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Bivalent histone modifications during tooth development 被引量:3
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作者 Li-Wei Zheng Bin-Peng Zhang +3 位作者 Ruo-Shi Xu Xin Xu Ling Ye Xue-Dong Zhou 《International Journal of Oral Science》 SCIE CAS CSCD 2014年第4期205-211,共7页
Histone methylation is one of the most widely studied post-transcriptional modifications. It is thought to be an important epigenetic event that is closely associated with cell fate determination and differentiation. ... Histone methylation is one of the most widely studied post-transcriptional modifications. It is thought to be an important epigenetic event that is closely associated with cell fate determination and differentiation. To explore the spatiotemporal expression of histone H3 lysine 4trimethylation(H3K4me3) and histone H3 lysine 27 trimethylation(H3K27me3) epigenetic marks and methylation or demethylation transferases in tooth organ development, we measured the expression of SET7, EZH2, KDM5 B and JMJD3 via immunohistochemistry and quantitative polymerase chain reaction(qP CR) analysis in the first molar of BALB/c mice embryos at E13.5, E15.5, E17.5, P0 and P3, respectively. We also measured the expression of H3K4me3 and H3K27me3 with immunofluorescence staining. During murine tooth germ development, methylation or demethylation transferases were expressed in a spatial–temporal manner. The bivalent modification characterized by H3K4me3 and H3K27me3 can be found during the tooth germ development, as shown by immunofluorescence. The expression of SET7, EZH2 as methylation transferases and KDM5 B and JMJD3 as demethylation transferases indicated accordingly with the expression of H3K4me3 and H3K27me3 respectively to some extent. The bivalent histone may play a critical role in tooth organ development via the regulation of cell differentiation. 展开更多
关键词 histone modification methylation post-transcriptional modification tooth development
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Development of rabbit monoclonal and polyclonal antibodies for detection of site-specific histone modifications and their application in analyzing overall modification levels
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作者 Lan Guo Benliang Yin +2 位作者 Junli Zhou Xueyong Li Xing Wang Deng 《Cell Research》 SCIE CAS CSCD 2006年第5期519-527,共9页
In addition to DNA sequence information, site-specific histone modifications are another important determinant of gene expression in a eukaryotic organism. We selected four modification sites in common histones that a... In addition to DNA sequence information, site-specific histone modifications are another important determinant of gene expression in a eukaryotic organism. We selected four modification sites in common histones that are known to significantly impact chromatin function and generated monoclonal or polyclonal antibodies that recognize each of those site-specific modifications. We used these antibodies to demonstrate that the site-specific histone modification levels remain relatively constant in different organs of the same organism. We also compared the levels of selected histone modifications among several representative organisms and found that site-specific modifications are highly variable among different organisms, providing new insight into the evolutionary divergence of specific histone modifications. 展开更多
关键词 histone modification site-specific antibody CHROMATIN
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Mechanism and application of feedback loops formed by mechanotransduction and histone modifications 被引量:1
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作者 Han Sun Yafang Gao +3 位作者 Xinyu Ma Yizhou Deng Lintao Bi Lisha Li 《Genes & Diseases》 SCIE CSCD 2024年第5期198-218,共21页
Mechanical stimulation is the key physical factor in cell environment.Mechanotransduction acts as a fundamental regulator of cell behavior,regulating cell proliferation,differentiation,apoptosis,and exhibiting specifi... Mechanical stimulation is the key physical factor in cell environment.Mechanotransduction acts as a fundamental regulator of cell behavior,regulating cell proliferation,differentiation,apoptosis,and exhibiting specific signature alterations during the pathological process.As research continues,the role of epigenetic science in mechanotransduction is attracting attention.However,the molecular mechanism of the synergistic effect between mechanotransduction and epigenetics in physiological and pathological processes has not been clarified.We focus on how histone modifications,as important components of epigenetics,are coordinated with multiple signaling pathways to control cell fate and disease progression.Specifically,we propose that histone modifications can form regulatory feedback loops with signaling pathways,that is,histone modifications can not only serve as downstream regulators of signaling pathways for target gene transcription but also provide feedback to regulate signaling pathways.Mechanotransduction and epigenetic changes could be potential markers and therapeutic targets in clinical practice. 展开更多
