Literature DB >> 33638653

Histone acetylation dynamics regulating plant development and stress responses.

Verandra Kumar1, Jitendra K Thakur1, Manoj Prasad2.   

Abstract

Crop productivity is directly dependent on the growth and development of plants and their adaptation during different environmental stresses. Histone acetylation is an epigenetic modification that regulates numerous genes essential for various biological processes, including development and stress responses. Here, we have mainly discussed the impact of histone acetylation dynamics on vegetative growth, flower development, fruit ripening, biotic and abiotic stress responses. Besides, we have also emphasized the information gaps which are obligatory to be examined for understanding the complete role of histone acetylation dynamics in plants. A comprehensive knowledge about the histone acetylation dynamics will ultimately help to improve stress resistance and reduce yield losses in different crops due to climate changes.

Entities:  

Keywords:  Biotic and abiotic stress responses; Epigenetics; Histone acetylation; Histone acetyltransferases (HATs); Histone deacetylases (HDACs); Plant development

Year:  2021        PMID: 33638653     DOI: 10.1007/s00018-021-03794-x

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  112 in total

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Journal:  Nature       Date:  2000-01-06       Impact factor: 49.962

Review 2.  Histone acetylation and an epigenetic code.

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Journal:  Bioessays       Date:  2000-09       Impact factor: 4.345

Review 3.  Translating the histone code.

Authors:  T Jenuwein; C D Allis
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4.  Analysis of histone acetyltransferase and histone deacetylase families of Arabidopsis thaliana suggests functional diversification of chromatin modification among multicellular eukaryotes.

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Journal:  Nucleic Acids Res       Date:  2002-12-01       Impact factor: 16.971

Review 5.  Cracking the histone code: one, two, three methyls, you're out!

Authors:  Robert N Dutnall
Journal:  Mol Cell       Date:  2003-07       Impact factor: 17.970

Review 6.  Chromatin modifications and their function.

Authors:  Tony Kouzarides
Journal:  Cell       Date:  2007-02-23       Impact factor: 41.582

7.  Comprehensive structural analysis of mutant nucleosomes containing lysine to glutamine (KQ) substitutions in the H3 and H4 histone-fold domains.

Authors:  Wakana Iwasaki; Hiroaki Tachiwana; Koichiro Kawaguchi; Takehiko Shibata; Wataru Kagawa; Hitoshi Kurumizaka
Journal:  Biochemistry       Date:  2011-08-17       Impact factor: 3.162

8.  Crystal structure of the nucleosome core particle at 2.8 A resolution.

Authors:  K Luger; A W Mäder; R K Richmond; D F Sargent; T J Richmond
Journal:  Nature       Date:  1997-09-18       Impact factor: 49.962

9.  Functional divergence between histone deacetylases in fission yeast by distinct cellular localization and in vivo specificity.

Authors:  Pernilla Bjerling; Rebecca A Silverstein; Geneviève Thon; Amy Caudy; Shiv Grewal; Karl Ekwall
Journal:  Mol Cell Biol       Date:  2002-04       Impact factor: 4.272

10.  Histone H3 globular domain acetylation identifies a new class of enhancers.

Authors:  Madapura M Pradeepa; Graeme R Grimes; Yatendra Kumar; Gabrielle Olley; Gillian C A Taylor; Robert Schneider; Wendy A Bickmore
Journal:  Nat Genet       Date:  2016-04-18       Impact factor: 38.330
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  17 in total

1.  Wheat grain proteomic and protein-metabolite interactions analyses provide insights into plant growth promoting bacteria-arbuscular mycorrhizal fungi-wheat interactions.

Authors:  Radheshyam Yadav; Sudip Chakraborty; Wusirika Ramakrishna
Journal:  Plant Cell Rep       Date:  2022-04-09       Impact factor: 4.570

Review 2.  Molecular Genetic Understanding of Photoperiodic Regulation of Flowering Time in Arabidopsis and Soybean.

Authors:  Xiao Luo; Mengnan Yin; Yuehui He
Journal:  Int J Mol Sci       Date:  2021-12-31       Impact factor: 5.923

3.  ENAP1 retrains seed germination via H3K9 acetylation mediated positive feedback regulation of ABI5.

Authors:  Bo Zhao; Likai Wang; Zhengyao Shao; Kevin Chin; Daveraj Chakravarty; Hong Qiao
Journal:  PLoS Genet       Date:  2021-12-15       Impact factor: 6.020

4.  miR172 Regulates WUS during Somatic Embryogenesis in Arabidopsis via AP2.

Authors:  Katarzyna Nowak; Joanna Morończyk; Małgorzata Grzyb; Aleksandra Szczygieł-Sommer; Małgorzata D Gaj
Journal:  Cells       Date:  2022-02-17       Impact factor: 7.666

Review 5.  Transcriptional Coactivators: Driving Force of Plant Immunity.

Authors:  Muhammad Saad Shoaib Khan; Faisal Islam; Huan Chen; Ming Chang; Daowen Wang; Fengquan Liu; Zheng Qing Fu; Jian Chen
Journal:  Front Plant Sci       Date:  2022-01-28       Impact factor: 5.753

Review 6.  LncRNAs elevate plant adaptation under low temperature by maintaining local chromatin landscape.

Authors:  Yongke Tian; Yukang Hou; Yuan Song
Journal:  Plant Signal Behav       Date:  2022-12-31

7.  Insights into the Histone Acetylation-Mediated Regulation of the Transcription Factor Genes That Control the Embryogenic Transition in the Somatic Cells of Arabidopsis.

Authors:  Joanna Morończyk; Agnieszka Brąszewska; Barbara Wójcikowska; Karolina Chwiałkowska; Katarzyna Nowak; Anna M Wójcik; Mirosław Kwaśniewski; Małgorzata D Gaj
Journal:  Cells       Date:  2022-03-02       Impact factor: 6.600

Review 8.  The critical roles of histone deacetylase 3 in the pathogenesis of solid organ injury.

Authors:  Li Ning; Xiong Rui; Wang Bo; Geng Qing
Journal:  Cell Death Dis       Date:  2021-07-23       Impact factor: 8.469

Review 9.  Advances in proteome-wide analysis of plant lysine acetylation.

Authors:  Linchao Xia; Xiangge Kong; Haifeng Song; Qingquan Han; Sheng Zhang
Journal:  Plant Commun       Date:  2021-11-24

Review 10.  Histone Acetylation Changes in Plant Response to Drought Stress.

Authors:  Shuang Li; Xu He; Yuan Gao; Chenguang Zhou; Vincent L Chiang; Wei Li
Journal:  Genes (Basel)       Date:  2021-09-13       Impact factor: 4.096
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