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1. Gcn5: The quintessential histone acetyltransferase

   https://doi.org/10.1016/j.bbagrm.2020.194658  

   Weake, Vikki M. (February 2021, Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms)

   null (Ed.)
2. Coordinate activation of a target gene by KDM1C histone demethylase and OTLD1 histone deubiquitinase in Arabidopsis

   https://doi.org/10.1080/15592294.2019.1603982  

   Keren, Ido; Lapidot, Moshe; Citovsky, Vitaly (April 2019, Epigenetics)
3. Allele‐Specific Inhibition of Histone Demethylases

   https://doi.org/10.1002/cbic.201800756  

   Wagner, Shana; Waldman, Megan; Arora, Simran; Wang, Sinan; Scott, Valerie; Islam, Kabirul (February 2019, ChemBioChem)
4. Coordinated expression of replication-dependent histone genes from multiple loci promotes histone homeostasis in Drosophila

   https://doi.org/10.1091/mbc.E22-11-0532  

   Chaubal, Ashlesha; Waldern, Justin M.; Taylor, Colin; Laederach, Alain; Marzluff, William F.; Duronio, Robert J. (November 2023, Molecular Biology of the Cell)

   Misteli, Tom (Ed.)

   Production of large amounts of histone proteins during S phase is critical for proper chromatin formation and genome integrity. This process is achieved in part by the presence of multiple copies of replication dependent (RD) histone genes that occur in one or more clusters in metazoan genomes. In addition, RD histone gene clusters are associated with a specialized nuclear body, the histone locus body (HLB), which facilitates efficient transcription and 3′ end-processing of RD histone mRNA. How all five RD histone genes within these clusters are coordinately regulated such that neither too few nor too many histones are produced, a process referred to as histone homeostasis, is not fully understood. Here, we explored the mechanisms of coordinate regulation between multiple RD histone loci in Drosophila melanogaster and Drosophila virilis. We provide evidence for functional competition between endogenous and ectopic transgenic histone arrays located at different chromosomal locations in D. melanogaster that helps maintain proper histone mRNA levels. Consistent with this model, in both species we found that individual histone gene arrays can independently assemble an HLB that results in active histone transcription. Our findings suggest a role for HLB assembly in coordinating RD histone gene expression to maintain histone homeostasis. 

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5. Histone Acid Extraction and High Throughput Mass Spectrometry to Profile Histone Modifications in Arabidopsis thaliana

   https://doi.org/10.1002/cpz1.527  

   Scheid, Ray; Dowell, James A.; Sanders, Dean; Jiang, Jianjun; Denu, John M.; Zhong, Xuehua (August 2022, Current Protocols)

   Abstract Histone post‐translational modifications (PTMs) play important roles in many biological processes, including gene regulation and chromatin dynamics, and are thus of high interest across many fields of biological research. Chromatin immunoprecipitation coupled with sequencing (ChIP‐seq) is a powerful tool to profile histone PTMsin vivo. This method, however, is largely dependent on the specificity and availability of suitable commercial antibodies. While mass spectrometry (MS)–based proteomic approaches to quantitatively measure histone PTMs have been developed in mammals and several other model organisms, such methods are currently not readily available in plants. One major challenge for the implementation of such methods in plants has been the difficulty in isolating sufficient amounts of pure, high‐quality histones, a step rendered difficult by the presence of the cell wall. Here, we developed a high‐yielding histone extraction and purification method optimized forArabidopsis thalianathat can be used to obtain high‐quality histones for MS. In contrast to other methods used in plants, this approach is relatively simple, and does not require membranes or additional specialized steps, such as gel excision or chromatography, to extract highly purified histones. We also describe methods for producing MS‐ready histone peptides through chemical labeling and digestion. Finally, we describe an optimized method to quantify and analyze the resulting histone PTM data using a modified version of EpiProfile 2.0 for Arabidopsis. In all, the workflow described here can be used to measure changes to histone PTMs resulting from various treatments, stresses, and time courses, as well as in different mutant lines. © 2022 Wiley Periodicals LLC. Basic Protocol 1: Nuclear isolation and histone acid extraction Basic Protocol 2: Peptide labeling, digestion, and desalting Basic Protocol 3: Histone HPLC‐MS/MS and data analysis 

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