| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | PA14_54940 |
|---|
| Symbol | |
|---|
| ID | 4380489 |
|---|
| Type | CDS |
|---|
| Is gene spliced | No |
|---|
| Is pseudo gene | No |
|---|
| Organism name | Pseudomonas aeruginosa UCBPP-PA14 |
|---|
| Kingdom | Bacteria |
|---|
| Replicon accession | NC_008463 |
|---|
| Strand | - |
|---|
| Start bp | 4875551 |
|---|
| End bp | 4878535 |
|---|
| Gene Length | 2985 bp |
|---|
| Protein Length | 994 aa |
|---|
| Translation table | 11 |
|---|
| GC content | 62% |
|---|
| IMG OID | 639327009 |
|---|
| Product | putative siderophore biosynthesis enzyme |
|---|
| Protein accession | YP_792567 |
|---|
| Protein GI | 116048633 |
|---|
| COG category | [E] Amino acid transport and metabolism
[H] Coenzyme transport and metabolism
[Q] Secondary metabolites biosynthesis, transport and catabolism |
|---|
| COG ID | [COG0147] Anthranilate/para-aminobenzoate synthases component I
[COG1021] Peptide arylation enzymes |
|---|
| TIGRFAM ID | [TIGR02275] 2,3-dihydroxybenzoate-AMP ligase
[TIGR03494] salicylate synthase |
|---|
| 
|
Plasmid Coverage information |
| Num covering plasmid clones | 0 |
|---|
| Plasmid unclonability p-value | 0.00000391308 |
|---|
| Plasmid hitchhiking | No |
|---|
| Plasmid clonability | unclonable |
|---|
| |
Fosmid Coverage information |
| Num covering fosmid clones | 0 |
|---|
| Fosmid unclonability p-value | 2.75623e-20 |
|---|
| Fosmid Hitchhiker | No |
|---|
| Fosmid clonability | unclonable |
|---|
| |
Sequence |
| Gene sequence | ATGGTTACTA ATCGTTGTGA TATTGCTGCA CTGGAACAGC GCTATGAGAG CCTAGGCTAT
TGGAAGCGCC AGACATTGCC TGAATGGCTC AGAATCGCCG CCGATTCGTA TGCACAGGCG
CCGGCCCTGA TTGATGGTGC TTCCCGGCTC ACCTACAGCG AACTTGATCT CAAAGTGGAT
CGCCTTGCCG CCGGATTTGA CCGCATCGGC ATTGCCAGAG GCGACCGGGT GCTGATGCAG
CTGCCCAACG GCGAAGCGTT CGTGGTCTGC CTATTCTCAC TTTTTCGGCT CGGGGCGCTC
CCCATCCTGG CCATGCCGGC CCATCGCGAG AAGGAAGTAC TGGAGTTGTG CCGCCTGGCC
GAGCCCAGCG CGTACATCAT TCCGAGGTCT TTCCTAGGAT TCGATTATCT TGCGCTAGCC
GAGCGTGCCC GGGCCAGCGT GCCTTCCATC AAGAACATTC TCGTAGAGGG CGATCCGGGC
CCCTGGCTGA GTCTGAGCCA GGTAGAAGAT GCTCCCCGCA GCTTCGCGCC TCCTGCGCAC
ACGGATACCG CCCTGCTGTT GCTCTCTGGG GGTACCACCG GTACGCCGAA ACTGATTCCG
CGCAGGCACA CCGACTATCT CTACAACGCC GTCGAGTCAG CCCGCCTGTG TGGCTTTTCC
CGGGAGTCCG TCTACCTCGC CGCCTTGCCA GTGGCCCACA ACTTTCCGCT GGCCTGCCCA
GGTCTTATCG GCACGCTCAG CGTCGGCGGG TGCGTGGTGA TGGCCAAGGC GCCCAGCGCC
GATGAGACCT TCCCATTGAT CGTGAAGGAA CGAGTGACAC ACACGGCGCT GGTTCCGCCG
CTAGTCAAGC TCTGGCTGGA AGCGCGCAAA TGGGATACCA GCGACCTTTC GAGTTTGAAG
CTCCTTCAGG TGGGTGGCGC GCGGCTTGAT CCGGATCTCG CCCGGCAAAT CACGCCCAGC
CTGGGCTGCC AGCTTCAACA GGTCTTTGGC ATGGCTGAGG GACTGCTGTG CTACACGCGC
CTGGACGACC CATTGGAGGT GGCGCTGAAC ACCCAAGGGC GGCCGCTGTG CCCTGATGAC
GAACTGCGGA TCGTGGGACC GGATGGCCAG CCTGTATCCG CGGGGCAAGT CGGCGAGCTT
CAAGTTCGAG GCCCGTACAC CATTAGAGGC TATTACCGAG TGCCCGAGCA CAACGCCCGC
AGCTTCACGA CTGACGGATT CTACCAATCG GGTGATCTGG TGCAGCTCAC TCCCGAAGGC
AATCTGGTGG TTCATGGGCG GATCAAGGAG CAGATCAATC GAGCCGGCGA GAAGATCGCC
