Difference between revisions of "YJL159W"

Latest revision as of 07:45, 23 January 2012

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Systematic name	YJL159W
Gene name	HSP150
Aliases	CCW7, ORE1, PIR2
Feature type	ORF, Verified
Coordinates	Chr X:120449..121690
Primary SGDID	S000003695

Description of YJL159W: O-mannosylated heat shock protein that is secreted and covalently attached to the cell wall via beta-1,3-glucan and disulfide bridges; required for cell wall stability; induced by heat shock, oxidative stress, and nitrogen limitation^[1]^[2]^[3]^[4]^[5]^[6]^[7]

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References

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↑ Ezaki B, et al. (1998) Protective roles of two aluminum (Al)-induced genes, HSP150 and SED1 of Saccharomyces cerevisiae, in Al and oxidative stresses. FEMS Microbiol Lett 159(1):99-105 SGD PMID 9485599
↑ Kapteyn JC, et al. (1999) The contribution of the O-glycosylated protein Pir2p/Hsp150 to the construction of the yeast cell wall in wild-type cells and beta 1,6-glucan-deficient mutants. Mol Microbiol 31(6):1835-44 SGD PMID 10209754
↑ Moukadiri I and Zueco J (2001) Evidence for the attachment of Hsp150/Pir2 to the cell wall of Saccharomyces cerevisiae through disulfide bridges. FEMS Yeast Res 1(3):241-5 SGD PMID 12702350
↑ Mrsa V and Tanner W (1999) Role of NaOH-extractable cell wall proteins Ccw5p, Ccw6p, Ccw7p and Ccw8p (members of the Pir protein family) in stability of the Saccharomyces cerevisiae cell wall. Yeast 15(10A):813-20 SGD PMID 10407261
↑ Russo P, et al. (1992) A heat shock gene from Saccharomyces cerevisiae encoding a secretory glycoprotein. Proc Natl Acad Sci U S A 89(9):3671-5 SGD PMID 1570286
↑ Russo P, et al. (1993) Dual regulation by heat and nutrient stress of the yeast HSP150 gene encoding a secretory glycoprotein. Mol Gen Genet 239(1-2):273-80 SGD PMID 8510655
↑ Toh-e A, et al. (1993) Three yeast genes, PIR1, PIR2 and PIR3, containing internal tandem repeats, are related to each other, and PIR1 and PIR2 are required for tolerance to heat shock. Yeast 9(5):481-94 SGD PMID 8322511

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[S000042940-1] Ezaki B, et al. (1998) Protective roles of two aluminum (Al)-induced genes, HSP150 and SED1 of Saccharomyces cerevisiae, in Al and oxidative stresses. FEMS Microbiol Lett 159(1):99-105 SGD PMID 9485599

[S000051733-2] Kapteyn JC, et al. (1999) The contribution of the O-glycosylated protein Pir2p/Hsp150 to the construction of the yeast cell wall in wild-type cells and beta 1,6-glucan-deficient mutants. Mol Microbiol 31(6):1835-44 SGD PMID 10209754

[S000073012-3] Moukadiri I and Zueco J (2001) Evidence for the attachment of Hsp150/Pir2 to the cell wall of Saccharomyces cerevisiae through disulfide bridges. FEMS Yeast Res 1(3):241-5 SGD PMID 12702350

[S000039809-4] Mrsa V and Tanner W (1999) Role of NaOH-extractable cell wall proteins Ccw5p, Ccw6p, Ccw7p and Ccw8p (members of the Pir protein family) in stability of the Saccharomyces cerevisiae cell wall. Yeast 15(10A):813-20 SGD PMID 10407261

[S000055813-5] Russo P, et al. (1992) A heat shock gene from Saccharomyces cerevisiae encoding a secretory glycoprotein. Proc Natl Acad Sci U S A 89(9):3671-5 SGD PMID 1570286

[S000043817-6] Russo P, et al. (1993) Dual regulation by heat and nutrient stress of the yeast HSP150 gene encoding a secretory glycoprotein. Mol Gen Genet 239(1-2):273-80 SGD PMID 8510655

[S000056103-7] Toh-e A, et al. (1993) Three yeast genes, PIR1, PIR2 and PIR3, containing internal tandem repeats, are related to each other, and PIR1 and PIR2 are required for tolerance to heat shock. Yeast 9(5):481-94 SGD PMID 8322511

