ggKbase | features

Value	Algorithm	Source
Putative acridine efflux pump n=1 Tax=Klebsiella oxytoca (strain ATCC 8724 / DSM 4798 / JCM 20051 / NBRC 3318 / NRRL B-199 / KCTC 1686) RepID=G8WCF8_KLEOK	similarity	UNIREF DB: UNIREF100
Identity: 99.6 Coverage: 1030.0 Bit_score: 1974 Evalue 0.0
Uncharacterized protein {ECO:0000313\|EMBL:EWF75399.1}; TaxID=1328430 species="Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacteriales; Enterobacteriaceae; Klebsiella.;" source="Klebsiella oxytoca MGH 41.;"	similarity	UNIPROT DB: UniProtKB
Identity: 100.0 Coverage: 1030.0 Bit_score: 1980 Evalue 0.0
multidrug RND transporter	similarity	KEGG DB: KEGG
Identity: 99.7 Coverage: 1030.0 Bit_score: 1977 Evalue 0.0

Value

Algorithm

Source

Putative acridine efflux pump n=1 Tax=Klebsiella oxytoca (strain ATCC 8724 / DSM 4798 / JCM 20051 / NBRC 3318 / NRRL B-199 / KCTC 1686) RepID=G8WCF8_KLEOK

similarity

UNIREF
DB: UNIREF100

Identity: 99.6
Coverage: 1030.0
Bit_score: 1974
Evalue 0.0

Uncharacterized protein {ECO:0000313|EMBL:EWF75399.1}; TaxID=1328430 species="Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacteriales; Enterobacteriaceae; Klebsiella.;" source="Klebsiella oxytoca MGH 41.;"

