Transporter Protein
LBA1621


    Transport Function
Transporter Name: LBA1621
Transporter Type: Secondary Transporter
Transporter Family: MFS (TC#: 2.A.1)
The Major Facilitator Superfamily (MFS)
Transporter Subfamily: 
Substrate/Function: multidrug efflux
TC#: 
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    Genome Locus
PID:   58337881     Blast
Source:   Lactobacillus acidophilus NCFM
Chromosome:   -
Location:   1623774..1625231
Gene:   -
Length:  485
Strand:  -
Code:   -
COG:   -
Product:  multidrug transporter
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    Transmembrane Segment
TMSs: 
TMHMM Server 
Total:     13
TMS 1:  7-29
TMS 2:  44-66
TMS 3:  73-95
TMS 4:  99-121
TMS 5:  133-155
TMS 6:  160-182
TMS 7:  195-212
TMS 8:  222-239
TMS 9:  260-282
TMS 10:  297-319
TMS 11:  331-353
TMS 12:  396-418
TMS 13:  452-474
Topology:   >LBA1621
MKKTNVPIVTLAIFMTTFMTAIEGTIVSTAMPTIVSDLDGLEIMNWVVSIFLLMTAVSTPLYGKLADSIG
RKPVFLFGITLFVIGSSLCGLAQNMVELILFRVIQGLGSGAVQPVAITIIADLYTLQKRAKMLGLNSGFW
GVASVIAPLLGGFIVQHLSWHWVFYINVPIGIIAFLLVVFCLKEPKHNAKSKLDLQGTIWLVILLLALMF
FLQDLGEVTNFVIMAILAALVIVSVIMFFRSEKRAEDPIMPLSMLKDREFLALNLITLLISGVVIGFEFY
IPTWMQGINGTSASIAGFAVTPSSLMWIVGSFLIGGMLGRWGIKKTYDYMLLVLVLADLALILVPIYTSF
WVFCVIAAFNGIAFGAITTASQVRSQVLVPKEDIGVATSFNTLMKYLGQTMMVSIYGIAFNTMVVQGLNK
HPQLNQSMMNKIVSAEKAKTLSVEAIPQLRQILLSGLKAVYVVSLIVIIISLVLNRIYKDRKINN
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    Sequence
Protein Sequence: >LBA1621 58337881 multidrug transporter [Lactobacillus acidophilus NCFM]
MKKTNVPIVTLAIFMTTFMTAIEGTIVSTAMPTIVSDLDGLEIMNWVVSIFLLMTAVSTPLYGKLADSIG
RKPVFLFGITLFVIGSSLCGLAQNMVELILFRVIQGLGSGAVQPVAITIIADLYTLQKRAKMLGLNSGFW
GVASVIAPLLGGFIVQHLSWHWVFYINVPIGIIAFLLVVFCLKEPKHNAKSKLDLQGTIWLVILLLALMF
FLQDLGEVTNFVIMAILAALVIVSVIMFFRSEKRAEDPIMPLSMLKDREFLALNLITLLISGVVIGFEFY
IPTWMQGINGTSASIAGFAVTPSSLMWIVGSFLIGGMLGRWGIKKTYDYMLLVLVLADLALILVPIYTSF
WVFCVIAAFNGIAFGAITTASQVRSQVLVPKEDIGVATSFNTLMKYLGQTMMVSIYGIAFNTMVVQGLNK
HPQLNQSMMNKIVSAEKAKTLSVEAIPQLRQILLSGLKAVYVVSLIVIIISLVLNRIYKDRKINN
DNA Sequence: >LBA1621 58337881 multidrug transporter [Lactobacillus acidophilus NCFM]
ATGAAAAAAACAAACGTGCCAATAGTCACGCTTGCGATTTTTATGACAACTTTTATGACAGCTATTGAAG
GTACAATCGTTTCTACAGCGATGCCAACAATTGTTTCCGATCTAGATGGATTAGAAATTATGAATTGGGT
TGTATCGATTTTTCTTTTGATGACAGCTGTCTCAACTCCTTTATATGGAAAACTGGCGGATAGCATTGGG
CGAAAGCCAGTTTTTTTATTTGGAATTACATTATTTGTCATTGGATCGTCATTATGTGGGCTAGCGCAAA
ATATGGTTGAACTCATTTTATTTAGAGTAATTCAAGGATTAGGCTCTGGTGCTGTTCAACCAGTAGCAAT
TACAATTATTGCAGATTTATATACTTTGCAAAAACGTGCCAAAATGTTAGGACTTAATTCGGGTTTTTGG
GGAGTAGCCTCAGTTATTGCTCCGCTTTTGGGAGGCTTTATTGTTCAGCATTTATCATGGCATTGGGTAT
TCTATATTAATGTCCCAATTGGAATTATTGCCTTTTTGCTAGTTGTATTTTGCTTAAAAGAACCTAAACA
CAATGCCAAGTCAAAATTAGATTTACAGGGTACAATTTGGTTAGTAATTTTACTTCTAGCCTTAATGTTC
TTCTTGCAGGATTTAGGTGAAGTAACTAATTTCGTAATAATGGCTATCTTAGCTGCTTTAGTGATAGTCT
CAGTAATTATGTTCTTTAGATCAGAAAAACGCGCAGAAGATCCAATAATGCCGTTATCAATGTTAAAAGA
TAGAGAGTTCTTGGCTTTAAATTTAATTACATTACTGATTTCTGGTGTGGTAATAGGGTTTGAATTCTAT
ATTCCAACTTGGATGCAAGGAATTAATGGGACAAGTGCCTCAATTGCTGGGTTTGCTGTAACGCCTAGTT
CATTAATGTGGATTGTAGGTTCCTTCTTAATTGGCGGAATGCTTGGTCGTTGGGGGATTAAAAAAACATA
TGATTACATGCTGCTAGTTTTAGTACTGGCTGATTTAGCTCTAATTTTAGTTCCAATTTATACATCTTTT
TGGGTATTTTGTGTAATTGCTGCTTTTAATGGAATAGCTTTTGGTGCAATAACTACTGCTTCACAAGTTC
GTTCCCAAGTACTAGTGCCTAAAGAGGATATTGGTGTAGCAACTTCATTTAATACTTTAATGAAATATTT
AGGCCAAACAATGATGGTTTCAATTTATGGAATTGCATTTAATACTATGGTCGTTCAAGGGTTAAATAAG
CATCCGCAATTAAATCAATCAATGATGAACAAAATCGTATCAGCTGAAAAAGCGAAAACTTTATCAGTAG
AGGCAATACCGCAATTGAGACAGATACTTTTAAGCGGATTAAAGGCGGTTTATGTAGTTTCGTTAATTGT
AATTATTATTTCTCTTGTTTTAAATAGGATATATAAAGATCGAAAAATTAATAATTAG
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    Publications
Publications on this gene:
1.  Proc Natl Acad Sci U S A 2005 Mar 15; 11(102):3906-12.
Complete genome sequence of the probiotic lactic acid bacterium Lactobacillus acidophilus NCFM.

