메뉴 건너뛰기
Yeast
Volumn 28, Issue 1, 2011, Pages 9-17
Slt2 MAPK pathway is essential for cell integrity in the presence of arsenate
Author keywords

Arsenate; Hog1; Saccharomyces cerevisiae; Slt2
Indexed keywords

ARSENIC ACID; MITOGEN ACTIVATED PROTEIN KINASE; MITOGEN ACTIVATED PROTEIN KINASE SLT2; UNCLASSIFIED DRUG;
EID: 78650481648     PISSN: 0749503X     EISSN: 10970061     Source Type: Journal    
DOI: 10.1002/yea.1816     Document Type: Article
Times cited : (15)
References (27)
  • 1
    • 0033163427 scopus 로고    scopus 로고
    • Arsenic: health effects, mechanisms of actions, and research issues
    • Abernathy CO, Liu YP, Longfellow D, et al. 1999. Arsenic: health effects, mechanisms of actions, and research issues. Environ Health Perspect 107: 593-597.
    • (1999) Environ Health Perspect , vol.107 , pp. 593-597
    • Abernathy, C.O.1    Liu, Y.P.2    Longfellow, D.3
  • 2
    • 0034948896 scopus 로고    scopus 로고
    • A Bayesian framework for the analysis of microarray expression data: regularized t -test and statistical inferences of gene changes
    • Baldi P, Long AD. 2001. A Bayesian framework for the analysis of microarray expression data: regularized t -test and statistical inferences of gene changes. Bioinformatics 17: 509-519.
    • (2001) Bioinformatics , vol.17 , pp. 509-519
    • Baldi, P.1    Long, A.D.2
  • 3
    • 41649095307 scopus 로고    scopus 로고
    • The sequential activation of the yeast HOG and SLT2 pathways is required for cell survival to cell wall stress
    • Bermejo C, Rodriguez E, Garcia R, et al. 2008. The sequential activation of the yeast HOG and SLT2 pathways is required for cell survival to cell wall stress. Mol Biol Cell 19: 1113-1124.
    • (2008) Mol Biol Cell , vol.19 , pp. 1113-1124
    • Bermejo, C.1    Rodriguez, E.2    Garcia, R.3
  • 4
    • 0029858594 scopus 로고    scopus 로고
    • The tumor promoter arsenite stimulates AP-1 activity by inhibiting a JNK phosphatase
    • Cavigelli M, Li WW, Lin A, Su B, Yoshioka K, Karin M. 1996. The tumor promoter arsenite stimulates AP-1 activity by inhibiting a JNK phosphatase. Embo J 15: 6269-6279.
    • (1996) Embo J , vol.15 , pp. 6269-6279
    • Cavigelli, M.1    Li, W.W.2    Lin, A.3    Su, B.4    Yoshioka, K.5    Karin, M.6
  • 5
    • 0030988939 scopus 로고    scopus 로고
    • The Saccharomyces cerevisiae MADS-box transcription factor Rlm1 is a target for the Mpk1 mitogen-activated protein kinase pathway
    • Dodou E, Treisman R. 1997. The Saccharomyces cerevisiae MADS-box transcription factor Rlm1 is a target for the Mpk1 mitogen-activated protein kinase pathway. Mol Cell Biol 17: 1848-1859.
    • (1997) Mol Cell Biol , vol.17 , pp. 1848-1859
    • Dodou, E.1    Treisman, R.2
  • 6
    • 2442477661 scopus 로고    scopus 로고
    • The global transcriptional response to transient cell wall damage in Saccharomyces cerevisiae and its regulation by the cell integrity signaling pathway
    • Garcia R, Bermejo C, Grau C, et al. 2004. The global transcriptional response to transient cell wall damage in Saccharomyces cerevisiae and its regulation by the cell integrity signaling pathway. J Biol Chem 279: 15183-15195.
    • (2004) J Biol Chem , vol.279 , pp. 15183-15195
    • Garcia, R.1    Bermejo, C.2    Grau, C.3
  • 7
    • 67449102906 scopus 로고    scopus 로고
    • The high osmotic response and cell wall integrity pathways cooperate to regulate transcriptional responses to Zymolyase-induced cell wall stress in Saccharomyces cerevisiae
    • Garcia R, Rodriguez-Pena JM, Bermejo C, Nombela C, Arroyo J. 2009. The high osmotic response and cell wall integrity pathways cooperate to regulate transcriptional responses to Zymolyase-induced cell wall stress in Saccharomyces cerevisiae. J Biol Chem 284: 10901-11011.
    • (2009) J Biol Chem , vol.284 , pp. 10901-11011
    • Garcia, R.1    Rodriguez-Pena, J.M.2    Bermejo, C.3    Nombela, C.4    Arroyo, J.5
  • 8
    • 0032910168 scopus 로고    scopus 로고
    • Organization and regulation of mitogen-activated protein kinase signaling pathways
    • Garrington TP, Johnson GL. 1999. Organization and regulation of mitogen-activated protein kinase signaling pathways. Curr Opin Cell Biol 11: 211-218.
