGGGATCA TGCCGGCCAC CCTGAACGGC GAGTTGGGCC ACGAGAAAGC AATCAAGCCG GGTGACCTGA TCGTCATGAC CGGCGGCCGC ATCGGCAAGG ACGGCATCCA CGGCGCCACC TTCTCCTCCG AGGAGCTGAA CGAGAATTCT CCGGTTACGG CGGTCCAGAT CGGCGACCCC ATCACCCAGA AGCGGATGTT CGATTTCCTC ATCCGTGCCC GGGACAAGGG GCTCTACCGA TTTATCACCG ACAACGGCGC CGGCGGGCTC TCCTCATCCA TCGGGGAAAT GTCGGGCGAG TGCGGCGGCT GCCGGATGGA CCTGGAAAAG GCCCCCCTCA AGTATCCGGG GCTTGATCCG TGGGAGATCC TCATCTCCGA AGCTCAGGAG CGGATGAGCC TTGCGGTGCC CCCCGAGCAG ATCGACGAGT TTCTGGCCAT GGCGAAGCGC TTCAACGTCG AGGCGACGGT ATTGGGTGAG TTCACCGACA GCGGCTACTT CCATATCCTC TACGGTGACC GCACCGTGGC CTGGCTCCCC ATGGAGTTCA TGCACGAGGG GCTTCCCCCC ATGCAGCTTC CGGCCAAATG GGTGCCACCT CGCCATGCCG AACCGACCCT TCAGGTGAAA GGTGATTACA CCGCGGACCT GAAGGCGCTC CTCGGTTCCC TCAACATCTG CTCCAAGGAG TCGGTGGTGC GCCGTTACGA CCATGAGGTG CAGGGGGGAA GCGTCGTGAA GCCCTTCACT GGCGTGGCCA ACGACGGCCC CTCCGATGCC GCGGTGGTCC GCCCAATCCT CGACTCCTTC GAGGGGGTGG TGGTTGCCCA CGGCATCTGT CCCCGCTACT CGGACATCGA CACCTACCAC ATGACCGCCA ACGCCATTGA CGAAGCCCTG CGCAACTACG TGGCCGTGGG TGGCGCCCTG GATCTCGTGG CGGGGCTCGA TAACTTCTGC TGGTGCGATC CGGTGAGGTC GGAAAAGACT CCCGACGGCG AGTACAAGAT GGCCCAACTG GTGCGGGCGA ACCAGGCCCT CTACGACGTC TGCCTCGCCT ACAACCTGCC GCTCATCTCG GGCAAGGACT CCATGAAAAA CGACTTCTAC GACGGGGCCA CCAAGATCTC CATCCCGCCG ACCATCCTCT TCTCGGTCAT CGGCAAGATA GAAGACGCCC GCAGAAGCGT CACCATGGAT GCCAAGCGCC CCGGCGACGT CGTTTACCTC CTGGGGAGAA CCGGCAACGA ACTGGGGGGC TCCGAATATC TGGCATTGCA GGGTGTCATC GGCAACAACG TGCCGACGGT GAACCCCGAA AAGGCCCTCA AGCGCTACAA CGCCCTGCAC ACGGCCATCA CCGGCGGGCT TGTGGCCTCC TGCCACGACC TCTCCGACGG CGGCCTCGCC GTGGCCCTGG CCGAGAAGGC CTTTGCCGGC GGTTACGGTA TTTCCGCGGA TCTGGGCAAG GTTCTCTGGA CGGGCGACGA CGCCATGCGC AATGATGCGG CTCTGCTCTT CTCCGAGTCG GCGTCACGGC ACCTGGTCAC GGTGCGTCCC GGGAACCGCG ATGCTTTCGA GGCGATCATG GCGGGGAACT GCTTCTCTGC CATCGGTGTG GTGACGGAAG AGGGGGCGGT GCGTATCACG GGCCTTTCCG GCCAGGCGGT GGTCGAAGCA AGCATCGACG AACTGAAAGA AGCGTGGCAG AGCCCGCTGA GGGAGCTGTA A
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Protein sequence | MARRIEIALK EGVRDARGER IKREIEHFLH LPVEAVRTID VYTVDAKLSE EELVKAASEP FCDPVIQVWS IDRPLAAGFD FLVEVGYRPG VTDNVGRTGR EAIEYITGRP MEAGEGVYTS VQYLLSGKLS RADVERIARD LLGNALIQRF VVLDRAEFAA QGGVPVSVPK VQGETKAQVR DIDLEVSDDE LLRISKDGVL ALTLEEMKII QAHYRDPKVQ EERRKQGLGV RPTDVELECL AQTWSEHCKH KIFAGTVHYE DEQGNRQEIK SLFKSFIQRT TKDVREKLGD SDFCLSVFKD NAGVIRFNDD WSLVFKVETH NSPSALDPYG GALTGIVGVN RDPFGTGKGA KLIFNTDVFC FADPFYDKPL PSRLLHPRRI YEGVVEGVEH GGNKSGIPTV NGSLVFDERF AGKPLVFCGT AGIMPATLNG ELGHEKAIKP GDLIVMTGGR IGKDGIHGAT FSSEELNENS PVTAVQIGDP ITQKRMFDFL IRARDKGLYR FITDNGAGGL SSSIGEMSGE CGGCRMDLEK APLKYPGLDP WEILISEAQE RMSLAVPPEQ IDEFLAMAKR FNVEATVLGE FTDSGYFHIL YGDRTVAWLP MEFMHEGLPP MQLPAKWVPP RHAEPTLQVK GDYTADLKAL LGSLNICSKE SVVRRYDHEV QGGSVVKPFT GVANDGPSDA AVVRPILDSF EGVVVAHGIC PRYSDIDTYH MTANAIDEAL RNYVAVGGAL DLVAGLDNFC WCDPVRSEKT PDGEYKMAQL VRANQALYDV CLAYNLPLIS GKDSMKNDFY DGATKISIPP TILFSVIGKI EDARRSVTMD AKRPGDVVYL LGRTGNELGG SEYLALQGVI GNNVPTVNPE KALKRYNALH TAITGGLVAS CHDLSDGGLA VALAEKAFAG GYGISADLGK VLWTGDDAMR NDAALLFSES ASRHLVTVRP GNRDAFEAIM AGNCFSAIGV VTEEGAVRIT GLSGQAVVEA SIDELKEAWQ SPLREL
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