关键词 FAK histone modifications MAPK MECHANOTRANSDUCTION RHOA WNT/b-catenin YAP/TAZ
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The roles of histone modifications in tumorigenesis and associated inhibitors in cancer therapy
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作者 Yunkai Yang Min Zhang Yan Wang 《Journal of the National Cancer Center》 2022年第4期277-290,共14页
Histone modifications are key factors in chromatin packaging,and are responsible for gene regulation during cell fate determination and development.Abnormal alterations in histone modifications potentially affect the ... Histone modifications are key factors in chromatin packaging,and are responsible for gene regulation during cell fate determination and development.Abnormal alterations in histone modifications potentially affect the stability of the genome and disrupt gene expression patterns,leading to many diseases,including cancer.In recent years,mounting evidence has shown that various histone modifications altered by aberrantly expressed modifier enzymes contribute to tumor development and metastasis through the induction of epigenetic,transcriptional,and phenotypic changes.In this review,we will discuss the existing histone modifications,both well-studied and rare ones,and their roles in solid tumors and hematopoietic cancers,to identify the molecular pathways involved and investigate targeted therapeutic drugs to reorganize the chromatin and enhance cancer treatment efficiency.Finally,clinical inhibitors of histone modifications are summarized to better understand the developmental stage of cancer therapy in using these drugs to inhibit the histone modification enzymes. 展开更多
关键词 histone modification Tumorigenesis histone modifier enzyme inhibitor
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Histone modifications dictate specific biological readouts 被引量:10
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作者 Anjana Munshi Gowhar Shafi +1 位作者 Nishat Aliya Akka Jyothy 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2009年第2期75-88,共14页
The basic unit of chromatin is the nucleosomal core particle, containing 147 bp of DNA that wraps twice around an octamer of core histones. The core histones bear a highly dynamic N-terminal amino acid tail around 20-... The basic unit of chromatin is the nucleosomal core particle, containing 147 bp of DNA that wraps twice around an octamer of core histones. The core histones bear a highly dynamic N-terminal amino acid tail around 20-35 residues in length and rich in basic amino acids. These tails extending from the surface of nucleosome play an important role in folding of nucleosomal arrays into higher order chromatin structure, which plays an important role in eukaryotic gene regulation. The amino terminal tails protruding from the nuclesomes get modified by the addition of small groups such as methyl, acetyl and phosphoryl groups. In this review, we focus on these complex modi- fication patterns and their biological functions. Moreover, these modifications seem to be part of a complex scheme where distinct histone modifications act in a sequential manner or in combination to form a "histone code" read by other proteins to control the structure and/or function of the chromatin fiber. Errors in this histone code may be involved in many human diseases especially cancer, the nature of which could be therapeutically exploited. Increasing evidence suggests that many proteins bear multiple, distinct modifications, and the ability of one modification to antagonize or synergize the deposition of another can have significant biological consequences. 展开更多
关键词 histone modifications gene expression and silencing HETEROCHROMATIN therapeutic exploitation histone code
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Histone modifications in DNA damage response 被引量:4
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作者 Lin-Lin Cao Changchun Shen Wei-Guo Zhu 《Science China(Life Sciences)》 SCIE CAS CSCD 2016年第3期257-270,共14页
DNA damage is a relatively common event in eukaryotic cell and may lead to genetic mutation and even cancer. DNA damage induces cellular responses that enable the cell either to repair the damaged DNA or cope with the... DNA damage is a relatively common event in eukaryotic cell and may lead to genetic mutation and even cancer. DNA damage induces cellular responses that enable the cell either to repair the damaged DNA or cope with the damage in an appropriate way. Histone proteins are also the fundamental building blocks of eukaryotic chromatin besides DNA, and many types of post-translational modifications often occur on tails of histones. Although the function of these modifications has remained elusive, there is ever-growing studies suggest that histone modifications play vital roles in several chromatin-based processes, such as DNA damage response. In this review, we will discuss the main histone modifications, and their functions in DNA damage response. 展开更多
