Pkc1 and the upstream elements of the cell integrity pathway in Saccharomyces cerevisiae, Rom2 and Mtl1, are required for cellular responses to oxidative stress.
about
Cell wall assembly in Saccharomyces cerevisiaeModifying Yeast Tolerance to Inhibitory Conditions of Ethanol Production ProcessesProgrammed Cell Death Initiation and Execution in Budding YeastCell wall integrity MAPK pathway is essential for lipid homeostasis.Gex1 is a yeast glutathione exchanger that interferes with pH and redox homeostasis.Slt2p phosphorylation induces cyclin C nuclear-to-cytoplasmic translocation in response to oxidative stressGlutaredoxins Grx4 and Grx3 of Saccharomyces cerevisiae play a role in actin dynamics through their Trx domains, which contributes to oxidative stress resistance.The yeast Snt2 protein coordinates the transcriptional response to hydrogen peroxide-mediated oxidative stress.Mtl1 is required to activate general stress response through Tor1 and Ras2 inhibition under conditions of glucose starvation and oxidative stressThe Rgd1p Rho GTPase-activating protein and the Mid2p cell wall sensor are required at low pH for protein kinase C pathway activation and cell survival in Saccharomyces cerevisiaeCellular functions of cardiolipin in yeastDiverse protective roles of the actin cytoskeleton during oxidative stressCell periphery-related proteins as major genomic targets behind the adaptive evolution of an industrial Saccharomyces cerevisiae strain to combined heat and hydrolysate stressPkc1 acts through Zds1 and Gic1 to suppress growth and cell polarity defects of a yeast eIF5A mutantDosage rescue by UBC4 restores cell wall integrity in Saccharomyces cerevisiae lacking the myosin type II gene MYO1.Disruption of iron homeostasis in Saccharomyces cerevisiae by high zinc levels: a genome-wide study.The resistance of the yeast Saccharomyces cerevisiae to the biocide polyhexamethylene biguanide: involvement of cell wall integrity pathway and emerging role for YAP1Transcriptome of Saccharomyces cerevisiae during production of D-xylonate.Functional and genetic interactions of TOR in the budding yeast Saccharomyces cerevisiae with myosin type II-deficiency (myo1Δ).Quercetin protects Saccharomyces cerevisiae against oxidative stress by inducing trehalose biosynthesis and the cell wall integrity pathwayPosttranslational, translational, and transcriptional responses to nitric oxide stress in Cryptococcus neoformans: implications for virulenceTOR complex 2-Ypk1 signaling regulates actin polarization via reactive oxygen species.Regulation of the oxidative stress response through Slt2p-dependent destruction of cyclin C in Saccharomyces cerevisiaeThe Rho1 GTPase acts together with a vacuolar glutathione S-conjugate transporter to protect yeast cells from oxidative stressSVF1 regulates cell survival by affecting sphingolipid metabolism in Saccharomyces cerevisiae.Regulation of cell wall biogenesis in Saccharomyces cerevisiae: the cell wall integrity signaling pathway.Environmental sensing and signal transduction pathways regulating morphopathogenic determinants of Candida albicans.Kinase Screening in Pichia pastoris Identified Promising Targets Involved in Cell Growth and Alcohol Oxidase 1 Promoter (PAOX1) Regulation.RNA preparation of Saccharomyces cerevisiae using the digestion method may give misleading results.The MAPKKKs Ste11 and Bck1 jointly transduce the high oxidative stress signal through the cell wall integrity MAP kinase pathwayCryptococcus neoformans, a fungus under stressPKC1 is essential for protection against both oxidative and nitrosative stresses, cell integrity, and normal manifestation of virulence factors in the pathogenic fungus Cryptococcus neoformans.The cell wall sensors Mtl1, Wsc1, and Mid2 are required for stress-induced nuclear to cytoplasmic translocation of cyclin C and programmed cell death in yeast.The fission yeast cell wall stress sensor-like proteins Mtl2 and Wsc1 act by turning on the GTPase Rho1p but act independently of the cell wall integrity pathwayCellular mechanisms contributing to multiple stress tolerance in Saccharomyces cerevisiae strains with potential use in high-temperature ethanol fermentation.Our paths might cross: the role of the fungal cell wall integrity pathway in stress response and cross talk with other stress response pathways.Cellular Homeostasis and Antioxidant Response in Epithelial HT29 Cells on Titania Nanotube Arrays Surface.Is there anyone out there?--Single-molecule atomic force microscopy meets yeast genetics to study sensor functions.Dissection of the HOG pathway activated by hydrogen peroxide in Saccharomyces cerevisiae.Sugar and Glycerol Transport in Saccharomyces cerevisiae.