Altermann E ,Russell WM ,Azcarate-Peril MA ,Barrangou R ,Buck BL ,McAuliffe O ,Souther N ,Dobson A ,Duong T ,Callanan M ,Lick S ,Hamrick A ,Cano R ,Klaenhammer TR ,

Department of Food Science, Southeast Dairy Foods Research Center, North Carolina State University, Raleigh, NC 27695, USA.

Lactobacillus acidophilus NCFM is a probiotic bacterium that has been produced commercially since 1972. The complete genome is 1,993,564 nt and devoid of plasmids. The average GC content is 34.71% with 1,864 predicted ORFs, of which 72.5% were functionally classified. Nine phage-related integrases were predicted, but no complete prophages were found. However, three unique regions designated as potential autonomous units (PAUs) were identified. These units resemble a unique structure and bear characteristics of both plasmids and phages. Analysis of the three PAUs revealed the presence of two R/M systems and a prophage maintenance system killer protein. A spacers interspersed direct repeat locus containing 32 nearly perfect 29-bp repeats was discovered and may provide a unique molecular signature for this organism. In silico analyses predicted 17 transposase genes and a chromosomal locus for lactacin B, a class II bacteriocin. Several mucus- and fibronectin-binding proteins, implicated in adhesion to human intestinal cells, were also identified. Gene clusters for transport of a diverse group of carbohydrates, including fructooligosaccharides and raffinose, were present and often accompanied by transcriptional regulators of the lacI family. For protein degradation and peptide utilization, the organism encoded 20 putative peptidases, homologs for PrtP and PrtM, and two complete oligopeptide transport systems. Nine two-component regulatory systems were predicted, some associated with determinants implicated in bacteriocin production and acid tolerance. Collectively, these features within the genome sequence of L. acidophilus are likely to contribute to the organisms' gastric survival and promote interactions with the intestinal mucosa and microbiota.

Publication Type: Research Support, Non-U.S. Gov't; Research Support, U.S. Gov't, Non-P.H.S.; Research Support, U.S. Gov't, P.H.S.;
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    External Links

   TIGR CMRTHE SEEDThe SEED  
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    NBCI Gene Page
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