关键词 DNA damage response histone modifications CHROMATIN DNA repair
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H2A.Z Represses Gene Expression by Modulating Promoter Nucleosome Structure and Enhancer Histone Modifications in Arabidopsis 被引量:14
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作者 Xiaozhuan Dai Youhuang Bai +9 位作者 Lihua Zhao Xianying DOU Yanhui Liu Lulu Wang Yi Li Weimin Li Yanan Hui Xinyu Huang Zonghua Wang Yuan Qin 《Molecular Plant》 SCIE CAS CSCD 2017年第10期1274-1292,共19页
Deposition of the histone variant H2A.Z at gene bodies regulates transcription by modifying chromatin accessibility in plants. However, the role of H2A.Z enrichment at the promoter and enhancer regions is unclear, and... Deposition of the histone variant H2A.Z at gene bodies regulates transcription by modifying chromatin accessibility in plants. However, the role of H2A.Z enrichment at the promoter and enhancer regions is unclear, and how H2A.Z interacts with other mechanisms of chromatin modification to regulate gene expression remains obscure. Here, we mapped genome-wide H2A.Z, H3K4me3, H3K27me3, Pol II, and nucleosome occupancy in Arabidopsis inflorescence. We showed that H2A.Z preferentially associated with H3K4me3 at promoters, while it was found with H3K27me3 at enhancers, and that H2A.Z deposition negatively correlated with gene expression. In addition, we demonstrated that H2A.Z represses gene expression by establishing low gene accessibility at +1 nucleosome and maintaining high gene accessibility at -1 nucleosome. We further showed that the high measures of gene responsiveness correlate with the H2A.Z-associated closed +1 nucleosome structure. Moreover, we found that H2A.Z represses enhancer activity by promoting H3K27me3 and preventing H3K4me3 histone modifications. This study provides a framework for future studies of H2A.Z functions and opens up new aspects for decoding the interplay between chromatin modification and histone variants in transcrip- tional control. 展开更多
关键词 ChlP-seq RNA-seq H2A.Z histone modification nucleosome occupancy gene expression
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Histone modifications and their regulatory roles in plant development and environmental memory 被引量:9
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作者 Ting Zhao Zhenping Zhan Danhua Jiang 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2019年第10期467-476,共10页
Plants grow in dynamic environments where they receive diverse environmental signals.Swift and precise control of gene expression is essential for plants to align their development and metabolism with fluctuating surr... Plants grow in dynamic environments where they receive diverse environmental signals.Swift and precise control of gene expression is essential for plants to align their development and metabolism with fluctuating surroundings.Modifications on histones serve as histone code" to specify chromatin and gene activities.Different modifications execute distinct functions on the chromatin,promoting either active transcription or gene silencing.Histone writers,erasers,and readers mediate the regulation of histone modifications by catalyzing,removing,and recognizing modifications,respectively.Growing evidence indicates the important function of histone modifications in plant development and environmental responses.Histone modifications also serve as environmental memory for plants to adapt to environmental changes.Here we review recent progress on the regulation of histone modifications in plants,the impact of histone modifications on environment-controlled developmental transitions including germination and flowering,and the role of histone modifications in environmental memory. 展开更多
关键词 histone modification TRANSCRIPTION GERMINATION FLOWERING Plant-environmental response Environmental memory
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Dynamic regulation of DNA methylation and histone modifications in response to abiotic stresses in plants 被引量:3
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作者 Yutong Liu Jie Wang +1 位作者 Bao Liu Zheng-Yi Xu 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2022年第12期2252-2274,共23页