similarity

UNIPROT
DB: UniProtKB

Identity: 100.0
Coverage: 1030.0
Bit_score: 1980
Evalue 0.0

multidrug RND transporter

similarity

KEGG
DB: KEGG

Identity: 99.7
Coverage: 1030.0
Bit_score: 1977
Evalue 0.0

DNA sequence

Length: 3093

ATGCTCACATTTTTTATCCGTCGCCCGCGCTTTGCGATGGTGATTGCGCTGCTGATGACCTTTGTCGGCGCGGTCTCGCTGAAGCTGATCCCGGTCGAGCAGTATCCGCAGATTACGCCGCCGGTCATCAACGTTAGCGCCAGCTGGCCGGGCGCCAGCGCGGCGGACGTGGCGGAAGCCATTGCCGCGCCGCTGGAGACCCAGCTCAACGGCGTCGATCATATGCTCTATATGGAGTCCACCAGTTCCGATGAGGGGACCTACAGCCTGAGCCTGACTTTTGCCGCCGGGACCGATGCCGATTTAGCCGCGATCGACGTGCAGAACCGCGTGTCGCAGGCGGTGGCGCAGCTGCCTGCCGACGTGCAGCAGAACGGCGTGCAGGTGCGTAAGCGGGCGACGAACCTGCTGATGGGCGTGAGTCTCTATTCGCCGCTCGGCACGCTATCGCCGCTGTTTGTCAGCAACTACGCCAGCACTCAGGTGCGCGAGGCGCTGGCGCGTCTACCCGGCGTCGGGGAAGTGCAGATGTTCGGCGCGCGCGACTACAGCATGCGCATCTGGCTGCGCCCCGACCGCATGAACGCGCTGAATATCACAACCGACGATATTGCCCAGGCGCTGCGCGAGCAGAACGTACAGGGCGCGGCGGGGCAGGTGGGGACGCCGCCGGTATTTAACGGCCAGCAGCAGACGCTGACCATCAACGGTATCGGGCGACTCAGCGACGCCGCCGGCTTCGGGCAAATTGTGGTTCGCAGCGGCGAACGCGGCCAGCTGGTACGCCTGTCTGACGTGGCGACCATTGAGCTGGGCGCGCGCAGCTACAGCTCCGGCGCGCAGCTCAACGGCAAAGATTCCGCCTATCTCGGTATCTATCCGACGCCCACCGCCAACGCCCTGCAGGTCGCCACCGCGGTGCGCGCTGAGCTGACCCGGCTGCACGCGCGTTTCCCGGCGGATCTCACCTGGGAAGTGAAGTTTGATACCACCCGCTTTGTGGCGGCGACGATCAAAGAGATCGGCGTGTCTCTGGCGCTGACCCTTATGGCGGTGGTGGTGGTGGTTTCGCTGTTCCTCCAGAGCTGGCGGGCGACGCTGATTGTCGCGCTGGCGATCCCGGTGTCGCTTATCGGCACCTTTGCCGTGCTTTATGCGCTGGGCTACAGCGCCAATACCCTGAGCCTGTTCGCGATTATTCTCGCCCTGACGATGGTGGTGGATGACGCCATCGTGGTGGTGGAGAGCGTGGAAACGAAAATGGCGGAGGGGCTGGATCGCGGCGCCGCGACCGCCGAGGCGCTGCGGCAAATCGCCGGGCCGGTGATCGCCACAACTCTGGTGCTGCTGGCGGTGTTTGTGCCGGTAGCGATGCTGCCGGGGATCGTCGGCGAGCTGTATCGCCAGTTTGCGGTGACCTTATCGACGGCGGTGACGCTGTCGAGCGTGGTGGCGCTGACCCTGACGCCCGCGCTGTGCGCGCTGCTGCTGCGTCCGCGGCCGCAGCAGCCAGCCGCCATCTGGCGCGGTTTTAACCGCGGTCTGGATACGGTGCGCGATGGTTACGGGCGTCTGGTCGGGAGGATGAATCGTCGCCCCTGGCTGGCGCTGGCGGCGACGATGGCGGCGGCCGGGGTGGTGGTGTTTAGCTTTATCACCATGCCAAAGGGTTTTCTGCCGCAGGAAGATCAGGGCTACTTCTTTGCCAGCGTGCAGCTGCCTGAAGCCGCCTCGCTGGAGCGTACCGAAGCGGTGATGGCCCAGGCGCGCGAGCTGCTGTTGTTGAATCCGGCGGTTGAGGATGTGATTCAGGTCTCCGGTTTTAATATTCTCAACGGTACCAGCGCTTCAAACGGCGGATTTATCTCGGTGATGCTGAAGGACTGGCACCAGCGGCCGCCGCTGGAGGCGGTGATGGAAAAGGTGCAGGGCCAGCTGATGGGGCTACCGGAGGCGACGATCATGACTTTTGCGCCGCCGACGCTGCCGGGGCTGGGCAACGCCTCCGGGTTTAATTTACGCATTCTGGCCCAGGCCGGACAATCGCCGGCGGAGCTGGAGCAGGTGACGCATCAGGTGCTGCGGACGGCTAATCAGTACCCGCAGCTGAGCCGGGTATTTACCACCTGGAGCAGCAACGTGCCGCAGCTGACGCTCACCGTCGATCGCGACCAGGCGGCCCGGCTGAACGTACCGGTGGCGAGGATTTTCAGCAGCCTGCAAACCGCGTTTGGCGGCACCCGCGCCGGCGATTTCAGCATCAACAATCGTGTCTACCACGTGGTGATGCAAAACGAGATGCAGTGGCGCGAGCGGGCAGAGCAGATAAGCGAGCTGTACGTGCGCAGCGACAGCGGCGAGCGGGTTCGCCTGAGTAATCTGGTGACGATTACGCCGACGGTAGGCGCGCCGTTTATTCAGCAGTATAACCAGTTCCCGTCGGTATCGGTGAGCGGGTCGGCGGCCGAAGGCGTCAGCAGCCGGACGGCAATGGCGGTGATGGAGCAGATTTTACAAGCGAACCTGCCGCACGGTTATGATTACGCCTGGAGCGGCATCTCCTGGCAGGAGCAGCAGACCGGTAACCAGGCGGTGTGGATTGTGCTGGCGGCGGTAGCGATGGCGTGGCTGTTCCTCGTCGCCCAGTATGAGAGCTGGACGCTGCCGGCGAGCGTGATGCTGTCGGTGCTGTTCGCTATCGGTGGGTCCCTGCTGTGGCTATGGTGGGCCGGTTACGCCAACGATGTGTACGTGCAGATAGGCCTGGTGCTGCTGATCGCGCTGGCGGCGAAAAACGCGATTTTGATCGTCGAGTTTGCCCGCGCGAAGCGCGAAGAGGGGATGTCGATTATCGACGCCGCCCGCGAAGGGGCGACCCGCCGCTTCCGCGCGGTAATGATGACGGCGGTCTCTTTTATCATCGGGATTGTGCCGATGATGCTTGCCACCGGCGCCGGGGCGCAGAGCCGGCGGATTATCGGTACCACGGTGTTCAGCGGCATGTTGGTGGCGACGGTAATCGGCATTTTGTTTATTCCTTCGCTGTACGTGCTGTTCCAGCGGCTGCGCGAGTGGGCCCACCGCCGGATGTAG

