Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Dde_3191 |
Symbol | |
ID | 3758166 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Desulfovibrio desulfuricans subsp. desulfuricans str. G20 |
Kingdom | Bacteria |
Replicon accession | NC_007519 |
Strand | + |
Start bp | 3180392 |
End bp | 3183373 |
Gene Length | 2982 bp |
Protein Length | 993 aa |
Translation table | 11 |
GC content | 60% |
IMG OID | 637784102 |
Product | phosphoribosylformylglycinamidine synthase |
Protein accession | YP_389680 |
Protein GI | 78358231 |
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 | 3 |
Plasmid unclonability p-value | 0.0198403 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGCTACGCC GCATTGAAGT TGGTCTGCGA CCCCATGTCG CGGACACCGT GGGCCGCAAG GTCTGCAACA AAATTGCCGA ATCTCTGGAT ATCACTCCCG AGTCCGTGCA GATAGTCAAA GTGTTCACCA TTGACGGGCT TTCGGAGCAG CAGCTTGACG AAGTGCTGAA ACAGGGAGCT CTGCACGACC CCGTTCTGCA GGAGGCATCT GCCGCCCCCG CCGCGGGCGA TGCCGACTGG TATCTGGAAG TGGGCCTGCG CCCCGGCGTG ACGGACAACG AAGGCCGCAC CGCCCGCGAA ACCATTGCCA TTGTGCTGGG CATCAGCGAC CGTCGCTCGG TCAACGTGTA TGTGGCCAAC CAGTACCGCA TCAGCGGCGA TCTTTCGCGC GATGATGTGG AACGCATAGG ACGCGATCTG CTTGCCAACG AACTCATCCA GCGCTTTTCC GTCAAAAGCC GCGCCCAGTG GCAGGCCGAG CCGGGCTTTC CCGCCGCTGC CGCGCAGGTA CTGGGACAGG CCTGCGACGA AGTGGCCTTT ATCCCGCTGG ACACCATGGA CGACGCGGCC ATGGCCGCTT TCAGCCGCGA CAACACGCTG GCTCTCAGTC TGGAAGAAAT GCACTGCATA CGCGACCATT ACGCGCAACC GGACGTAAAA GCCGCCCGTG AAAAAATGGG CCTGCCCGCA CGCCCCACCG ATGCCGAAGT GGAAGCGCTT GCCCAGACAT GGTCCGAACA CTGCAAGCAC AAGATTTTCT CTGCACGCAT CCGGTACCGC AACGAAGAAA CCGGCACCGG CGAGACCATC AACAGCCTGT ACAAAACCTG CATTCAGGGT TCCACAAGCC TGCTGCGCAA ACGCATGGGC AAAAAAGACT TCTGCCTTTC CGTTTTCAAG GACAACGCAG GTGTCATATC CTTTACGGAC ACGCACAGCG TCTGCATAAA GGTGGAAACC CACAACTCGC CCTCGGCGCT TGACCCCTAC GGCGGAGCGC TTACCGGCAT TGTGGGCGTA AACCGCGACC CCATGGGCAC CGGCATGGGC GCCAACATGG TGTGCAACAC CGATGTGTTC TGTTTTGCCT CGCCCTTTTA TGAAGAAAAA CTGCCCCCCC GACTGCTGCA TCCGCGCCGC GTGCTTGAAG GCGTGCGCGA AGGTGTGGAG CACGGCGGCA ACAAATCCGG TGTTCCCACG GTAAACGGCT CCATTGTGTT CCACGACAGG TACCTGGGAA AACCGCTGGT CTACTGCGGT ACAGTGGGCA TGATTCCGGC CACGGTGGCG GGCAGACCCG GTCACGAAAA AAAGGCTCTG CCGGGCGATA TCGTGGTGAT GGCCGGCGGA CGCATAGGCA AGGACGGCAT CCACGGCGCC ACGTTCTCGT CCGAGGAACT GCACGAAGGC TCTCCCGCCA CGGCAGTACA GATCGGTGAC CCCATCACAC AGCGCAAAAC GTATGATTTC ATCATGCGCG CACGGGACAA AGGCCTGTAC AACGCCATTA CAGACAACGG TGCCGGAGGG CTTTCCTCTT CCGTGGGCGA AATGGCCGAA GACACCGGCG GCTGCCGCAT AGACGTTTCG CGCGCACCGC TCAAATATGA CGGACTGCGC CCGTGGGAAA TACTGCTTTC CGAAGCGCAG GAACGGATGA CGCTGGCCGT ACCGCCTGCA AAAATAGAAG AGTTTCTCGC CCTTGCACGC GAAATGGACG TTGAGGCCAC