DNA methylation and histone modification are evolutionarily conserved epigenetic modifications that are crucial for the expression regulation of abiotic stress-responsive genes in plants.Dynamic changes in gene expres... DNA methylation and histone modification are evolutionarily conserved epigenetic modifications that are crucial for the expression regulation of abiotic stress-responsive genes in plants.Dynamic changes in gene expression levels can result from changes in DNA methylation and histone modifications.In the last two decades,how epigenetic machinery regulates abiotic stress responses in plants has been extensively studied.Here,based on recent publications,we review how DNA methylation and histone modifications impact gene expression regulation in response to abiotic stresses such as drought,abscisic acid,high salt,extreme temperature,nutrient deficiency or toxicity,and ultraviolet B exposure.We also review the roles of epigenetic mechanisms in the formation of transgenerational stress memory.We posit that a better understanding of the epigenetic underpinnings of abiotic stress responses in plants may facilitate the design of more stress-resistant or-resilient crops,which is essential for coping with global warming and extreme environments. 展开更多
关键词 abiotic stress DNA methylation histone modification transcriptional regulation
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Intracellular HSP70L1 inhibits human dendritic cell maturation by promoting suppressive H3K27me3 and H2AK119Ub1 histone modifications 被引量:1
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作者 Lin Yi Zhiqing Li +4 位作者 Tianju Hu Juan Liu Nan Li Xuetao Cao Shuxun Liu 《Cellular & Molecular Immunology》 SCIE CAS CSCD 2020年第1期85-94,共10页
Epigenetic regulation has been attracting increasing attention due to its role in cell differentiation and behaviors.However,the epigenetic mechanisms that regulate human dendritic cell(DC)differentiation and developm... Epigenetic regulation has been attracting increasing attention due to its role in cell differentiation and behaviors.However,the epigenetic mechanisms that regulate human dendritic cell(DC)differentiation and development remain poorly understood.Our previous studies show that extracellular heat shock protein 70-like protein(HSP70L1)is a potent adjuvant of Th1 responses via stimulating DCs when released from cells;however,the role of intracellular HSP70L1 in DC differentiation and maturation remains unknown.Herein,we demonstrate that intracellular HSP70L1 inhibits human DC maturation by suppressing MHC and costimulatory molecule expression,in contrast to the adjuvant activity of extracellular HSP70L1.The stability of intracellular HSP70L1 is dependent on DNAJC2,a known epigenetic regulator.Mechanistically,intracellular HSP70L1 inhibits the recruitment of Ash1l to and maintains the repressive H3K27me3 and H2AK119Ub1 modifications on the promoter regions of costimulatory,MHC and STAT3 genes.Thus,intracellular HSP70L1 is an inhibitor of human DC maturation.Our results provide new insights into the epigenetic regulation of cell development by intracellular HSP70L1. 展开更多
关键词 HSP70L1 DNAJC2 Monocyte-derived dendritic cell histone modification H3K27me3 H2AK119Ub1 H3K4me3
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Role of the histone methyltransferases Ezh2 and Suv4-20h1/Suv4-20h2 in neurogenesis 被引量:2
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作者 Christopher T.Rhodes Chin-Hsing Annie Lin 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第3期469-473,共5页
Mechanisms regulating neurogenesis involve broad and complex processes that represent intriguing therapeutic targets in the field of regenerative medicine.One influential factor guiding neural stem cell proliferation ... Mechanisms regulating neurogenesis involve broad and complex processes that represent intriguing therapeutic targets in the field of regenerative medicine.One influential factor guiding neural stem cell proliferation and cellular differentiation during neurogenesis are epigenetic mechanisms.We present an overview of epigenetic mechanisms including chromatin structure and histone modifications;and discuss novel roles of two histone modifiers,Ezh2 and Suv4-20h1/Suv4-20h2(collectively referred to as Suv4-20h),in neurodevelopment and neurogenesis.This review will focus on broadly reviewing epigenetic regulatory components,the roles of epigenetic components during neurogenesis,and potential applications in regenerative medicine. 展开更多
关键词 adult neurogenesis EPIGENETIC EZH2 histone co-regulation histone modification NEURODEVELOPMENT NEUROGENESIS regenerative medicine Suv4-20h
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Epigenetic modifications and metabolic memory in diabetic retinopathy:beyond the surface 被引量:2
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作者 Dan-Dan Liu Chao-Yang Zhang +3 位作者 Jing-Ting Zhang Li-Min Gu Guo-Tong Xu Jing-Fa Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第7期1441-1449,共9页