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 |-
-|valign="top" nowrap bgcolor="{{SGDblue}}"| '''Systematic name''' || [http://db.yeastgenome.org/cgi-bin/locus.pl?locus=YJL159W YJL159W]
+|valign="top" nowrap bgcolor="{{SGDblue}}"| '''Systematic name''' || [http://www.yeastgenome.org/cgi-bin/locus.pl?dbid=S000003695 YJL159W]
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 |valign="top" nowrap bgcolor="{{SGDblue}}"| '''Gene name'''         ||''HSP150 ''
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 |valign="top" nowrap bgcolor="{{SGDblue}}"| '''Coordinates'''
-|nowrap| Chr X:120445..121686
+|nowrap| Chr X:120449..121690
 |-
-|colspan = '3'|{{Don'tEditThisBox}}
+|valign="top" nowrap bgcolor="{{SGDblue}}"| '''Primary SGDID'''           || S000003695
 |}
 <br>
-'''Description of {{PAGENAME}}:''' O-mannosylated heat shock protein that is secreted and covalently attached to the cell wall via beta-1,3-glucan and disulfide bridges; required for cell wall stability; induced by heat shock, oxidative stress, and nitrogen limitation<ref name='S000073012'>Moukadiri I and Zueco J (2001) Evidence for the attachment of Hsp150/Pir2 to the cell wall of Saccharomyces cerevisiae through disulfide bridges. FEMS Yeast Res 1(3):241-5 {{SGDpaper|S000073012}} PMID 12702350</ref><ref name='S000056103'>Toh-e A, et al. (1993) Three yeast genes, PIR1, PIR2 and PIR3, containing internal tandem repeats, are related to each other, and PIR1 and PIR2 are required for tolerance to heat shock. Yeast 9(5):481-94 {{SGDpaper|S000056103}} PMID 8322511</ref><ref name='S000055813'>Russo P, et al. (1992) A heat shock gene from Saccharomyces cerevisiae encoding a secretory glycoprotein. Proc Natl Acad Sci U S A 89(9):3671-5 {{SGDpaper|S000055813}} PMID 1570286</ref><ref name='S000051733'>Kapteyn JC, et al. (1999) The contribution of the O-glycosylated protein Pir2p/Hsp150 to the construction of the yeast cell wall in wild-type cells and beta 1,6-glucan-deficient mutants. Mol Microbiol 31(6):1835-44 {{SGDpaper|S000051733}} PMID 10209754</ref><ref name='S000043817'>Russo P, et al. (1993) Dual regulation by heat and nutrient stress of the yeast HSP150 gene encoding a secretory glycoprotein. Mol Gen Genet 239(1-2):273-80 {{SGDpaper|S000043817}} PMID 8510655</ref><ref name='S000042940'>Ezaki B, et al. (1998) Protective roles of two aluminum (Al)-induced genes, HSP150 and SED1 of Saccharomyces cerevisiae, in Al and oxidative stresses. FEMS Microbiol Lett 159(1):99-105 {{SGDpaper|S000042940}} PMID 9485599</ref><ref name='S000039809'>Mrsa V and Tanner W (1999) Role of NaOH-extractable cell wall proteins Ccw5p, Ccw6p, Ccw7p and Ccw8p (members of the Pir protein family) in stability of the Saccharomyces cerevisiae cell wall. Yeast 15(10A):813-20
+'''Description of YJL159W:''' O-mannosylated heat shock protein that is secreted and covalently attached to the cell wall via beta-1,3-glucan and disulfide bridges; required for cell wall stability; induced by heat shock, oxidative stress, and nitrogen limitation<ref name='S000042940'>Ezaki B, et al. (1998) Protective roles of two aluminum (Al)-induced genes, HSP150 and SED1 of Saccharomyces cerevisiae, in Al and oxidative stresses. FEMS Microbiol Lett 159(1):99-105 {{SGDpaper|S000042940}} PMID 9485599</ref><ref name='S000051733'>Kapteyn JC, et al. (1999) The contribution of the O-glycosylated protein Pir2p/Hsp150 to the construction of the yeast cell wall in wild-type cells and beta 1,6-glucan-deficient mutants. Mol Microbiol 31(6):1835-44 {{SGDpaper|S000051733}} PMID 10209754</ref><ref name='S000073012'>Moukadiri I and Zueco J (2001) Evidence for the attachment of Hsp150/Pir2 to the cell wall of Saccharomyces cerevisiae through disulfide bridges. FEMS Yeast Res 1(3):241-5 {{SGDpaper|S000073012}} PMID 12702350</ref><ref name='S000039809'>Mrsa V and Tanner W (1999) Role of NaOH-extractable cell wall proteins Ccw5p, Ccw6p, Ccw7p and Ccw8p (members of the Pir protein family) in stability of the Saccharomyces cerevisiae cell wall. Yeast 15(10A):813-20 {{SGDpaper|S000039809}} PMID 10407261</ref><ref name='S000055813'>Russo P, et al. (1992) A heat shock gene from Saccharomyces cerevisiae encoding a secretory glycoprotein. Proc Natl Acad Sci U S A 89(9):3671-5 {{SGDpaper|S000055813}} PMID 1570286</ref><ref name='S000043817'>Russo P, et al. (1993) Dual regulation by heat and nutrient stress of the yeast HSP150 gene encoding a secretory glycoprotein. Mol Gen Genet 239(1-2):273-80 {{SGDpaper|S000043817}} PMID 8510655</ref><ref name='S000056103'>Toh-e A, et al. (1993) Three yeast genes, PIR1, PIR2 and PIR3, containing internal tandem repeats, are related to each other, and PIR1 and PIR2 are required for tolerance to heat shock. Yeast 9(5):481-94
-  {{SGDpaper|S000039809}} PMID 10407261</ref>
+  {{SGDpaper|S000056103}} PMID 8322511</ref>
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+<br>
+</protect>
 __TOC__
 ==Community Commentary==
 {{CommentaryHelp}}
+<!-- PLEASE ADD Community Commentary ABOVE THIS MESSAGE. See below for an example of community annotation -->
+<!--
+Specifically higher expression in carbon limited chemostat cultures versus carbon excess.
+<ref>Boer VM, et al. (2003) The genome-wide transcriptional responses of Saccharomyces cerevisiae grown on glucose in aerobic chemostat cultures limited for carbon, nitrogen, phosphorus, or sulfur.
+J Biol Chem 278(5):3265-74</ref>
+-->
+<protect>
 ==References==
 <!-- REFERENCES ARE AUTOMATICALLY GENERATED.  PLEASE DON'T EDIT THIS SECTION-->
 {{RefHelp}}
+</protect>

Difference between revisions of "YJL159W"

Latest revision as of 07:45, 23 January 2012

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