TCTGCTGAAT TGGAAGGCGC CGTCGAACTG CATCCCGATG TCGAGAGCTG CGCCGTAGTC
GCGGTACCCG ACGAAAGACT GGGCGAGAGG ACATGCGCAG TACTCCTCGC CGGCGAGGGG
AATCCCTCCC TGGCAGATCT CCATGTGTTC CTGCGCACTG CGGGCCTGCC ACAGTACAAA
CTGCCGGACC AACTACTCAG AGTTGACCGC TGGCCACTGA CCACCATCGG AAAAATCGAC
AAGCAGCGGC TCATGATGCT CGCCCGGGAC GACTCGACCA TGCCCGACAT CCGTCCTGCC
GCAACTCCAC TTTCCTATGT CGAGAGTGAA ATGCCGGTGC ACTGGCCGCC GATAGACATA
CTCACTGCGC TTGCTGACTC CGGAATCGCA GGGGATTACG CCCTGTACGA ACAACCGGAT
GAGTGGTCCA TCGGACTGGG CAGAGTTGCC ACGCTGCGCG TTGGTGCCGA GCAAGCCGAA
CTGACCCAGG GCGAGAAATG TAAGACCTTC CGCAATCTGC GCCTGGTCGA CTCCATCGCC
GAGGCCACGG ACGAGATCGC GGTTGCGGAC TGGCGTGCCT ATGGCGTTGC ACGTTTTGAG
CTTTCGCAGA TATTCCATGG CCTGACCGCG CCGGCGCACG ATTCACCGCT CATGGAACTG
TTCGTGCCTG CCCTCGAAGT CCGCATCCGC GATGGGAAGG CGCGCCTTCG CGCGATAGAT
CCTGCCATGT TGCCCACGCT GAGAGCTGTG ATCGAACGGG TGCAACAGCA GAGCGAAAGC
ACTCCCATTG CTCCAGAAGA CGACGAGACG CTGCTCGCCT TGCGTCAACA TGAAGAAGAT
ATCTATAGAG CTAACGTCCA GCAGGCGGTG GACGAAATCA ATGCGCGCAA GTACCAGAAG
GTGATTCTGT CACGCCGAAT TCCCCTCCCG GCCGGGGTCG ACATCCTTCA AACCTACCGC
GCAGGCAGGG CGCGCAATAC TCCTGCCCGG TCATTCCTGG TCCAACTCGG CGGATCACGA
ATGGCTGGCT TCAGCCCGGA AACGGTAGTC GAGGTGACCT CCGATGGTTG GGTCAGCACG
CAGCCTCTGG CCGGAACCCG CGCCCTGGGC GAGTCCCATG AAGAAGAGGA GCGGCTGCGC
ATGGATCTCC TCAACGATGC CAAGGAGGTG GCCGAGCACG CCGTTTCGGT CAAGCTAGCC
CAAGACGAAG TGGCAAAGGT ATGCCGGGAC GCAAGCGTCA GCGAGTTCAT GCATGTGCTG
CGGCGGGGCT CCGTGCAGCA TCTCGCCTCT CGCGTGAATG GCCGCCTGCA TGAAGGCCGT
ACCGCCTGGG ATGCCTTCGA AGCGCTGTTT CCCGCGGTCA CCGCATCCGG TATCCCGAAA
CAGGCTGGCA TCGAAGCCAT CGGCCGCTTC GAGCGCACGG CCAGGGGCTG GTACAGCGGC
TGCATGCTGG TGGTGGACAG TCAGGGGGCT TTGGATGCGG CACTCGTGCT GCGCTCCATC
TACCAGCGTG AAGGCGAAAG CTGGCTCCAG GCTGGAGCCG GCATCGTCGG CCAATCCAGA
CCTGCACGCG AACTCGAGGA GACCAACGAG AAGCTCGCTT GCATCCTCAA GTACGTGGTG
CTCAAACCGG CCGCCATCGG CGAACCACTG GAGGGTGTCC GATGA
|
|---|
| Protein sequence | MVTNRCDIAA LEQRYESLGY WKRQTLPEWL RIAADSYAQA PALIDGASRL TYSELDLKVD
RLAAGFDRIG IARGDRVLMQ LPNGEAFVVC LFSLFRLGAL PILAMPAHRE KEVLELCRLA
EPSAYIIPRS FLGFDYLALA ERARASVPSI KNILVEGDPG PWLSLSQVED APRSFAPPAH
TDTALLLLSG GTTGTPKLIP RRHTDYLYNA VESARLCGFS RESVYLAALP VAHNFPLACP
GLIGTLSVGG CVVMAKAPSA DETFPLIVKE RVTHTALVPP LVKLWLEARK WDTSDLSSLK
LLQVGGARLD PDLARQITPS LGCQLQQVFG MAEGLLCYTR LDDPLEVALN TQGRPLCPDD
ELRIVGPDGQ PVSAGQVGEL QVRGPYTIRG YYRVPEHNAR SFTTDGFYQS GDLVQLTPEG
NLVVHGRIKE QINRAGEKIA SAELEGAVEL HPDVESCAVV AVPDERLGER TCAVLLAGEG
NPSLADLHVF LRTAGLPQYK LPDQLLRVDR WPLTTIGKID KQRLMMLARD DSTMPDIRPA
ATPLSYVESE MPVHWPPIDI LTALADSGIA GDYALYEQPD EWSIGLGRVA TLRVGAEQAE
LTQGEKCKTF RNLRLVDSIA EATDEIAVAD WRAYGVARFE LSQIFHGLTA PAHDSPLMEL
FVPALEVRIR DGKARLRAID PAMLPTLRAV IERVQQQSES TPIAPEDDET LLALRQHEED
IYRANVQQAV DEINARKYQK VILSRRIPLP AGVDILQTYR AGRARNTPAR SFLVQLGGSR
MAGFSPETVV EVTSDGWVST QPLAGTRALG ESHEEEERLR MDLLNDAKEV AEHAVSVKLA
QDEVAKVCRD ASVSEFMHVL RRGSVQHLAS RVNGRLHEGR TAWDAFEALF PAVTASGIPK
QAGIEAIGRF ERTARGWYSG CMLVVDSQGA LDAALVLRSI YQREGESWLQ AGAGIVGQSR
PARELEETNE KLACILKYVV LKPAAIGEPL EGVR
|
|---|
| |