P2860
Q24549234-BA99DD44-F515-48CB-92C6-BF77E00D22C4Q26776008-05BAA386-8465-412F-AE33-A7091E92713DQ26798409-859C52E0-18A1-4E66-AB4C-8EF6F37E179CQ27930106-AB81AE0C-B816-47F6-9B5E-4CB11055C070Q27933362-251EFFCB-C430-42C7-A3E7-CD169D18AB88Q27934507-0A68F6AD-D603-422D-A171-D1574B037F63Q27936690-5A8ACAF2-6CB3-43E3-9A56-D1781E9BF093Q27936820-661A7D33-0B15-4C53-B534-2F5941CA64C9Q27939306-825DB30B-CF33-49C0-8C89-9F62499C8F35Q27940031-8B43D15E-BD79-4B2D-9059-E3FF3AD2F465Q28392417-74A9D3DE-70D5-4A5E-9737-AC3B0D012A15Q30502501-1705645C-9786-4FCD-B77E-E066798B93F0Q30657240-74340E79-CE87-4898-93C7-DD05E42CCEC8Q33223205-4AE9B893-4A9E-469E-B349-AD12A53DFE82Q33280619-1AA30502-0A10-419D-97F2-DCE04061DE57Q33290842-A9B65CC7-3A4D-494E-8C55-BDB1EB883978Q33997727-A4DF420C-4D7D-4DC2-B475-B6A007AF7905Q34250720-324ECBF5-7A94-4218-9F47-E891F7048E87Q34285981-6EDAB53B-DCA5-435D-8BF6-D055622757E3Q34429215-6F1E446E-9E50-44E7-920F-C39DE1D29E90Q34442098-8092C818-969C-44A4-A4BB-DEAE85319502Q34572273-65C002FE-5168-4F61-B708-AE72EDF7BA4EQ34588127-FC69CFF9-5F8D-46B1-A580-5E388DE1CB77Q35221468-5B8042DB-8E5D-4BF6-8BEF-779DE327776AQ35598506-62AD16E3-3C8A-468B-8B06-A70EE37084A6Q35620450-A8D1C33A-C922-4C3B-B329-06EFF21A7F5BQ35856686-C23419CB-DC7A-4DDF-95E0-4E909C819626Q36218020-41280A02-ACEB-4869-A2D5-852D95783D14Q36670643-827FC425-103A-4DA0-8CC3-EF0F82E88F0DQ36851524-87432CF6-ECE2-47BF-8BDE-4EFDBCD8CA9AQ36914008-036DDE60-1B92-41C9-AAB0-225710CF3BBCQ36939013-6D369CD6-3CF6-4CDD-82E2-4C93C216F38DQ37292289-BB98C42B-302B-4BC9-BFB9-3DD1ECFE77F1Q37318693-E8E952AA-0E87-45F6-93D9-AD2633ABCF5DQ37402148-74AEF859-2082-4525-BFEF-EE65FF45BF3AQ37410110-9DB1FA07-B4CD-40BD-B5F4-F36B4F64EB9BQ37700003-B1282903-90FE-4062-B391-6F7EF8FA9E80Q37774589-FA14462C-9256-4B88-8A31-ACD8E96F20C7Q38411339-C7001FA6-EBC4-4E75-B494-F5474BEDB0E4Q38684261-73BA1C58-2814-4078-86BE-7F5964DC190F
P2860
Pkc1 and the upstream elements of the cell integrity pathway in Saccharomyces cerevisiae, Rom2 and Mtl1, are required for cellular responses to oxidative stress.
description
2005 nî lūn-bûn
@nan
2005 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մարտին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Pkc1 and the upstream elements ...... responses to oxidative stress.
@ast
Pkc1 and the upstream elements ...... responses to oxidative stress.
@en
Pkc1 and the upstream elements ...... responses to oxidative stress.
@nl
type
label
Pkc1 and the upstream elements ...... responses to oxidative stress.
@ast
Pkc1 and the upstream elements ...... responses to oxidative stress.
@en
Pkc1 and the upstream elements ...... responses to oxidative stress.
@nl
prefLabel
Pkc1 and the upstream elements ...... responses to oxidative stress.
@ast
Pkc1 and the upstream elements ...... responses to oxidative stress.
@en
Pkc1 and the upstream elements ...... responses to oxidative stress.
@nl
P2093
P356
P1476
Pkc1 and the upstream elements ...... responses to oxidative stress.
@en
P2093
Enrique Herrero
Felipe Vilella
Jordi Torres
Maria Angeles de la Torre-Ruiz
P304
P356
10.1074/JBC.M411062200
P407
P577
2005-03-11T00:00:00Z