Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | SO_1531 |
Symbol | thiI |
ID | 1169339 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella oneidensis MR-1 |
Kingdom | Bacteria |
Replicon accession | NC_004347 |
Strand | + |
Start bp | 1606408 |
End bp | 1607862 |
Gene Length | 1455 bp |
Protein Length | 484 aa |
Translation table | 11 |
GC content | 46% |
IMG OID | 637343458 |
Product | thiamine biosynthesis protein ThiI |
Protein accession | NP_717147 |
Protein GI | 24373104 |
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 | 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 | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAAGTTTA TTGTAAAGCT GTACCCAGAA ATCATGATGA AGAGCAAGCC TGTGCGTATG CGCTTCACCA AAATGCTTGA AACCAACATC CGTAACGTGC TTAAAAAAGT CGACGACGAC GCCAAAGTGC AGCGTCAATG GGACCGGATT ATGGTGATGG TGCCAAAGAA TAAACCTGAA CTAGCGCAGG CCTTTGGCGA GCGTTTAGCT TGCATTCCTG GGATCGCCCA CGTAGTACAA GTGGATGAAT ACAGCTTTAC CTCTGTGGAC GATATTTATC AGCAAGTCTT GCCAGTTTAT CGTGACCAAA TAGCGGGTAA AACCTTTTGT GTGCGCGTCA AACGCACTGG CTCCCACGAC TTTAACTCCA TCGAAGTGGA GCGTTATGTT GGTGGTGGGT TAAACCAGTT TACCGATGCG ATTGGCGTGC GTTTAAAGAA TCCTGAAGTC ACGGTCAACC TCGAAATCGA GGGTGATAAA CTGTATATGG TGACTAAGCG TATCGAAGGT TTAGGTGGCT TCCCAATGGC CACTCAAGAA GATGTGTTGT CGCTAATTTC CGGTGGTTTC GACTCGGGCG TATCGAGCTA TCAATTTATC AAAAAGGGTG CTCGTACTCA CTACTGCTTC TTTAATTTAG GTGGCGCGCA ACACGAGATT GGTGTGAAAC AAGTCGCTTA CCACTTGTGG AAAACCTTCG GCGAATCCCA CAAGGTGAAA TTTGTGTCTG TACCATTCGA GCCTGTGGTT GCCGAGATTT TAGAGAAAAT CGACAACGGC CAAATGGGTG TGGTCCTAAA ACGAATGATG ATGCGCACAG CGGCACGTAT TGCTGAACGT ATGGGGATTC AGGCCATTGT GACCGGTGAG AGCTTAGGCC AAGTGTCGAG CCAAACCTTA ACCAACTTAA ACGTGATTGA CCGTTGCACT GACATGTTGA TTTTGCGTCC ACTGATCACC ATGGATAAGC AGGATATTAT CAACGAATGT CGACGCATTG GTACTGAGGA TTTTGCCAAG TCTATGCCTG AATATTGTGG GGTGATTTCA CAAAAGCCGA CTGTTAAAGC GGTACTGGCT AAGGTGGAAG CGGAAGAAAC GAAATTCTCT GAGGATTTGA TTGACCGTAT CGTAGAGCAA GCCGTTGCAA TTGATATCCG GGAGATAGCA GAACAAATGA ATACCCGTAT CACTGAAACT GAAACCGTTG TTGCTATCGA CACCAATGAA GTGGTGATTG ATATTCGTGC CCCAGAGGAA GAAGAAAATA AACCGCTTGA GATTGAAGGC GTGGAAATCA AGCGTATTCC TTTCTTCAAG TTAGCGACTC AGTTTGCCGA TCTCGATAAG CAAAAGACTT ACCTGCTGTA CTGTGAGCGA GGTGTAATGA GCAAGTTGCA GGCGCTATAC CTGATTGAAC AAGGTTATCA CAATGTTAAG GTCTACCGAC CTTAA
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Protein sequence | MKFIVKLYPE IMMKSKPVRM RFTKMLETNI RNVLKKVDDD AKVQRQWDRI MVMVPKNKPE LAQAFGERLA CIPGIAHVVQ VDEYSFTSVD DIYQQVLPVY RDQIAGKTFC VRVKRTGSHD FNSIEVERYV GGGLNQFTDA IGVRLKNPEV TVNLEIEGDK LYMVTKRIEG LGGFPMATQE DVLSLISGGF DSGVSSYQFI KKGARTHYCF FNLGGAQHEI GVKQVAYHLW KTFGESHKVK FVSVPFEPVV AEILEKIDNG QMGVVLKRMM MRTAARIAER MGIQAIVTGE SLGQVSSQTL TNLNVIDRCT DMLILRPLIT MDKQDIINEC RRIGTEDFAK SMPEYCGVIS QKPTVKAVLA KVEAEETKFS EDLIDRIVEQ AVAIDIREIA EQMNTRITET ETVVAIDTNE VVIDIRAPEE EENKPLEIEG VEIKRIPFFK LATQFADLDK QKTYLLYCER GVMSKLQALY LIEQGYHNVK VYRP
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