    • (1999) Curr Opin Cell Biol , vol.11 , pp. 211-218
    • Garrington, T.P.1    Johnson, G.L.2
  • 10
    • 0027192944 scopus 로고
    • MKK1 and MKK2, which encode Saccharomyces cerevisiae mitogen-activated protein kinase-kinase homologs, function in the pathway mediated by protein kinase C
    • Irie K, Takase M, Lee KS, et al. 1993. MKK1 and MKK2, which encode Saccharomyces cerevisiae mitogen-activated protein kinase-kinase homologs, function in the pathway mediated by protein kinase C. Mol Cell Biol 13: 3076-3083.
    • (1993) Mol Cell Biol , vol.13 , pp. 3076-3083
    • Irie, K.1    Takase, M.2    Lee, K.S.3
  • 11
    • 35748976575 scopus 로고    scopus 로고
    • Retrophosphorylation of Mkk1 and Mkk2 MAPKKs by the Slt2 MAPK in the yeast cell integrity pathway
    • Jimenez-Sanchez M, Cid VJ, Molina M. 2007. Retrophosphorylation of Mkk1 and Mkk2 MAPKKs by the Slt2 MAPK in the yeast cell integrity pathway. J Biol Chem 282: 31174-31185.
    • (2007) J Biol Chem , vol.282 , pp. 31174-31185
    • Jimenez-Sanchez, M.1    Cid, V.J.2    Molina, M.3
  • 12
    • 0033452784 scopus 로고    scopus 로고
    • Genome-wide analysis of gene expression regulated by the yeast cell wall integrity signalling pathway
    • Jung US, Levin DE. 1999. Genome-wide analysis of gene expression regulated by the yeast cell wall integrity signalling pathway. Mol Microbiol 34: 1049-1057.
    • (1999) Mol Microbiol , vol.34 , pp. 1049-1057
    • Jung, U.S.1    Levin, D.E.2
  • 13
    • 0036440853 scopus 로고    scopus 로고
    • Regulation of the yeast Rlm1 transcription factor by the Mpk1 cell wall integrity MAP kinase
    • Jung US, Sobering AK, Romeo MJ, Levin DE. 2002. Regulation of the yeast Rlm1 transcription factor by the Mpk1 cell wall integrity MAP kinase. Mol Microbiol 46: 781-789.
    • (2002) Mol Microbiol , vol.46 , pp. 781-789
    • Jung, U.S.1    Sobering, A.K.2    Romeo, M.J.3    Levin, D.E.4
  • 14
    • 20544432791 scopus 로고    scopus 로고
    • Cell wall integrity signaling in Saccharomyces cerevisiae
    • Levin DE. 2005. Cell wall integrity signaling in Saccharomyces cerevisiae. Microbiol Mol Biol Rev 69: 262-291.
    • (2005) Microbiol Mol Biol Rev , vol.69 , pp. 262-291
    • Levin, D.E.1
  • 15
    • 9144229663 scopus 로고    scopus 로고
    • Whole-genome microarrays of fission yeast: characteristics, accuracy, reproducibility, and processing of array data
    • Lyne R, Burns G, Mata J, et al. 2003. Whole-genome microarrays of fission yeast: characteristics, accuracy, reproducibility, and processing of array data. BMC Genomics 4: 27.
    • (2003) BMC Genomics , vol.4 , pp. 27
    • Lyne, R.1    Burns, G.2    Mata, J.3
  • 16
    • 0027433380 scopus 로고
    • Activity of the yeast MAP kinase homologue Slt2 is critically required for cell integrity at 37 degrees C
    • Martin H, Arroyo J, Sanchez M, Molina M, Nombela C. 1993. Activity of the yeast MAP kinase homologue Slt2 is critically required for cell integrity at 37 degrees C. Mol Gen Genet 241: 177-184.
    • (1993) Mol Gen Genet , vol.241 , pp. 177-184
    • Martin, H.1    Arroyo, J.2    Sanchez, M.3    Molina, M.4    Nombela, C.5
  • 17
    • 23844453642 scopus 로고    scopus 로고
    • Distinct signaling pathways respond to arsenite and reactive oxygen species in Schizosaccharomyces pombe
    • Rodríguez-Gabriel MA, Russell P. 2005. Distinct signaling pathways respond to arsenite and reactive oxygen species in Schizosaccharomyces pombe. Eukaryot Cell 4: 1396-1402.
    • (2005) Eukaryot Cell , vol.4 , pp. 1396-1402
    • Rodríguez-Gabriel, M.A.1    Russell, P.2
  • 18
    • 0003529272 scopus 로고
    • Methods in Yeast Genetics. A Laboratory Course Manual
    • Cold Spring Harbor Laboratory Press: Cold Spring Harbor, NY.
    • Rose M, Winston F, Hieter P. 1990. Methods in Yeast Genetics. A Laboratory Course Manual. Cold Spring Harbor Laboratory Press: Cold Spring Harbor, NY.
