Difference between revisions of "YOL105C"

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==Transmembrane Domain GxxxG  ==
  
 
The transmembrane domain of Wsc3p shows homology with the SKG6/AXL2 alpha-helix transmembrane domain (IPR014805). In particular, this domain begins with GaiaGiviGvvfG. The presence of multiple overlapping GxxxG motifs <ref name='PMID 15313242'> Senes A, Engel DE and DeGrado WF (2004) Folding of helical membrane proteins: the role of polar, GxxxG-like and proline motifs. Curr Opin Struct Biol. 2004 14(4):465-79. PMID 15313242</ref> strongly indicates that Wsc13p multimerises.
 
The transmembrane domain of Wsc3p shows homology with the SKG6/AXL2 alpha-helix transmembrane domain (IPR014805). In particular, this domain begins with GaiaGiviGvvfG. The presence of multiple overlapping GxxxG motifs <ref name='PMID 15313242'> Senes A, Engel DE and DeGrado WF (2004) Folding of helical membrane proteins: the role of polar, GxxxG-like and proline motifs. Curr Opin Struct Biol. 2004 14(4):465-79. PMID 15313242</ref> strongly indicates that Wsc13p multimerises.

Revision as of 08:12, 21 March 2013

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Systematic name YOL105C
Gene name WSC3
Aliases
Feature type ORF, Verified
Coordinates Chr XV:115808..114138
Primary SGDID S000005465


Description of YOL105C: Partially redundant sensor-transducer of the stress-activated PKC1-MPK1 signaling pathway involved in maintenance of cell wall integrity; involved in the response to heat shock and other stressors; regulates 1,3-beta-glucan synthesis[1][2][3][4]




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Transmembrane Domain GxxxG

The transmembrane domain of Wsc3p shows homology with the SKG6/AXL2 alpha-helix transmembrane domain (IPR014805). In particular, this domain begins with GaiaGiviGvvfG. The presence of multiple overlapping GxxxG motifs [5] strongly indicates that Wsc13p multimerises.



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References

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  1. Sekiya-Kawasaki M, et al. (2002) Dissection of upstream regulatory components of the Rho1p effector, 1,3-beta-glucan synthase, in Saccharomyces cerevisiae. Genetics 162(2):663-76 SGD PMID 12399379
  2. Verna J, et al. (1997) A family of genes required for maintenance of cell wall integrity and for the stress response in Saccharomyces cerevisiae. Proc Natl Acad Sci U S A 94(25):13804-9 SGD PMID 9391108
  3. Wojda I, et al. (2003) Response to high osmotic conditions and elevated temperature in Saccharomyces cerevisiae is controlled by intracellular glycerol and involves coordinate activity of MAP kinase pathways. Microbiology 149(Pt 5):1193-204 SGD PMID 12724381
  4. Zu T, et al. (2001) Mutations in WSC genes for putative stress receptors result in sensitivity to multiple stress conditions and impairment of Rlm1-dependent gene expression in Saccharomyces cerevisiae. Mol Genet Genomics 266(1):142-55 SGD PMID 11589572
  5. Senes A, Engel DE and DeGrado WF (2004) Folding of helical membrane proteins: the role of polar, GxxxG-like and proline motifs. Curr Opin Struct Biol. 2004 14(4):465-79. PMID 15313242

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