Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | PSPTO_2147 |
Symbol | |
ID | 1183794 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Pseudomonas syringae pv. tomato str. DC3000 |
Kingdom | Bacteria |
Replicon accession | NC_004578 |
Strand | + |
Start bp | 2330649 |
End bp | 2333963 |
Gene Length | 3315 bp |
Protein Length | 1104 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 637393525 |
Product | pyoverdine sidechain peptide synthetase I, epsilon-Lys module |
Protein accession | NP_791969 |
Protein GI | 28869350 |
COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG1020] Non-ribosomal peptide synthetase modules and related proteins |
TIGRFAM ID | [TIGR01733] amino acid adenylation domain |
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Plasmid Coverage information |
Num covering plasmid clones | 5 |
Plasmid unclonability p-value | 0.240441 |
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 | ATGGATTTCG CGCTGTTCCC GATCCCTTCC TGCGCAGGGC TGGCCGAGCG TGACGGGTTG TCCTATGCCC AGCAGCGCAT GTGGTTTCTC TGGCAACTGG ACCCGCACAG CGCAGCCTAC AACCTGCCGA TGTCGGTGTG CCTGAACGGC CCGCTGGAGC TGCCGCTGCT GGAGCGGGCG TTCAGCGCGC TGGTCGAGCG CCACGAGAGC CTGCGCACGA CCTTCGGTCA GGAAGGCGAT CGGACGTTTC AGCGTGTTGC GCCACCCGCG CCGGTCAATA TCCGCCTGAT CGACCTGAGC CCGTTGCCGC CGCAGCAGCG CTGGTCGAAC GCGCGGCAGG CGATGGCCGA GCAGTCGGCG CAGACCTTCG ACTTGCAGCG CGGGCCGCTG TTTACCGTAC AGGTGTTGCG CCTCGCCGAG CAAGAACATC TGCTGCTGCT CAACCTGCAC CACATGATCA CCGACGGCTG GTCGATGAAC GTGCTGATCG ATGAATGGCT GCGCGGTTAC GACGCGTTGC TGGGCGGCAA GCCACTGCCT TTCCAGCCAC TGGCTGTGCA GTACCGCGAT TACGCCGTCT GGCAACGCAG CTGGCTGGAG GCTGGCGAAC AAGAGCGCCA ACTGGATTAC TGGCGCAAGC ACCTGGGTGA AGAACACCCG GTACTCGAAC TGCCCACCGA CCGCCCGTAC CCGGCATTGC CCAGTCATGA AGGCGCGCGT CTGGAACTGG CGCTTGCGCC CGAGCTGCTG CGCAACCTGA AAATCCTTGC GCAACGGCAG GGCGTGACCC TGTTCGTGGT GTTGCTGGCG ACCTTCAAAA GCCTGCTGCA TCGCTACAGC GGGCAGACCG ATATTCGCGT CGGCGGCCTG ATCGCCAACC GCACGCGCAG TGAAACCGAA GGCCTGATCG GCTGCTTCAT CAACACCCAG GTACTGCGCA GTGAAGTTAC GGCGCAGACG CGCTTTGTCG ATTTGCTGCA CACCGTGCGC GATGCCTCGA CCGGTGCCCA GGCGCATCAG GAGCTGCCAT TCGACGCCAT CATCGACGCC TTGCAGCCTG AGCGAAGCCA AAGCCACAAC CCGCTGTTCC AGGTGATGTT CAATCACCAG CCGGTGGTGG CCGACTTGCT GGACAAGCAA CTGAGCGGCG GCCTGCGCGT GGCCAATCTG TCCGCCGAGC AACAAGCACT GGCCCAGCGC TCGCACGCCG CTGCCAGTGA CCTGATGCTC GCCACCAGCG GTGAGGGCGA GCAACTGAAC GCCGCCTTCA CCTACGCCAC CGACATTTTC GATCAGCCGA CCATCGCTCG CCTGGCCGCG CACTGGCGCA ACCTGTTGAC GTCGGTCTGC GCTGACCCGC TGCAAACCAT TGCCGAGCTG TCGATGCTCT CGGCCGACGA GCGCACGCAC CTGCTGGCTG TCGACAGCGC CATCAAGGCA GACACCACCA CCCCGGCGCA TCGCCAGTTT GAAGCGCAAG TGCAGCGAAC GCCGGACGCA CTGGCGCTGA TCCTCGCCGG TGAAAGCCCG TCACCGAGCC TGACCTATTG CGAACTGAAC GAGCGCAGTA ACCGCTTGGC CTGGCAATTG CGCGAGCAGG GTGTCGGCCC GGACGTGCTG GTCGGAGTGG CGCTGGGCCG TTCGCTGGAC ATGCCCGTCG CGCTGCTGGC CGTGCTCAAG GCGGGTGGTG CCTACGTGCC GCTGGACCTC AGCGCGCCGA GCGAGCGTTT GCGTCATGTG TTGCAAGACA GCGGCCTGAA ACGGCTGCTG ACCCACAGCG AACAGCGGCC GACGCTGCCT GAACTGGCGG GCATTCAGTG CCTGTGCATT GATCAGATGA