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  • Author: Bruzzone MJ
  • References

Author: Bruzzone MJ


References 10 references


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  • Zencir S, et al. (2025) A two-step regulatory mechanism dynamically controls histone H3 acetylation by SAGA complex at growth-related promoters. Nucleic Acids Res 53(7) PMID:40207626
    • SGD Paper
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    • PubMed
  • Kubik S, et al. (2019) Opposing chromatin remodelers control transcription initiation frequency and start site selection. Nat Struct Mol Biol 26(8):744-754 PMID:31384063
    • SGD Paper
    • DOI full text
    • PubMed
  • Bruzzone MJ, et al. (2018) Distinct patterns of histone acetyltransferase and Mediator deployment at yeast protein-coding genes. Genes Dev 32(17-18):1252-1265 PMID:30108132
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    • PubMed
  • Kubik S, et al. (2018) Sequence-Directed Action of RSC Remodeler and General Regulatory Factors Modulates +1 Nucleosome Position to Facilitate Transcription. Mol Cell 71(1):89-102.e5 PMID:29979971
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    • DOI full text
    • PubMed
  • Kubik S, et al. (2017) A Reply to "MNase-Sensitive Complexes in Yeast: Nucleosomes and Non-histone Barriers," by Chereji et al. Mol Cell 65(3):578-580 PMID:28157510
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  • Kubik S, et al. (2017) Establishing nucleosome architecture and stability at promoters: Roles of pioneer transcription factors and the RSC chromatin remodeler. Bioessays 39(5) PMID:28345796
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    • PubMed
  • Kubik S, et al. (2017) TFIID or not TFIID, a continuing transcriptional SAGA. EMBO J 36(3):248-249 PMID:28069707
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  • Albert B, et al. (2016) A Molecular Titration System Coordinates Ribosomal Protein Gene Transcription with Ribosomal RNA Synthesis. Mol Cell 64(4):720-733 PMID:27818142
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    • DOI full text
    • PubMed
  • Kubik S, et al. (2015) Nucleosome Stability Distinguishes Two Different Promoter Types at All Protein-Coding Genes in Yeast. Mol Cell 60(3):422-34 PMID:26545077
    • SGD Paper
    • DOI full text
    • PubMed
  • Knight B, et al. (2014) Two distinct promoter architectures centered on dynamic nucleosomes control ribosomal protein gene transcription. Genes Dev 28(15):1695-709 PMID:25085421
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