Epigenetics focuses on DNA methylation,histone modification,chromatin remodeling,noncoding RNAs,and other gene regulation mechanisms beyond the DNA sequence.In the past decade,epigenetic modifications have drawn more ... Epigenetics focuses on DNA methylation,histone modification,chromatin remodeling,noncoding RNAs,and other gene regulation mechanisms beyond the DNA sequence.In the past decade,epigenetic modifications have drawn more attention as they participate in the development and progression of diabetic retinopathy despite tight control of glucose levels.The underlying mechanisms of epigenetic modifications in diabetic retinopathy still urgently need to be elucidated.The diabetic condition facilitates epigenetic changes and influences target gene expression.In this review,we summarize the involvement of epigenetic modifications and metabolic memory in the development and progression of diabetic retinopathy and propose novel insights into the treatment of diabetic retinopathy. 展开更多
关键词 diabetic retinopathy DNA methylation EPIGENETICS histone modification metabolic memory M6A modification non-coding RNAs REVIEW
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Genome-wide profiling of histone H3 lysine 27 trimethylation and its modification in response to chilling stress in grapevine leaves 被引量:2
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作者 Zhenfei Zhu Qingyun Li +11 位作者 Duncan Kiragu Gichuki Yujun Hou Yuanshuang Liu Huimin Zhou Chen Xu Linchuan Fang Linzhong Gong Beibei Zheng Wei Duan Peige Fan Qingfeng Wang Haiping Xin 《Horticultural Plant Journal》 SCIE CAS CSCD 2023年第3期496-508,共13页
Histone H3 lysine 27 trimethylation(H3K27me3) is a histone modification associated with transcriptional repression. However, insights into the genome-wide pattern of H3K27me3 in grapevines are limited. Here, anti-H3K2... Histone H3 lysine 27 trimethylation(H3K27me3) is a histone modification associated with transcriptional repression. However, insights into the genome-wide pattern of H3K27me3 in grapevines are limited. Here, anti-H3K27 chromatin immunoprecipitation(ChIP), high-throughput sequencing, and transcriptome analysis were performed using leaves of Vitis amurensis. The leaves were treated at 4°C for 2 h and 24 h and used to investigate changes in H3K27me3 under chilling treatment. The results show that H3K27me3 is well-distributed both in gene regions(-50%) and in the intergenic region(-50%) in the grapevine genome(Vitis vinifera ‘Pinot Noir PN40024'). H3K27me3 was found to be localized in8 368 annotated gene regions in all detected samples(leaves at normal temperature and under chilling treatments) and mainly enriched in gene bodies with the adjacent promoter and downstream areas. The short-term chilling treatments(4°C for 2 h) induced 2 793 gains and 305losses in H3K27me3 modification. Subsequently, 97.3% of the alterations were restored to original levels after 24 h treatment. The ChIP-qPCR for five differential peaks showed similar results to the data for ChIP-seq, indicating that the chilling-induced H3K27me3 modification is reliable.Integrative analysis of transcriptome and ChIP-seq results showed that the expression of H3K27me3 target genes was significantly lower than those of non-target genes, indicating transcriptional repression of H3K27me3 in grapevine leaves. Furthermore, histone methylation alterations were detected in 82 genes and were related to either repression or activation of their expression during chilling stress. The findings provide the genome-wide H3K27me3 patterns in grapevines and shed light on uncovering its regulation in chilling stress responses. 展开更多
关键词 Vitis amurensis histone modification H3K27me3 Chilling stress
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Improving TRAIL-induced apoptosis in cancers by interfering with histone modifications 被引量:1
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作者 Bao-Jie Zhang Deng Chen +1 位作者 Frank J.Dekker Wim J.Quax 《Cancer Drug Resistance》 2020年第4期791-803,共13页
Epigenetic regulation refers to alterations to the chromatin template that collectively establish differential patterns of gene transcription.Post-translational modifications of the histones play a key role in epigene... Epigenetic regulation refers to alterations to the chromatin template that collectively establish differential patterns of gene transcription.Post-translational modifications of the histones play a key role in epigenetic regulation of gene transcription.In this review,we provide an overview of recent studies on the role of histone modifications in carcinogenesis.Since tumour-selective ligands such as tumor necrosis factor-related apoptosis-inducing ligand(TRAIL)are well-considered as promising anti-tumour therapies,we summarise strategies for improving TRAIL sensitivity by inhibiting aberrant histone modifications in cancers.In this perspective we also discuss new epigenetic drug targets for enhancing TRAIL-mediated apoptosis. 展开更多
关键词 EPIGENETICS histone modification tumor necrosis factor-related apoptosis-inducing ligand selective epigenetic inhibitors APOPTOSIS
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Targeting the chromatin structural changes of antitumor immunity
