Dr Jan S Fassler – Kudos: Growing the influence of research

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Protein aggregation is an important aspect of normal animal development

Article • Molecular Biology of the Cell, June 2020, American Society for Cell Biology (ASCB)

Dr Jan S Fassler
Metabolic and Chaperone Gene Loss Marks the Origin of Animals: Evidence for Hsp104 and Hsp78 Chaperones Sharing Mitochondrial Enzymes as Clients

Article • PLoS ONE, February 2015, PLOS

Dr Jan S Fassler
Histidine Phosphotransfer Proteins in Fungal Two-Component Signal Transduction Pathways

Article • Eukaryotic Cell, June 2013, ASM Journals

Dr Jan S Fassler
Association of the Skn7 and Yap1 Transcription Factors in the Saccharomyces cerevisiae Oxidative Stress Response

Article • Eukaryotic Cell, April 2011, ASM Journals

Dr Jan S Fassler
Fungal Skn7 Stress Responses and Their Relationship to Virulence

Article • Eukaryotic Cell, December 2010, ASM Journals

Dr Jan S Fassler
Genetic and Biochemical Analysis of the SLN1 Pathway in Saccharomyces cerevisiae

Article • January 2010, Elsevier

Dr Jan S Fassler
Oxidative Stress Function of the Saccharomyces cerevisiae Skn7 Receiver Domain

Article • Eukaryotic Cell, March 2009, ASM Journals

Dr Jan S Fassler
Modulation of Yeast Sln1 Kinase Activity by the Ccw12 Cell Wall Protein

Article • Journal of Biological Chemistry, November 2007, American Society for Biochemistry & Molecular Biology (ASBMB)

Dr Jan S Fassler
Identification of novel Yap1p and Skn7p binding sites involved in the oxidative stress response of Saccharomyces cerevisiae

Article • Molecular Microbiology, October 2005, Wiley

Dr Jan S Fassler
Role for the Ran Binding Protein, Mog1p, in Saccharomyces cerevisiae SLN1-SKN7 Signal Transduction

Article • Eukaryotic Cell, December 2004, ASM Journals

Dr Jan S Fassler
Saccharomyces cerevisiaeHistidine Phosphotransferase Ypd1p Shuttles between the Nucleus and Cytoplasm forSLN1-Dependent Phosphorylation of Ssk1p and Skn7p

Article • Eukaryotic Cell, December 2003, ASM Journals

Dr Jan S Fassler
A cytoplasmic coiled-coil domain is required for histidine kinase activity of the yeast osmosensor, SLN1

Article • Molecular Microbiology, March 2002, Wiley

Dr Jan S Fassler
Phylogenetic footprinting reveals multiple regulatory elements involved in control of the meiotic recombination gene,REC102

Article • Yeast, January 2002, Wiley

Dr Jan S Fassler
The yeast histidine protein kinase, Sln1p, mediates phosphotransfer to two response regulators, Ssk1p and Skn7p

Article • The EMBO Journal, December 1998, Wiley

Dr Jan S Fassler
Activated Alleles of Yeast SLN1 Increase Mcm1-dependent Reporter Gene Expression and Diminish Signaling through the Hog1 Osmosensing Pathway

Article • Journal of Biological Chemistry, May 1997, American Society for Biochemistry & Molecular Biology (ASBMB)

Dr Jan S Fassler
[1] Promoters and basal transcription machinery in eubacteria and eukaryotes: Concepts, definitions, and analogies

Article • January 1996, Elsevier

Dr Jan S Fassler
Temperature-sensitive Yeast GPI Anchoring Mutants gpi2 and gpi3 Are Defective in the Synthesis of N -Acetylglucosaminyl Phosphatidylinositol.

Article • Journal of Biological Chemistry, June 1995, American Society for Biochemistry & Molecular Biology (ASBMB)

Dr Jan S Fassler
The Essential Transcription Factor, Mcm1, Is a Downstream Target of Sln1, a Yeast "Two-component" Regulator

Article • Journal of Biological Chemistry, April 1995, American Society for Biochemistry & Molecular Biology (ASBMB)

Dr Jan S Fassler
The Saccharomyces cerevisiae SPT14 gene is essential for normal expression of the yeast transposon, Ty, as well as for expression of the HIS4 gene and several genes in the mating pathway

Article • November 1991, Springer Science + Business Media

Dr Jan S Fassler
Reduced superhelicity of plasmid DNA produced by the rho-15 mutation in Escherichia coli

Article • MGG Molecular & General Genetics, September 1986, Springer Science + Business Media

Dr Jan S Fassler