| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Psyr_1128 |
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| Symbol | |
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| ID | 3366622 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Pseudomonas syringae pv. syringae B728a |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007005 |
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| Strand | - |
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| Start bp | 1277027 |
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| End bp | 1280131 |
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| Gene Length | 3105 bp |
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| Protein Length | 1034 aa |
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| Translation table | 11 |
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| GC content | 63% |
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| IMG OID | 637651469 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_234220 |
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| Protein GI | 66044379 |
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| COG category | [V] Defense mechanisms |
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| COG ID | [COG0841] Cation/multidrug efflux pump |
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| TIGRFAM ID | [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family
[TIGR01131] ATP synthase subunit 6 (eukaryotes),also subunit A (prokaryotes) |
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Plasmid Coverage information |
| Num covering plasmid clones | 4 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 7 |
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| Fosmid unclonability p-value | 0.0555006 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAACGGCC GGGGCTCGGT ATCGGCGTGG TGCATCGACC ACCCGGTGGC CACCTTGTTG
CTGACCTTCG CACTGGTACT GCTGGGGGTC ATTGCCTTTC CACGGCTGCC GATCGCGCCG
TTGCCGGAAG CGGAATTCCC GACCATCCAG GTCACCGCGC AGCTCCCCGG CGCCAGCCCC
GAAACCATGG CGTCTTCGGT TGCCACGCCA CTGGAAGTAC AGTTCAGTGC GATACCGGGC
ATGACCCAGA TGACCTCCAG CAGCGCACTG GGCTCCACCA ACCTGACGCT GCAATTCACG
CTCAACAAAA GCATCGACAC TGCGGCCCAG GAAGTCCAGG CCGCCATCAA TACCGCAGCC
GGACGCCTGC CGGCCGACCT GCCCAGTCTG CCGACCTGGC GCAAGGTCAA CCCGGCCGAC
AGCCCGGTGC TGATCCTCAG CGTGAGTTCC AGCCTGATCC CCGGCACAGA ACTGAGCGAC
GTCACCGAAA CCATTCTGGC GCGCCAGCTC AGCCAGATCG AAGGCGTGGG CCAGGTCTTC
ATCACCGGTC AGCAACGTCC GGCGATTCGT GTTCAGGCCG CTCCCGAGAA ACTGGCTGCG
CTAGGGCTGA CCCTGGCCGA TATTCGCCTG GCGGTGCAGC AGACCAGCCT GAACCTGGCC
AAGGGCGCGC TGTACGGCAA GGACAGTATT TCGACCCTGT CTTCCAACGA CCAGTTGTTC
AAGCCGCAGG ACTACGCGCA ACTGATTGTT TCCTACAAGA ACGGCGCACC CGTCCAGCTC
AAGGATGTGG CTCGGGTTGT CGCGGGCTCG GAAAACGCCT ACGTCAAGGC CTGGTCCGGC
GATCAGCAAG GCGTCAACAT CGCCATCTTC CGCCAGCCGG GCGCCAACAT TGTCGACACC
GTGGACCGTA TCCAGCGTGA ACTGCCACGC TTGCAGGAAA TGCTCCCGGC CAGCGTCGAT
GTCTCGGTAC TCAACGATCG CACCCGTACC ATCCGTGCCT CGCTGCATGA AGTGGAAATG
ACCCTGATGA TCGCGGTGCT GCTGGTGGTG GCGGTCATGG CGCTGTTCCT GCGCCAACTG
TCAGCCACCC TGATCGTCAG TGCGGTACTC GGGGTCTCGC TGATTGCCAG CTTTGCGATG
ATGTACCTGT TCGGCTTCAG CCTGAACAAC CTGACACTGG TGGCCATCGT GGTCGCGGTC
GGTTTCGTGG TGGACGACGC CATCGTGGTG GTCGAGAACA TCCACCGTCA TCTCGAAGCC
GGTCAGGACA TGCGCGAGGC CGCGATAAAG GGCTCAGGGG AAATCGGCTT TACCGTAGTG