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作者 Nian-nian Li Deng-xing Lun +22 位作者 Ningning Gong Gang Meng Xin-ying Du He Wang Xiangxiang Bao Xin-yang Li Ji-wu Song Kewei Hu Lala Li Si-ying Li Wenbo Liu Wanping Zhu Yunlong Zhang Jikai Li Ting Yao Leming Mou Xiaoqing Han Furong Hao Yongcheng Hu Lin Liu Hongguang Zhu Yuyun Wu Bin Liu 《Journal of Pharmaceutical Analysis》 SCIE CAS CSCD 2024年第4期460-482,共23页
Epigenomic imbalance drives abnormal transcriptional processes,promoting the onset and progression of cancer.Although defective gene regulation generally affects carcinogenesis and tumor suppression networks,tumor imm... Epigenomic imbalance drives abnormal transcriptional processes,promoting the onset and progression of cancer.Although defective gene regulation generally affects carcinogenesis and tumor suppression networks,tumor immunogenicity and immune cells involved in antitumor responses may also be affected by epigenomic changes,which may have significant implications for the development and application of epigenetic therapy,cancer immunotherapy,and their combinations.Herein,we focus on the impact of epigenetic regulation on tumor immune cell function and the role of key abnormal epigenetic processes,DNA methylation,histone post-translational modification,and chromatin structure in tumor immunogenicity,and introduce these epigenetic research methods.We emphasize the value of small-molecule inhibitors of epigenetic modulators in enhancing antitumor immune responses and discuss the challenges of developing treatment plans that combine epigenetic therapy and immuno-therapy through the complex interaction between cancer epigenetics and cancer immunology. 展开更多
关键词 Antitumor immunity Chromatin structural Cancer epigenetics DNA methylation histone modification CHEMOTHERAPY
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Recent omics progress in nanobiotechnology for plant abiotic stress tolerance improvement
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作者 Lingling Chen Lan Zhu +7 位作者 Xiaohui Liu Lu Chen Han Zhou Huixin Ma Guilan Sun Ashadu Nyande Zhaohu Li Honghong Wu 《The Crop Journal》 SCIE CSCD 2024年第5期1274-1279,共6页
Use of nanomaterials(NMs)to improve plant abiotic stress tolerance(AST)is a hot topic in NM-enabled agriculture.Previous studies mainly focused on the physiological and biochemical responses of plants treated with NMs... Use of nanomaterials(NMs)to improve plant abiotic stress tolerance(AST)is a hot topic in NM-enabled agriculture.Previous studies mainly focused on the physiological and biochemical responses of plants treated with NMs under abiotic stress.To use NMs for improving plant AST,it is necessary to understand how they act on this tolerance at the omics and epigenetics levels.In this review,we summarized the knowledge of NM-improved abiotic stress tolerance in relation to omics(such as metabolic,transcriptomic,proteomic,and microRNA),DNA methylation,and histone modifications.Overall,NMs can improve plant abiotic stress tolerance through the modulation at omics and epigenetics levels. 展开更多
关键词 NANOMATERIALS OMICS Molecular mechanisms EPIGENETICS DNA methylation histone modification
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Targeting epigenetic mechanisms in amyloid-β-mediated Alzheimer’s pathophysiology:unveiling therapeutic potential
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作者 Jennie Z.Li Nagendran Ramalingam Shaomin Li 《Neural Regeneration Research》 SCIE CAS 2025年第1期54-66,共13页
Alzheimer’s disease is a prominent chronic neurodegenerative condition characterized by a gradual decline in memory leading to dementia.Growing evidence suggests that Alzheimer’s disease is associated with accumulat... Alzheimer’s disease is a prominent chronic neurodegenerative condition characterized by a gradual decline in memory leading to dementia.Growing evidence suggests that Alzheimer’s disease is associated with accumulating various amyloid-βoligomers in the brain,influenced by complex genetic and environmental factors.The memory and cognitive deficits observed during the prodromal and mild cognitive impairment phases of Alzheimer’s disease are believed to primarily result from synaptic dysfunction.Throughout life,environmental factors can lead to enduring changes in gene expression and the emergence of brain disorders.These changes,known as epigenetic modifications,also play a crucial role in regulating the formation of synapses and their adaptability in response to neuronal activity.In this context,we highlight recent advances in understanding the roles played by key components of the epigenetic machinery,specifically DNA methylation,histone modification,and microRNAs,in the development of Alzheimer’s disease,synaptic function,and activity-dependent synaptic plasticity.Moreover,we explore various strategies,including enriched environments,exposure to non-invasive brain stimulation,and the use of pharmacological agents,aimed at improving synaptic function and enhancing long-term potentiation,a process integral to epigenetic mechanisms.Lastly,we deliberate on the development of effective epigenetic agents and safe therapeutic approaches for managing Alzheimer’s disease.We suggest that addressing Alzheimer’s disease may require distinct tailored epigenetic drugs targeting different disease stages or pathways rather than relying on a single drug. 展开更多
