Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ping_2227 |
Symbol | thiI |
ID | 4624405 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Psychromonas ingrahamii 37 |
Kingdom | Bacteria |
Replicon accession | NC_008709 |
Strand | - |
Start bp | 2709767 |
End bp | 2711221 |
Gene Length | 1455 bp |
Protein Length | 484 aa |
Translation table | 11 |
GC content | 40% |
IMG OID | 639797365 |
Product | thiamine biosynthesis protein ThiI |
Protein accession | YP_943567 |
Protein GI | 119945887 |
COG category | [H] Coenzyme transport and metabolism [P] Inorganic ion transport and metabolism |
COG ID | [COG0301] Thiamine biosynthesis ATP pyrophosphatase [COG0607] Rhodanese-related sulfurtransferase |
TIGRFAM ID | [TIGR00342] thiazole biosynthesis/tRNA modification protein ThiI |
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Plasmid Coverage information |
Num covering plasmid clones | 7 |
Plasmid unclonability p-value | 0.0860245 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 17 |
Fosmid unclonability p-value | 0.512375 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAAATTTA TCGTAAAACT TTTTCCCGAA ATCATGATGA AAAGTCGTCC TGTTCGTAAT CGTTTCAGCA AAATATTACA GGGTAATATC CGTAATGTAT TAACGCGTCA TGATGAACAG GTTAAAGTTA TTTTGGAATG GGATAAGATC ATTGTTCGCA CCGAAAATGA AAGCGCCGAA AATAAAGCCA ATTTGATTCT ATTATTAAGC AGTACGCCGG GTATTGCACA CTTTTTAGAA GTAACCGAAT CTGTATATAC AGATTTGCAT GACGTTTATG AGCAAACGCT CGCTATGGTG GGTGATTCAC TCGATGGAAA AACCTTTTGT GTGCGTATTA AACGCATCGG TAAACATGAT TTCTCTTCAA TAGATGCTGA GCGTTATGTG GGCGGCGGCT TAAATCAGCA CACTGATACG CTGGGCGTGA AATTAAAAGG GCCAGAGATT ACGATTAATT TAGAAATTAA TAACGAAAAA CTTTTCTTTA TTGATAAAAA ACATCCTGGT TTAGGCGGTT TCCCATTAGG GACTCAAGAA TCTGTTTTAT CTTTAATTTC TGGTGGTTTT GATTCCGGTG TTTCAAGTTA TAAGTTAATT AAACGCGGTT CACGTGTGCA TTACTGCTTC TTTAATCTTG GCGGCGGTGC ACATGAGATA GGCGTTAAAC AGGTTGCTTA TCAGTTGTGG AATCGTTTTG GCTCATCACA TCGGGTCAAA TTTATTTCAA TTCCCTTTGA ACCTGTCGTC GCAGAAATAT TAGAAAAAGT AGAAAATGGT CAAATGGGCG TTGTGCTAAA GCGTATGATG ATGCGTGCTG CAACCCTTAT GGCGGAACGT TTAGGTGTCG AGGCACTAAT TACCGGAGAA GCCTTGGGTC AAGTTTCCAG TCAAACACTG CGTAATTTAT CGGTGATCGA CAAAGTCTCT GATATGCTTA TTCTGCGGCC GTTGATTGCG ACCGATAAGC AGGATATTGT CGATTGCGCC CGGGTTATTG GAACAGCCGA AATTTCTGAA ACTATTCCCG AGTATTGTGG GGTTATTTCG CAGCGTCCAA CCGTCAAAGC GGTGATGAGA AAAATTGAGA AGCAGGAAGA AAAATTTGAT CTGTCACTAA TCGAACAGGT TGTTAATCAA GCGCCCACAA TAGATATTCG TGATATTGCG AAAGCGGTAC ACAAAGAAAT ATTAGAAGTT GAGTCTGTCT CTCAATTTGC AGAAAATGAA ATTGTTTTAG ATATTCGATC GCTAGATGAA GCAGAAGAAT CCCCGCTTGA TATTGAGGGA GTTACTATTG AACACTTGCC CTTCTTTAAA TTATCTAACC AGTTTGAAAC ACTGCCGCAG GATAAAATCT ACCTTTTATA TTGCGCTCGC GGTGTAATGA GCAAGCTGCA GGCGTTGTAT TTAAAAGAAT CTGGCTTTGA CAATGTTAAG GTTTACCGGC CTTAA
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Protein sequence | MKFIVKLFPE IMMKSRPVRN RFSKILQGNI RNVLTRHDEQ VKVILEWDKI IVRTENESAE NKANLILLLS STPGIAHFLE VTESVYTDLH DVYEQTLAMV GDSLDGKTFC VRIKRIGKHD FSSIDAERYV GGGLNQHTDT LGVKLKGPEI TINLEINNEK LFFIDKKHPG LGGFPLGTQE SVLSLISGGF DSGVSSYKLI KRGSRVHYCF FNLGGGAHEI GVKQVAYQLW NRFGSSHRVK FISIPFEPVV AEILEKVENG QMGVVLKRMM MRAATLMAER LGVEALITGE ALGQVSSQTL RNLSVIDKVS DMLILRPLIA TDKQDIVDCA RVIGTAEISE TIPEYCGVIS QRPTVKAVMR KIEKQEEKFD LSLIEQVVNQ APTIDIRDIA KAVHKEILEV ESVSQFAENE IVLDIRSLDE AEESPLDIEG VTIEHLPFFK LSNQFETLPQ DKIYLLYCAR GVMSKLQALY LKESGFDNVK VYRP
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