TCGATCAGTT TCTCACTGGT GGCGGCGTTC ATTCCGCTGT TGTTCATGGG CGGCGTGGTC
GGGCGACTGT TCAAGGAGTT CGCACTGACC GCAACCGCGA CCATCCTTAT TTCGGTGGTC
GTCTCCCTGA CCCTCGCGCC GACCCTGGCC GCCTTGTTCA TGCGCGCGCC CACCCATCAC
CCGCATCAGA AACCGGGGTT CGGTGAACGC CTGCTCGCCT CCTACGAGCG TGGCTTGCGC
AAGGCCCTGG CCCATCAGCG GCTGATGCTT GGCGTGTTCG GCCTGACCCT GGCGCTGGCG
GTAGTCGGTT ACATCCTCAT CCCCAAAGGC TTCTTTCCGG TCCAGGACAC CGCTTTTGCA
CTCGGGACCA CCGAGGCGGC TGCCGACATC TCCTACCCGG ACATGGTGGA AAAACACCTG
GAACTGGCAA AGATCGTCGG CGCGGACCCT GCGGTGCTGG CGTTCTCGCA TTCGGTCGGT
GTTTCGGGCA GCAACCAGAC CATCGCCAAC GGCCGCTTCT GGATCTCGCT CAAGCCACGC
GCCGAACGCG ATGTGTCGGT CAGTGAGTTC ATCGACCGCC TGCGCCCCAA ACTGGCCAAG
GTCCCGGGCA TCGTTCTGTA CCTGCGTGCC GGGCAGGACA TCAACCTCAG CTCCGGCCCG
AGCCGCAGTC AGTACCAGTA CGTGCTCAAG AGCAACGACG GCGAACTGCT CAACACCTGG
ACGCAACGGC TGACTGAAAA GCTGCGCAGC AACCCGGCGT TTCGCGACAT GTCCAACGAC
TTGCAACTGG GCGGCAGCGT CACGCACATC GACATCGACC GCAGCGCTGC CGCGCGCTTC
GGCCTGACCA CGGCCGATGT CGACCAGGCG CTGTACGACG CGTTCGGCCA GCGGCAGATC
AGCGAGTATC AGACGGAAGT CAACCAGTAC AAGGTGATCC TTGAACTGGA CGCCCAGCAG
CGCGGCAAGG CTGAAAGCCT GGCGTACTTC TACCTGCGCT CACCGCTGAC CAGCGAAATG
GTGCCGCTGT CGGCGCTGGC CAAAGTCAGT GCGCCGCGCA GGGGACCGTT ATCGATCAGC
CATGACGGGA TGTTTCCGGC GGCGAACCTG TCGTTCAACC TGGCACCCGG GGTCGCCTTG
GGCGATGCCG TGCGCATGCT CGATCAGGCC AAGAACGAGA TCGGCATGCC CGCCTCGATC
ATCGGCAGCT TCCAGGGTGC GGCACAGGCG TTCCAGAGCT CGCTGGCCAA CCAGCCGTGG
CTGATCCTAG CGGCGCTGGT GGCGGTGTAT ATCATTCTGG GGGTGCTCTA TGAAAGCTTC
GTGCACCCGC TGACCATCAT CTCCACCCTG CCCTCGGCAG GTATCGGCGC ACTGTTGCTG
CTGTGGATGA TGGGCCAGGA CTTCTCGATC ATGGCCCTGA TCGGCGTGGT GTTGCTGATC
GGTATCGTCA AAAAGAACGG TATTCTGCTG GTGGACTTTG CCCTGCAGGC CCAGCGCGAG
CAGGGCCTCA CGCCCCAGGA AGCCATTTAT GAGGCCTGCA TCACCCGCTT CCGACCGATT
ATCATGACCA CCCTCGCCGC GCTGCTCGGC GCGCTGCCGC TGATGCTCGG TTTCGGCGTC
GGTTCCGAAT TGCGTCAGCC GCTGGGCATT GCCGTGGTCG GCGGCCTGCT GGTGAGCCAG
ATGCTCACGT TGTTCACCAC GCCGGTCATT TATCTGCAAC TGGAGCGGCT GTTTCATCGA
CGTCACCCGG CGCCCGACGC ACCGGCGCTG GCCCTGCACA AGTGA
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| Protein sequence | MNGRGSVSAW CIDHPVATLL LTFALVLLGV IAFPRLPIAP LPEAEFPTIQ VTAQLPGASP
ETMASSVATP LEVQFSAIPG MTQMTSSSAL GSTNLTLQFT LNKSIDTAAQ EVQAAINTAA
GRLPADLPSL PTWRKVNPAD SPVLILSVSS SLIPGTELSD VTETILARQL SQIEGVGQVF
ITGQQRPAIR VQAAPEKLAA LGLTLADIRL AVQQTSLNLA KGALYGKDSI STLSSNDQLF
KPQDYAQLIV SYKNGAPVQL KDVARVVAGS ENAYVKAWSG DQQGVNIAIF RQPGANIVDT
VDRIQRELPR LQEMLPASVD VSVLNDRTRT IRASLHEVEM TLMIAVLLVV AVMALFLRQL
SATLIVSAVL GVSLIASFAM MYLFGFSLNN LTLVAIVVAV GFVVDDAIVV VENIHRHLEA
GQDMREAAIK GSGEIGFTVV SISFSLVAAF IPLLFMGGVV GRLFKEFALT ATATILISVV
VSLTLAPTLA ALFMRAPTHH PHQKPGFGER LLASYERGLR KALAHQRLML GVFGLTLALA
VVGYILIPKG FFPVQDTAFA LGTTEAAADI SYPDMVEKHL ELAKIVGADP AVLAFSHSVG
VSGSNQTIAN GRFWISLKPR AERDVSVSEF IDRLRPKLAK VPGIVLYLRA GQDINLSSGP
SRSQYQYVLK SNDGELLNTW TQRLTEKLRS NPAFRDMSND LQLGGSVTHI DIDRSAAARF
GLTTADVDQA LYDAFGQRQI SEYQTEVNQY KVILELDAQQ RGKAESLAYF YLRSPLTSEM
VPLSALAKVS APRRGPLSIS HDGMFPAANL SFNLAPGVAL GDAVRMLDQA KNEIGMPASI
IGSFQGAAQA FQSSLANQPW LILAALVAVY IILGVLYESF VHPLTIISTL PSAGIGALLL
LWMMGQDFSI MALIGVVLLI GIVKKNGILL VDFALQAQRE QGLTPQEAIY EACITRFRPI
IMTTLAALLG ALPLMLGFGV GSELRQPLGI AVVGGLLVSQ MLTLFTTPVI YLQLERLFHR
RHPAPDAPAL ALHK
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