| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Oant_2173 |
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| Symbol | |
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| ID | 5380882 |
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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 | Ochrobactrum anthropi ATCC 49188 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009667 |
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| Strand | - |
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| Start bp | 2283812 |
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| End bp | 2286901 |
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| Gene Length | 3090 bp |
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| Protein Length | 1029 aa |
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| Translation table | 11 |
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| GC content | 58% |
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| IMG OID | 640834844 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_001370718 |
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| Protein GI | 153009503 |
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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 | 0 |
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| Plasmid unclonability p-value | 0.310659 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGAGCTTTT CCGATATTTT CATCCGGCGA CCCGTGCTTG CCACGGTAGT CGCCCTCATG
ATCATTCTGT TGGGCCTTCA GGGTATCGCG CAGCTGACGG TGCGCGAATA TCCGAAGGTC
GATGAAACCG TTATCACGGT CACAACAAAC TATGCCGGCG CGAGTGCCGA TCTCATTCAG
GGTTTCATCA CCGCGCCGAT CGCCGAAGCA GTCGCTACGA CTGAAAACAT CGACTATGTG
ACGTCTTCGA GCCGTCCGTC GTCGAGCACG GTGACCGTGC AGATGAAGCT CGGCGCAAAC
CCCGATGCGG CGTTGACGGA AGTCATCGCC AAGGTCAATC AGGTTCGCGG CGACCTGCCG
GACGAATCCG ATGATCCCGT CATCGTCAAG GGAACGGGTC AGAACTTCGC TACCATGTAT
CTGGCAGCGC AGAACCCGAA TATGACGAGC GAACAGATCA CGGAATATCT GGAACGCGTT
ATCCAGCCGC GCATGTCCAC CATTCAGGGT GTTGCAAAGG CTGAAATTCT GGGCGGTCAG
GTCTATTCGA TGCGTGTCTG GCTCGACCCG ATCCAGCTTG CGGCACGTCA GATCACGGCA
CCGGAAGTTC TGGCGGCAAT CAACGCTTCC AACTTCCTGT CGGCGCCCGG CACGACCAAG
AACGAATATG TGTCGTCATC GATCACATTG AAGTCGACCT TGCAGACACC GGAAGCCTTT
GGCGCCATGC CGATCAAGGC CTCGGGTGAC GACGTCGTTC GTCTGCGTGA TGTTGCGCGG
GTCGAACTGG CGGCGAAAAG CACGGACACC ATCGTTTCGT TCAACGGCTC GGCTGGTACC
TTCCTCGGCG TCTTCCCGAC ACCGGCGGCA AACCCCATCG ACATGGCCGC TGCCGTCCGC
AAGGAACTGC CATCTATCCA GGCGTCGCTG CCGGAAGGCA TGTCGCTTGT TCTCGTCTAT
GACGCGACCG AGCAGATCAG CTCTTCGATC AAGGAAGTCT TCACGACCAT CGGCGAAGCC
GTGGCCATCG TCATTCTGGT CATCATCGTC TTCCTCGGGT CGTTCCGCTC GGTGCTGATT
CCGATTGTCA CGATCCCAAT CTCGTTGATC GGCGTGTGCT TTTTCCTTTA TGCGCTCGGC
TTCTCGATCA ACCTGTTGTC ACTGCTCGCG ATGGTTCTCG CCATCGGCCT TGTGGTCGAC
GATGCCATCG TGGTTCTGGA GAACATACAC CGGCATATCG AAGAGGGCCT CCGGCCCATG
GACGCTGCCT TCAAGGGCAT GAAGGAAATC ACCGGCTCGA TCATCGCCAT GACGATCACG
CTGGCGGCGG TGTTCGCACC ACTCGGCTTC ACGGGCGGTC TGACGGGCGC CCTGTTCCGC
GAATTCGCCT TCACGCTGGC TGGCGCCGTT ATCATTTCGG GCGTTGCCGC CTTGACGGTT
TCGCCAATGA TGTGCGCGCG TATGCTCAAG CATGGCGACC AGACCCGGTT CCAGAAGTTC