    • (1990)
    • Rose, M.1    Winston, F.2    Hieter, P.3
  • 19
    • 0037010116 scopus 로고    scopus 로고
    • Biochemistry of arsenic detoxification
    • Rosen BP. 2002. Biochemistry of arsenic detoxification. FEBS Lett 529: 86-92.
    • (2002) FEBS Lett , vol.529 , pp. 86-92
    • Rosen, B.P.1
  • 20
    • 33750290326 scopus 로고    scopus 로고
    • Mitogen-activated protein kinase Hog1 is essential for the response to arsenite in Saccharomyces cerevisiae
    • Sotelo J, Rodríguez-Gabriel MA. 2006. Mitogen-activated protein kinase Hog1 is essential for the response to arsenite in Saccharomyces cerevisiae. Eukaryot Cell 5: 1826-1830.
    • (2006) Eukaryot Cell , vol.5 , pp. 1826-1830
    • Sotelo, J.1    Rodríguez-Gabriel, M.A.2
  • 21
    • 0034872037 scopus 로고    scopus 로고
    • Mechanisms involved in metalloid transport and tolerance acquisition
    • Tamas MJ, Wysocki R. 2001. Mechanisms involved in metalloid transport and tolerance acquisition. Curr Genet 40: 2-12.
    • (2001) Curr Genet , vol.40 , pp. 2-12
    • Tamas, M.J.1    Wysocki, R.2
  • 22
    • 33749500678 scopus 로고    scopus 로고
    • The MAPK Hog1p modulates Fps1p-dependent arsenite uptake and tolerance in yeast
    • Thorsen M, Di Y, Tangemo C, et al. 2006. The MAPK Hog1p modulates Fps1p-dependent arsenite uptake and tolerance in yeast. Mol Biol Cell 17: 4400-4410.
    • (2006) Mol Biol Cell , vol.17 , pp. 4400-4410
    • Thorsen, M.1    Di, Y.2    Tangemo, C.3
  • 23
    • 34447279050 scopus 로고    scopus 로고
    • Quantitative transcriptome, proteome, and sulfur metabolite profiling of the Saccharomyces cerevisiae response to arsenite
    • Thorsen M, Lagniel G, Kristiansson E, et al. 2007. Quantitative transcriptome, proteome, and sulfur metabolite profiling of the Saccharomyces cerevisiae response to arsenite. Physiol Genom 30: 35-43.
    • (2007) Physiol Genom , vol.30 , pp. 35-43
    • Thorsen, M.1    Lagniel, G.2    Kristiansson, E.3
  • 24
    • 63049131900 scopus 로고    scopus 로고
    • Genetic basis of arsenite and cadmium tolerance in Saccharomyces cerevisiae
    • Thorsen M, Perrone GG, Kristiansson E, et al. 2009. Genetic basis of arsenite and cadmium tolerance in Saccharomyces cerevisiae. BMC Genom 10: 105.
    • (2009) BMC Genom , vol.10 , pp. 105
    • Thorsen, M.1    Perrone, G.G.2    Kristiansson, E.3
  • 25
    • 0030840519 scopus 로고    scopus 로고
    • Heterologous HIS3 marker and GFP reporter modules for PCR-targeting in Saccharomyces cerevisiae
    • Wach A, Brachat A, Alberti-Segui C, Rebischung C, Philippsen P. 1997. Heterologous HIS3 marker and GFP reporter modules for PCR-targeting in Saccharomyces cerevisiae. Yeast 13: 1065-1075.
    • (1997) Yeast , vol.13 , pp. 1065-1075
    • Wach, A.1    Brachat, A.2    Alberti-Segui, C.3    Rebischung, C.4    Philippsen, P.5
  • 26
    • 0029092609 scopus 로고
    • Yeast RLM1 encodes a serum response factor-like protein that may function downstream of the Mpk1 (Slt2) mitogen-activated protein kinase pathway
    • Watanabe Y, Irie K, Matsumoto K. 1995. Yeast RLM1 encodes a serum response factor-like protein that may function downstream of the Mpk1 (Slt2) mitogen-activated protein kinase pathway. Mol Cell Biol 15: 5740-5749.
    • (1995) Mol Cell Biol , vol.15 , pp. 5740-5749
    • Watanabe, Y.1    Irie, K.2    Matsumoto, K.3
  • 27
    • 2342479179 scopus 로고    scopus 로고
    • Transcriptional activation of metalloid tolerance genes in Saccharomyces cerevisiae requires the AP-1-like proteins Yap1p and Yap8p
    • Wysocki R, Fortier PK, Maciaszczyk E, et al. 2004. Transcriptional activation of metalloid tolerance genes in Saccharomyces cerevisiae requires the AP-1-like proteins Yap1p and Yap8p. Mol Biol Cell 15: 2049-2060.
    • (2004) Mol Biol Cell , vol.15 , pp. 2049-2060
    • Wysocki, R.1    Fortier, P.K.2    Maciaszczyk, E.3

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.