AGCACTGGGC GAATTCACTG ACTCCGGCTA CTTTCATGTG ACCTACGGCG AAAAGCCGGT GGCCTACCTT TCCATGGAGT TCCTGCATGA CGGTGTTCCG CAGATGCAGC TTGACGCCGT GTGGGAACGC CCGCAGCTGC CGGCACCGGC CATAGACGTG GACGACGCCC ATCAGAGCAG CCTGCTTAAA ACAATGCTGG GACGGCTGAA CATCTGCTCC AAAGAGTACG TCATCCGCCA GTACGACCAC GAAGTAAAGG GCGGCAGCGT CGTCAAACCG CTGGTGGGCG TTCTGCGTGA CGGCCCCGCC GATGCGGGCG TCATGCGCCC CCTGCTGGAA AACGAGGCAG GCATAGTGCT CTCGCACGGC ATCTGCCCCA AATTCAGCGA TATCGACACC TACTGGATGA TGGCCAACGC CATTGACGAA GCGGTGCGCA ACGCGGTTGC AGTGGGCGGC AACATTGATC ATATGGCCGG TGTGGACAAC TTCTGCTGGT GCGACCCCGT GCAGTCGGAA AAAACTCCCG ACGGCCGGTA CAAGCTGGCG CAGCTGGTAC GCGCCAACAA AGCTCTGGCC CATTTCTGTC AGGCCTACGG CGTACCCTGC ATATCCGGCA AAGATTCCAT GAAAAATGAC TACACCGGCG GCGGTACCAA AATATCCATT CCGCCCACGG TGCTGTTCTC CGTTCTGGGG GTCATCCCCG ATGTGAACAA AACAGTCACT TCCGACTTCA AACAAGCCGG AGACGGCATA TACCTGCTGG GTGTCACCCG CCGCGAACTG GGCGGATCGG AACTGGCAGA CGAGCTGGGC ATTCTTTCCG CCGATGTGCC GCATGTGGAC GCCGTTCCGG CACTCCTGCG CTACCGCACG CTGTACAAAG CCATCGGTGC CGGACTTGTT TCCGGCTGTC ACGACCTGTC CGACGGCGGT CTGGCTGTGG CTGTGGCCGA AATGGCTCTG GCAGGACGCA CGGGCGCCGA TGTCAACCTG AACGCAGTGG CTCTTGCAGG CAGCCTGAAC AAGGCTGAAG TGCTCTACTC CGAATCGGCA TCGCGCCTGC TGGTCACCGT GCCGGCAGCA CAGCAGAACG CCTTTGAGCA GATGTTCAAA GGTCAGCACT GCACCCGTAT CGGACAGGTG ACCGCACACG ATTCCCTGCG CGTGCTCTCC GGAGACTCCG TACTGCTTGC CGAACCTGTG GAAGAACTGG CGCGCAGCTT TAAAGGCACG CTGAACTTCT AG
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Protein sequence | MLRRIEVGLR PHVADTVGRK VCNKIAESLD ITPESVQIVK VFTIDGLSEQ QLDEVLKQGA LHDPVLQEAS AAPAAGDADW YLEVGLRPGV TDNEGRTARE TIAIVLGISD RRSVNVYVAN QYRISGDLSR DDVERIGRDL LANELIQRFS VKSRAQWQAE PGFPAAAAQV LGQACDEVAF IPLDTMDDAA MAAFSRDNTL ALSLEEMHCI RDHYAQPDVK AAREKMGLPA RPTDAEVEAL AQTWSEHCKH KIFSARIRYR NEETGTGETI NSLYKTCIQG STSLLRKRMG KKDFCLSVFK DNAGVISFTD THSVCIKVET HNSPSALDPY GGALTGIVGV NRDPMGTGMG ANMVCNTDVF CFASPFYEEK LPPRLLHPRR VLEGVREGVE HGGNKSGVPT VNGSIVFHDR YLGKPLVYCG TVGMIPATVA GRPGHEKKAL PGDIVVMAGG RIGKDGIHGA TFSSEELHEG SPATAVQIGD PITQRKTYDF IMRARDKGLY NAITDNGAGG LSSSVGEMAE DTGGCRIDVS RAPLKYDGLR PWEILLSEAQ ERMTLAVPPA KIEEFLALAR EMDVEATALG EFTDSGYFHV TYGEKPVAYL SMEFLHDGVP QMQLDAVWER PQLPAPAIDV DDAHQSSLLK TMLGRLNICS KEYVIRQYDH EVKGGSVVKP LVGVLRDGPA DAGVMRPLLE NEAGIVLSHG ICPKFSDIDT YWMMANAIDE AVRNAVAVGG NIDHMAGVDN FCWCDPVQSE KTPDGRYKLA QLVRANKALA HFCQAYGVPC ISGKDSMKND YTGGGTKISI PPTVLFSVLG VIPDVNKTVT SDFKQAGDGI YLLGVTRREL GGSELADELG ILSADVPHVD AVPALLRYRT LYKAIGAGLV SGCHDLSDGG LAVAVAEMAL AGRTGADVNL NAVALAGSLN KAEVLYSESA SRLLVTVPAA QQNAFEQMFK GQHCTRIGQV TAHDSLRVLS GDSVLLAEPV EELARSFKGT LNF
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