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VF category: Quorum sensing (total 75 related VFs in database, current show from 1 to 10)
 
VF Bacteria Brief description
Quorom sensing
(Autoinducer-receptor mechanism)
Acinetobacter
(A. baumannii ACICU)
AbaI protein belongs to LuxI autoinducer synthases family. The consensus pattern of the said family is [LMFYA]-R-x(3)- F-x(2)-W-x-[LIVM]-x(6,9)-E-x-D-x-[FY]-D. AbaR belongs to LuxR family, interacting with the AHL molecule and further controls the gene expression of AbaI. ...
Quorum-sensing
Burkholderia
(B. pseudomallei K96243)
CepIR is the ancestral quorum-sensing system in the Burkholderia genus, BspIR is homolgous to CepIR in B. pseudomallei.. B. pseudomallei encodes three AHL synthases, encoded by bpsI1, bpsI2 and bpsI3, and five regulator genes. ...
Fsr
(E. faecalis regulator)
Enterococcus
(E. faecalis V583)
The fsrABC operon is homologus to agrABCD in Staphylococcus aureus. The lack of an AgrD homologue is consistent with the exquisite specificity seen with autoinducing polypeptides quorum sensing systems for each species and subspecies. ...
Quorum sensing
Pseudomonas
(P. aeruginosa PAO1)
Consists of two separate but interrelated systems, las and rhl. The autoinducer signal molecules produced by P.aeruginosa are N-(3-oxododencanoyl) homeserine lactone(3O-C12-HSL) and N-butyryl homoserine lactone(C4-HSL). A novel, additional autoinducer has recently been demonstrated to be involved in quorum sensing. It is 2-heptyl-3-hydroxy-4-quinolone, an additional link between the Las and Rhl circuits. ...
AI-2
(Autoinducer-2)
Vibrio
(V. cholerae O1 biovar El Tor str. N16961)
AI-2 is produced and detected by a wide variety of bacteria and is presumed to facilitate interspecies communications. ...
CAI-1
(Cholerae autoinducer-1)
Vibrio
(V. cholerae O1 biovar El Tor str. N16961)
CAI-1 is produced by several Vibrio species, which suggests that it functions as an intragenus signal. CAI-1 has a much more marked influence on target gene expression than AI-2 and is therefore the major quorum-sensing signal in V. cholerae. ...
Quorom sensing
(Autoinducer-receptor mechanism)
Acinetobacter
(A. baumannii AB0057)
AbaI protein belongs to LuxI autoinducer synthases family. The consensus pattern of the said family is [LMFYA]-R-x(3)- F-x(2)-W-x-[LIVM]-x(6,9)-E-x-D-x-[FY]-D. AbaR belongs to LuxR family, interacting with the AHL molecule and further controls the gene expression of AbaI. ...
Quorom sensing
(Autoinducer-receptor mechanism)
Acinetobacter
(A. baumannii AB307-0294)
AbaI protein belongs to LuxI autoinducer synthases family. The consensus pattern of the said family is [LMFYA]-R-x(3)- F-x(2)-W-x-[LIVM]-x(6,9)-E-x-D-x-[FY]-D. AbaR belongs to LuxR family, interacting with the AHL molecule and further controls the gene expression of AbaI. ...
Quorom sensing
(Autoinducer-receptor mechanism)
Acinetobacter
(A. baumannii ATCC 17978)
AbaI protein belongs to LuxI autoinducer synthases family. The consensus pattern of the said family is [LMFYA]-R-x(3)- F-x(2)-W-x-[LIVM]-x(6,9)-E-x-D-x-[FY]-D. AbaR belongs to LuxR family, interacting with the AHL molecule and further controls the gene expression of AbaI. ...
Quorom sensing
(Autoinducer-receptor mechanism)
Acinetobacter
(A. baumannii AYE)
AbaI protein belongs to LuxI autoinducer synthases family. The consensus pattern of the said family is [LMFYA]-R-x(3)- F-x(2)-W-x-[LIVM]-x(6,9)-E-x-D-x-[FY]-D. AbaR belongs to LuxR family, interacting with the AHL molecule and further controls the gene expression of AbaI. ...
   


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