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Literature DB >> 29405707

Lysine Acetylation Goes Global: From Epigenetics to Metabolism and Therapeutics.

Ibraheem Ali^1,2, Ryan J Conrad^1,2, Eric Verdin³, Melanie Ott^1,2.

Abstract

Post-translational acetylation of lysine residues has emerged as a key regulatory mechanism in all eukaryotic organisms. Originally discovered in 1963 as a unique modification of histones, acetylation marks are now found on thousands of nonhistone proteins located in virtually every cellular compartment. Here we summarize key findings in the field of protein acetylation over the past 20 years with a focus on recent discoveries in nuclear, cytoplasmic, and mitochondrial compartments. Collectively, these findings have elevated protein acetylation as a major post-translational modification, underscoring its physiological relevance in gene regulation, cell signaling, metabolism, and disease.

Entities: Chemical

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Year: 2018 PMID： 29405707 PMCID： PMC6609103 DOI： 10.1021/acs.chemrev.7b00181

Source DB: PubMed Journal: Chem Rev ISSN： 0009-2665 Impact factor: 60.622

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Cited

60 in total

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Review 2. Exercise adaptations: molecular mechanisms and potential targets for therapeutic benefit.

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Review 3. SERCA2a: a key protein in the Ca²⁺ cycle of the heart failure.

Authors: Liu Zhihao; Ni Jingyu; Li Lan; Sarhene Michael; Guo Rui; Bian Xiyun; Liu Xiaozhi; Fan Guanwei
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4. Acetylation modulates thyroid hormone receptor intracellular localization and intranuclear mobility.

Authors: Cyril S Anyetei-Anum; Rochelle M Evans; Amanda M Back; Vincent R Roggero; Lizabeth A Allison
Journal: Mol Cell Endocrinol Date: 2019-07-15 Impact factor: 4.102

5. Critical review of non-histone human substrates of metal-dependent lysine deacetylases.

Authors: Tasha B Toro; Terry J Watt
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6. Proteogenomic Landscape of Breast Cancer Tumorigenesis and Targeted Therapy.

Authors: Karsten Krug; Eric J Jaehnig; Shankha Satpathy; Lili Blumenberg; Alla Karpova; Meenakshi Anurag; George Miles; Philipp Mertins; Yifat Geffen; Lauren C Tang; David I Heiman; Song Cao; Yosef E Maruvka; Jonathan T Lei; Chen Huang; Ramani B Kothadia; Antonio Colaprico; Chet Birger; Jarey Wang; Yongchao Dou; Bo Wen; Zhiao Shi; Yuxing Liao; Maciej Wiznerowicz; Matthew A Wyczalkowski; Xi Steven Chen; Jacob J Kennedy; Amanda G Paulovich; Mathangi Thiagarajan; Christopher R Kinsinger; Tara Hiltke; Emily S Boja; Mehdi Mesri; Ana I Robles; Henry Rodriguez; Thomas F Westbrook; Li Ding; Gad Getz; Karl R Clauser; David Fenyö; Kelly V Ruggles; Bing Zhang; D R Mani; Steven A Carr; Matthew J Ellis; Michael A Gillette
Journal: Cell Date: 2020-11-18 Impact factor: 41.582

Lysine Acetylation Goes Global: From Epigenetics to Metabolism and Therapeutics.

Review 1. Food intake in early life and epigenetic modifications of pro-opiomelanocortin expression in arcuate nucleus.

Review 2. Exercise adaptations: molecular mechanisms and potential targets for therapeutic benefit.

Review 3. SERCA2a: a key protein in the Ca²⁺ cycle of the heart failure.

4. Acetylation modulates thyroid hormone receptor intracellular localization and intranuclear mobility.

5. Critical review of non-histone human substrates of metal-dependent lysine deacetylases.

6. Proteogenomic Landscape of Breast Cancer Tumorigenesis and Targeted Therapy.

Review 7. The Chemical Biology of Reversible Lysine Post-translational Modifications.

8. Acetylation of Aβ42 at Lysine 16 Disrupts Amyloid Formation.

9. DNAzymes for amine and peptide lysine acylation.

Review 10. Arsenic-induced epigenetic changes in cancer development.

Lysine Acetylation Goes Global: From Epigenetics to Metabolism and Therapeutics.

Review 1. Food intake in early life and epigenetic modifications of pro-opiomelanocortin expression in arcuate nucleus.

Review 2. Exercise adaptations: molecular mechanisms and potential targets for therapeutic benefit.

Review 3. SERCA2a: a key protein in the Ca2+ cycle of the heart failure.

4. Acetylation modulates thyroid hormone receptor intracellular localization and intranuclear mobility.

5. Critical review of non-histone human substrates of metal-dependent lysine deacetylases.

6. Proteogenomic Landscape of Breast Cancer Tumorigenesis and Targeted Therapy.

Review 7. The Chemical Biology of Reversible Lysine Post-translational Modifications.

8. Acetylation of Aβ42 at Lysine 16 Disrupts Amyloid Formation.

9. DNAzymes for amine and peptide lysine acylation.

Review 10. Arsenic-induced epigenetic changes in cancer development.

Review 3. SERCA2a: a key protein in the Ca²⁺ cycle of the heart failure.