Joseph Reese

Professor of Biochemistry and Molecular Biology

463A North Frear Laboratory
University Park, PA 16802
jcr8@psu.edu
814-865-1976

Research Summary

Gene regulation in cell cycle and DNA damage control; regulation of DNA damage-induced transcription.

Huck Affiliations

Molecular, Cellular, and Integrative Biosciences

Publication Tags

These publication tags are generated from the output of this researcher. Click any tag below to view other Huck researchers working on the same topic.

Rna Polymerase Ii Nucleosomes Elongation Transcription Dna Rna Stability Messenger Rna Proteins Protein Histones Peptide Elongation Factors Histone Yeasts Gene Expression Ubiquitination Smfret Spectroscopy Forster Resonance Energy Transfer Molecules Nucleic Acids Catabolite Repression Carbon Nutrients Acetylation Chromosome Mapping Repressor Proteins

Most Recent Publications

New roles for elongation factors in RNA polymerase II ubiquitylation and degradation

Joseph C. Reese, 2023, Biochimica et Biophysica Acta - Gene Regulatory Mechanisms

DEF1: Much more than an RNA polymerase degradation factor

Oluwasegun T. Akinniyi, Joseph C. Reese, 2021, DNA Repair

Nucleosome Dynamics during Transcription Elongation

Mai Huynh, Satya Yadav, Joseph C. Reese, Tae Hee Lee, 2020, ACS Chemical Biology on p. 3133-3142

Ccr4–not maintains genomic integrity by controlling the ubiquitylation and degradation of arrested RNAPII

Haoyang Jiang, Marley Wolgast, Laura M. Beebe, Joseph C. Reese, 2019, Genes and Development on p. 705-717

Single-molecule FRET method to investigate the dynamics of transcription elongation through the nucleosome by RNA polymerase II.

J Lee, J Crickard, Joseph Reese, T Lee, 2019, Methods (San Diego, Calif.) on p. 51-58

Biochemical methods to characterize RNA polymerase II elongation complexes

J. Brooks Crickard, Joseph C. Reese, 2019, ImmunoMethods on p. 70-81

Analysis of RNAPII complexes

Joseph C. Reese, 2019, ImmunoMethods on p. 1-3

Single-molecule FRET method to investigate the dynamics of transcription elongation through the nucleosome by RNA polymerase II

Jaehyoun Lee, J. Brooks Crickard, Joseph C. Reese, Tae Hee Lee, 2019, ImmunoMethods on p. 51-58

Regulation of tRNA synthesis and modification in physiological conditions and disease

Magdalena Boguta, Joseph C. Reese, 2018, Biochimica et Biophysica Acta - Gene Regulatory Mechanisms on p. 283-284

Genome-wide mapping of decay factor-mRNA interactions in yeast identifies nutrient-responsive transcripts as targets of the deadenylase Ccr4

Jason E. Miller, Liye Zhang, Haoyang Jiang, Yunfei Li, B. Franklin Pugh, Joseph C. Reese, 2018, G3: Genes, Genomes, Genetics on p. 315-330

Most-Cited Papers

The elongation factor Spt4/5 regulates RNA polymerase II transcription through the nucleosome

John B. Crickard, Jaehyoun Lee, Tae Hee Lee, Joseph C. Reese, 2017, Nucleic Acids Research on p. 6362-6374

Ccr4-Not and TFIIS function cooperatively to rescue arrested RNA polymerase II

Arnob Dutta, Vinod Babbarwal, Jianhua Fu, Deborah Brunke-Reese, Diane M. Libert, Jonathan Willis, Joseph C. Reese, 2015, Molecular and Cellular Biology on p. 1915-1925

Biochemical analysis of yeast suppressor of Ty 4/5 (Spt4/5) reveals the importance of nucleic acid interactions in the prevention of RNA polymerase II arrest

J. Brooks Crickard, Jianhua Fu, Joseph C. Reese, 2016, Journal of Biological Chemistry on p. 9853-9870

The Rpb4/7 module of RNA polymerase II is required for carbon catabolite repressor protein 4-negative on TATA (Ccr4-Not) complex to promote elongation

Vinod Babbarwal, Jianhua Fu, Joseph C. Reese, 2014, Journal of Biological Chemistry on p. 33125-33130

A highly conserved region within H2B is important for FACT to act on nucleosomes

Suting Zheng, J. Brooks Crickard, Abhinaya Srikanth, Joseph C. Reese, 2014, Molecular and Cellular Biology on p. 303-314

Genome-wide mapping of decay factor-mRNA interactions in yeast identifies nutrient-responsive transcripts as targets of the deadenylase Ccr4

Jason E. Miller, Liye Zhang, Haoyang Jiang, Yunfei Li, B. Franklin Pugh, Joseph C. Reese, 2018, G3: Genes, Genomes, Genetics on p. 315-330

Ccr4–not maintains genomic integrity by controlling the ubiquitylation and degradation of arrested RNAPII

Haoyang Jiang, Marley Wolgast, Laura M. Beebe, Joseph C. Reese, 2019, Genes and Development on p. 705-717

Single-molecule FRET method to investigate the dynamics of transcription elongation through the nucleosome by RNA polymerase II

Jaehyoun Lee, J. Brooks Crickard, Joseph C. Reese, Tae Hee Lee, 2019, ImmunoMethods on p. 51-58

Nucleosome Dynamics during Transcription Elongation

Mai Huynh, Satya Yadav, Joseph C. Reese, Tae Hee Lee, 2020, ACS Chemical Biology on p. 3133-3142

Gene expression as a circular process: Cross-talk between transcription and mRNA degradation in eukaryotes; International University of Andalusia (UNIA) Baeza, Spain

Martine A. Collart, Joseph C. Reese, 2014, RNA Biology on p. 320-323

News Articles Featuring Joseph Reese

Feb 14, 2024

Penn State molecular biologist Joseph Reese named distinguished professor

Joseph Reese, professor of biochemistry and molecular biology, has been selected to receive the title of Distinguished Professor of Biochemistry and Molecular Biology

Full Article

Apr 05, 2019

Unjamming the genome after DNA damage

A protein complex that is involved in nearly every step in the regulatory control of gene expression in cells has now been shown also to play a key role in clearing potential traffic jams in the production of RNA.