ATCGACCGGA CCTTCTCGCG TTTCGAAAAG TGGTATCACC GTCGTGTCTC CAACTCGCTC
AACTATCGCG GCATTACGCT CGCAATTGTC GTAGCGCTGA TGGGATTGAC GGGCTTCCTT
TTCATGAACA CGTCGAGCGA ACTGGCACCG GAAGAAGATT CCGGCGCGCT GTTCTCGATG
TTCCAGGCTC CGCAATATGC AACCTCGGCC TATACCAATC TCTACGCCGA ACAGATCGAC
GAACTGACCA AGGATCTTCC CGAACTGAAG ACCCGCTTCC AGATCGTCGG CATGGACGGT
GGCACGACAT CCGGTATCGC GCTGTGGGTT TTGAAGGACT GGAACGAGCG TACCCGTTCG
CAGAAGCAGA TTCAGGAAGA CCTGACCGCA CGTATTTCCA AGGTCGCAGG TGTTGAAGCT
TTCATCTTCG CGCCTCCGTC CCTGCCGGGA ACGGGTGGCG GCCTGCCGAT CTCGATTGCT
ATCCAATCGA CTGGCCCAGC CGATCAGGTT TTCGCACTGG CTGAGGAAAT CAAGAACGAA
GCACAGGCTT CCGGCCAGTA TATCATTGTG CAGAACTCGC TTTCCTTCAA CGCACCGCAG
GTCACAATCA CCATCGATCG CGACCGCGCA GCAACGCTGG GTGTGCAGAT CAGCGATATC
GGTTCGACAC TGGGTCTCCT GACCGGTGGC GCATCGGTGG CGAAGTTCGA CCGCGATTCG
AACAGCTATG ACATCATCAC GCAGGTGCCC GATGCATACC GTTCGAACCC GGAAAAGCTT
GGCGACTTCT ATGTGCGCAG TGTTTCCGGC TCGATGATCC CGCTGTCGTC GGTCATCACG
ATCAGCCAGA ACGCATCGCC TGCAGCAATC GAGCAGTTCA ACCAGCTGAA TTCGGCCACG
ATTTCAGCTC TGCCGCTGCC AGGCGTTACA ACCGGGCAGG GCCTGCAAAC TCTGGTCGAT
CTGGCCAAAT CCAAGATGCC GGAAGGCTTC TTCCTGGATT ATTCCGGTCA GTCGCGTCTG
GAAGTGGAGC AGGGCAACAC GATCCTGATC GCCTTCGGCC TCGCCGTCAT CGTGATCTAT
CTCGTGCTTG CGGCGCAGTT CGAAAGCTTC CGCGATCCGT TCATCATCAT GATGTCGGTT
CCGCTGTCGA TCTTCGGTGC CATCGTGCCG CTGAACATCG GTCTCGGCAC TCTCAACATC
TACACGCAGG TCGGTCTCAT CACCCTTGTC GGGCTGATTA CCAAGCACGG TATTCTGATG
GTGGAATTCG CCAACCAGCA ACGCCGTCTG CATGGTCTTT CACGCCGGGA TGCGATCATC
GTCGCGGCTG AAACCCGCCT GCGTCCGATC CTGATGACCA CTGCCGCCAT GGCGCTTGGC
GTTGTACCGC TCATCATCGC GACCGGTGCC GGTGCAGCCG CACGTTACTC GATGGGTCTG
GTGATCTTCA CTGGTATCGT GATCGGCACG ATCTTCACGT TGTTCGTGGT GCCGATGTTC
TACACCTTCA TCGCCAAGAA GGATGTTGAA GGCGAATATG TTGCGTCATC GGATGAAGGC
GGCGAACCGG CTCCAGCGCA ACATCACTGA
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| Protein sequence | MSFSDIFIRR PVLATVVALM IILLGLQGIA QLTVREYPKV DETVITVTTN YAGASADLIQ
GFITAPIAEA VATTENIDYV TSSSRPSSST VTVQMKLGAN PDAALTEVIA KVNQVRGDLP
DESDDPVIVK GTGQNFATMY LAAQNPNMTS EQITEYLERV IQPRMSTIQG VAKAEILGGQ
VYSMRVWLDP IQLAARQITA PEVLAAINAS NFLSAPGTTK NEYVSSSITL KSTLQTPEAF
GAMPIKASGD DVVRLRDVAR VELAAKSTDT IVSFNGSAGT FLGVFPTPAA NPIDMAAAVR
KELPSIQASL PEGMSLVLVY DATEQISSSI KEVFTTIGEA VAIVILVIIV FLGSFRSVLI
PIVTIPISLI GVCFFLYALG FSINLLSLLA MVLAIGLVVD DAIVVLENIH RHIEEGLRPM
DAAFKGMKEI TGSIIAMTIT LAAVFAPLGF TGGLTGALFR EFAFTLAGAV IISGVAALTV
SPMMCARMLK HGDQTRFQKF IDRTFSRFEK WYHRRVSNSL NYRGITLAIV VALMGLTGFL
FMNTSSELAP EEDSGALFSM FQAPQYATSA YTNLYAEQID ELTKDLPELK TRFQIVGMDG
GTTSGIALWV LKDWNERTRS QKQIQEDLTA RISKVAGVEA FIFAPPSLPG TGGGLPISIA
IQSTGPADQV FALAEEIKNE AQASGQYIIV QNSLSFNAPQ VTITIDRDRA ATLGVQISDI
GSTLGLLTGG ASVAKFDRDS NSYDIITQVP DAYRSNPEKL GDFYVRSVSG SMIPLSSVIT
ISQNASPAAI EQFNQLNSAT ISALPLPGVT TGQGLQTLVD LAKSKMPEGF FLDYSGQSRL
EVEQGNTILI AFGLAVIVIY LVLAAQFESF RDPFIIMMSV PLSIFGAIVP LNIGLGTLNI
YTQVGLITLV GLITKHGILM VEFANQQRRL HGLSRRDAII VAAETRLRPI LMTTAAMALG
VVPLIIATGA GAAARYSMGL VIFTGIVIGT IFTLFVVPMF YTFIAKKDVE GEYVASSDEG
GEPAPAQHH
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