ACAGCGAAGC AGCCAGCGCA GAAAATCCGG TTGTCGATAT CGATCCGGCC CATCTGGCCT ACGTGATCTA CACCTCGGGC TCGACCGGCC GGCCAAAAGG CGTGGCGATC AGTCATGGCG CACTGGCCGA GTTCGTCACC TTGGGCGCGG ACTACAGCGA CCTGCGCGAA GGCGATCGGG TTCTGCAATT TGCCACGCAA AGTTTCGACG GCTTCGTCGA GCAGTTCTAC CCGCCGCTGT GTCGCGGCGC GGCCGTGGTG CTGCGTGACG AGCGTTTGTG GGACAGCGCC ACCTTCCATC ACGCCATCGT CGAACACGGC GTGACCCTCG CGGACCTGCC AGCAGCCTAC TGGCTGACCC TGGTTCAGGA TTTTGCCGCC AGCCCGCCCG TGCATTACGG CGCATTACGG CAGATTCACG TCGGCGGCGA GGCGATGGCC GTTGAAGGCC TGCGTCTGTG GCAGCACGCC GGGCTGGGGC ATGTGCGCCT GCTCAACACC TATGGCCCGA CCGAAGCCAC GGTGGTGTCG AGCATTCACG ATTGCAGCGC GCTGACCCCG GAGCAGGTGT CGTGGCGCGG CGTGCCGATC GGCAAAGGCC TGGCGGGGCG TCGTTTGTAC GTGCTCGACG ATCAACTGAA CCTGCTGCCG CAAGGCGCGC TGGGCGAGCT GTACATCGGC GGGCCGGGTC TGGCACGGGG TTATCACGCC CAGCCAGGCC TGAGCGCCGA GCGTTTCGTG GCGGATCCGT TCGTTGCCGG CGAGCGACTG TACCGCACTG GCGACCGTGC CCGACTGCGC GCTGATGGCG CCATCGAATA CATTGGCCGG GTCGATCATC AGGTGAAGAT TCGCGGTTTC CGCATCGAGC TGGGCGAAAT CGAATCGCGC CTGCAGCAAT GCACGGGCGT GCGCGAAGCG GTGGTACTGG CGGTTGCGCT GGCCGGCAGT GCGCAACTGG TCGCCTACGT AGTGCCAAGT GTCGTGGCAA ACAGCGATAC CGAACAAATG GCTTTGCGCC GGCGCATCAA GGGTCAACTG CAAGCCAGCC TGCCGGATTA CATGGTGCCG ACACACTTGT TGCTGCTGGC GCAATTGCCA CTCACGCCCA GCGGCAAACT GGACCGCAAG GCGTTGCCTG CGCCCGATTC AAGCCAGTTG CAGGCCCGTT ATCGCGCGCC GCACAGCGAG GTGGAAATCT GCCTGGCGGC TATCTGGCAG GAAGTCCTGC ACGCGCAGCA GGTCGGGCTG GACGATCACT TCTTTGAGCT GGGCGGCCAT TCGCTGCTCG CCGCGCAAGT CATTGCGCGG ATCAAGACCC GACTGGGCGT CAGCCTGCCG CTACGCGTGC TGTTTGAAAA ACCGCTGCTG GGCGAACTCG CCGCCGAAGT GGCGCTGCTG ACCGACAACG CAACGGATAA CGACTGGAGC GACATGGACC AGTTCATGGA TTCACTGGAG GAATTTGGCG CATGA
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Protein sequence | MDFALFPIPS CAGLAERDGL SYAQQRMWFL WQLDPHSAAY NLPMSVCLNG PLELPLLERA FSALVERHES LRTTFGQEGD RTFQRVAPPA PVNIRLIDLS PLPPQQRWSN ARQAMAEQSA QTFDLQRGPL FTVQVLRLAE QEHLLLLNLH HMITDGWSMN VLIDEWLRGY DALLGGKPLP FQPLAVQYRD YAVWQRSWLE AGEQERQLDY WRKHLGEEHP VLELPTDRPY PALPSHEGAR LELALAPELL RNLKILAQRQ GVTLFVVLLA TFKSLLHRYS GQTDIRVGGL IANRTRSETE GLIGCFINTQ VLRSEVTAQT RFVDLLHTVR DASTGAQAHQ ELPFDAIIDA LQPERSQSHN PLFQVMFNHQ PVVADLLDKQ LSGGLRVANL SAEQQALAQR SHAAASDLML ATSGEGEQLN AAFTYATDIF DQPTIARLAA HWRNLLTSVC ADPLQTIAEL SMLSADERTH LLAVDSAIKA DTTTPAHRQF EAQVQRTPDA LALILAGESP SPSLTYCELN ERSNRLAWQL REQGVGPDVL VGVALGRSLD MPVALLAVLK AGGAYVPLDL SAPSERLRHV LQDSGLKRLL THSEQRPTLP ELAGIQCLCI DQMNSEAASA ENPVVDIDPA HLAYVIYTSG STGRPKGVAI SHGALAEFVT LGADYSDLRE GDRVLQFATQ SFDGFVEQFY PPLCRGAAVV LRDERLWDSA TFHHAIVEHG VTLADLPAAY WLTLVQDFAA SPPVHYGALR QIHVGGEAMA VEGLRLWQHA GLGHVRLLNT YGPTEATVVS SIHDCSALTP EQVSWRGVPI GKGLAGRRLY VLDDQLNLLP QGALGELYIG GPGLARGYHA QPGLSAERFV ADPFVAGERL YRTGDRARLR ADGAIEYIGR VDHQVKIRGF RIELGEIESR LQQCTGVREA VVLAVALAGS AQLVAYVVPS VVANSDTEQM ALRRRIKGQL QASLPDYMVP THLLLLAQLP LTPSGKLDRK ALPAPDSSQL QARYRAPHSE VEICLAAIWQ EVLHAQQVGL DDHFFELGGH SLLAAQVIAR IKTRLGVSLP LRVLFEKPLL GELAAEVALL TDNATDNDWS DMDQFMDSLE EFGA
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