Molecule Information

General Information of the Molecule (ID: Mol01118)

Name	Tetracycline resistance protein TetW (TETW) ,Mitsuokella multiacidus
Synonyms	tetW; Tetracycline resistance protein Click to Show/Hide
Molecule Type	Protein
Gene Name	tetW
Sequence	MKIINIGILAHVDAGKTTLTESLLYASGAISEPGSVEKGTTRTDTMFLERQRGITIQAAV TSFQWHRCKVNIVDTPGHMDFLAEVYRSLAVLDGAILVISAKDGVQAQTRILFHALRKMN IPTVIFINKIDQAGVDLQSVVQSVRDKLSADIIIKQTVSLSPEIVLEENTDIEAWDAVIE NNDELLEKYIAGEPISREKLAREEQQRVQDASLFPVYHGSAKNGLGIQPLMDAVTGLFQP IGEQGGAALCGSVFKVEYTDCGQRRVYLRLYSGTLRLRDTVALAGREKLKITEMRIPSKG EIVRTDTAYQGEIVILPSDSVRLNDVLGDQTRLPRKRWREDPLPMLRTTIAPKTAAQRER LLDALTQLADTDPLLRCEVDSITHEIILSFLGRVQLEVVSALLSEKYKLETVVKEPSVIY MERPLKAASHTIHIEVPPNPFWASIGLSVTPLSLGSGVQYESRVSLGYLNQSFQNAVRDG IRYGLEQGLFGWNVTDCKICFEYGLYYSPVSTPADFRSLAPIVLEQALKESGTQLLEPYL SFILYAPQEYLSRAYHDAPKYCATIETAQVKKDEVVFTGEIPARCIQAYRTDLAFYTNGR SVCLTELKGYQAAVGQPVIQPRRPNSRLDKVRHMFQKVM Click to Show/Hide
Function	Abolishes the inhibitory effect of tetracyclin on protein synthesis by a non-covalent modification of the ribosomes. Click to Show/Hide
Uniprot ID	Q710C6_9FIRM
*Click to Show/Hide the Complete Species Lineage*
Kingdom: N.A. Phylum: Firmicutes Class: Negativicutes Order: Selenomonadales Family: Selenomonadaceae Genus: Mitsuokella Species: Mitsuokella multacida

Type(s) of Resistant Mechanism of This Molecule

ADTT: Aberration of the Drug's Therapeutic Target

Drug Resistance Data Categorized by Drug

Approved Drug(s)

1 drug(s) in total

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Tetracycline

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Drug Resistance Data Categorized by Their Corresponding Mechanisms
Aberration of the Drug's Therapeutic Target (ADTT)		Click to Show/Hide
Disease Class: Mitsuokella multiacidus infection			[1]
Resistant Disease	Mitsuokella multiacidus infection [ICD-11: 1A00-1C4Z]		Disease Info
Resistant Drug	Tetracycline		Drug Info
Molecule Alteration	Expression	Inherence
Experimental Note	Identified from the Human Clinical Data
In Vitro Model	Bifidobacterium longum strain F10		216816
	Bifidobacterium longum strain F5		216816
	Bifidobacterium longum strain F8		216816
	Butyrivibrio fibrisolvens strain 1.23		831
	Butyrivibrio fibrisolvens strain 1.230		831
	Butyrivibrio fibrisolvens strain Jk214		831
	Butyrivibrio fibrisolvens strain Jk51		831
	Fusobacterium prausnitzii strain k10		853
	Mitsuokella multiacidus strain 46/5(2)		52226
	Mitsuokella multiacidus strain P208-58		52226
	Selenomonas ruminantium strain FB32		971
	Selenomonas ruminantium strain FB322		971
	Selenomonas ruminantium strain FB34		971
Experiment for Molecule Alteration	Southern blotting assay
Mechanism Description	Members of our group recently identified a new tetracycline resistance gene, tet(W), in three genera of rumen obligate anaerobes. Here, we show that tet(W) is also present in bacteria isolated from human feces. The tet(W) genes found in human Fusobacterium prausnitzii and Bifidobacterium longum isolates were more than 99.9% identical to those from a rumen isolate of Butyrivibrio fibrisolvens.

References

Ref 1	Occurrence of the new tetracycline resistance gene tet(W) in bacteria from the human gut. Antimicrob Agents Chemother. 2000 Mar;44(3):775-7. doi: 10.1128/AAC.44.3.775-777.2000.

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