PROTEIN sequence

Length: 1031

MLTFFIRRPRFAMVIALLMTFVGAVSLKLIPVEQYPQITPPVINVSASWPGASAADVAEAIAAPLETQLNGVDHMLYMESTSSDEGTYSLSLTFAAGTDADLAAIDVQNRVSQAVAQLPADVQQNGVQVRKRATNLLMGVSLYSPLGTLSPLFVSNYASTQVREALARLPGVGEVQMFGARDYSMRIWLRPDRMNALNITTDDIAQALREQNVQGAAGQVGTPPVFNGQQQTLTINGIGRLSDAAGFGQIVVRSGERGQLVRLSDVATIELGARSYSSGAQLNGKDSAYLGIYPTPTANALQVATAVRAELTRLHARFPADLTWEVKFDTTRFVAATIKEIGVSLALTLMAVVVVVSLFLQSWRATLIVALAIPVSLIGTFAVLYALGYSANTLSLFAIILALTMVVDDAIVVVESVETKMAEGLDRGAATAEALRQIAGPVIATTLVLLAVFVPVAMLPGIVGELYRQFAVTLSTAVTLSSVVALTLTPALCALLLRPRPQQPAAIWRGFNRGLDTVRDGYGRLVGRMNRRPWLALAATMAAAGVVVFSFITMPKGFLPQEDQGYFFASVQLPEAASLERTEAVMAQARELLLLNPAVEDVIQVSGFNILNGTSASNGGFISVMLKDWHQRPPLEAVMEKVQGQLMGLPEATIMTFAPPTLPGLGNASGFNLRILAQAGQSPAELEQVTHQVLRTANQYPQLSRVFTTWSSNVPQLTLTVDRDQAARLNVPVARIFSSLQTAFGGTRAGDFSINNRVYHVVMQNEMQWRERAEQISELYVRSDSGERVRLSNLVTITPTVGAPFIQQYNQFPSVSVSGSAAEGVSSRTAMAVMEQILQANLPHGYDYAWSGISWQEQQTGNQAVWIVLAAVAMAWLFLVAQYESWTLPASVMLSVLFAIGGSLLWLWWAGYANDVYVQIGLVLLIALAAKNAILIVEFARAKREEGMSIIDAAREGATRRFRAVMMTAVSFIIGIVPMMLATGAGAQSRRIIGTTVFSGMLVATVIGILFIPSLYVLFQRLREWAHRRM*

2019_SCN_bioreactor_t3_planktonic_scaffold_83621_83

Organism: 2019_SCN_bioreactor_t3_planktonic_Klebsiella_oxytoca_56_23

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

2019_SCN_bioreactor_t3_planktonic_scaffold_83621_83

Organism: 2019_SCN_bioreactor_t3_planktonic_Klebsiella_oxytoca_56_23

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

Processing

Terms of Service

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