关键词 Alzheimer’s disease DNA methylation enriched environments histone modification microRNAs non-invasive brain stimulation synaptic plasticity
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Epigenetic control on transcription of vernalization genes and whole-genome gene expression profile induced by vernalization in common wheat
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作者 Yunzhen Li Liujie Jin +4 位作者 Xinyu Liu Chao He Siteng Bi Sulaiman Saeed Wenhao Yan 《Plant Diversity》 SCIE CAS CSCD 2024年第3期386-394,共9页
Vernalization is necessary for winter wheat to flower.However,it is unclear whether vernalization is also required for spring wheat,which is frequently sown in fall,and what molecular mechanisms underlie the vernaliza... Vernalization is necessary for winter wheat to flower.However,it is unclear whether vernalization is also required for spring wheat,which is frequently sown in fall,and what molecular mechanisms underlie the vernalization response in wheat varieties.In this study,we examined the molecular mechanisms that regulate vernalization response in winter and spring wheat varieties.For this purpose,we determined how major vernalization genes(VRN1,VRN2,and VRN3)respond to vernalization in these varieties and whether modifications to histones play a role in changes in gene expression.We also identified genes that are differentially regulated in response to vernalization in winter and spring wheat varieties.We found that in winter wheat,but not in spring wheat,VRN1 expression decreases when returned to warm temperature following vernalization.This finding may be associated with differences between spring and winter wheat in the levels of tri-methylation of lysine 27 on histone H3(H3K27me3)and tri-methylation of lysine 4 on histone H3(H3K4me3)at the VRN1 gene.Analysis of winter wheat transcriptomes before and after vernalization revealed that vernalization influences the expression of several genes,including those involved in leucine catabolism,cysteine biosynthesis,and flavonoid biosynthesis.These findings provide new candidates for further study on the mechanism of vernalization regulation in wheat. 展开更多
关键词 WHEAT VERNALIZATION VRN1 histone modification Regulate network
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Pig H3K4me3,H3K27ac,and gene expression profiles reveal reproductive tissue-specific activity of transposable elements
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作者 Tao Jiang Zhi-Min Zhou +6 位作者 Zi-Qi Ling Qing Zhang Zhong-Zi Wu Jia-Wen Yang Si-Yu Yang Bin Yang Lu-Sheng Huang 《Zoological Research》 SCIE CSCD 2024年第1期138-151,共14页
Regulatory sequences and transposable elements(TEs)account for a large proportion of the genomic sequences of species;however,their roles in gene transcription,especially tissue-specific expression,remain largely unkn... Regulatory sequences and transposable elements(TEs)account for a large proportion of the genomic sequences of species;however,their roles in gene transcription,especially tissue-specific expression,remain largely unknown.Pigs serve as an excellent animal model for studying genomic sequence biology due to the extensive diversity among their wild and domesticated populations.Here,we conducted an integrated analysis using H3K27ac ChIP-seq,H3K4me3 ChIP-seq,and RNA-seq data from 10 different tissues of seven fetuses and eight closely related adult pigs.We aimed to annotate the regulatory elements and TEs to elucidate their associations with histone modifications and mRNA expression across different tissues and developmental stages.Based on correlation analysis between mRNA expression and H3K27ac and H3K4me3 peak activity,results indicated that H3K27ac exhibited stronger associations with gene expression than H3K4me3.Furthermore,1.45%of TEs overlapped with either the H3K27ac or H3K4me3 peaks,with the majority displaying tissue-specific activity.Notably,a TE subfamily(LTR4C_SS),containing binding motifs for SIX1 and SIX4,showed specific enrichment in the H3K27ac peaks of the adult and fetal ovaries.RNA-seq analysis also revealed widespread expression of TEs in the exons or promoters of genes,including 4688 TE-containing transcripts with distinct development stage-specific and tissue-specific expression.Of note,1967 TE-containing transcripts were enriched in the testes.We identified a long terminal repeat(LTR),MLT1F1,acting as a testis-specific alternative promoter in SRPK2(a cell cycle-related protein kinase)in our pig dataset.This element was also conserved in humans and mice,suggesting either an ancient integration of TEs in genes specifically expressed in the testes or parallel evolutionary patterns.Collectively,our findings demonstrate that TEs are deeply embedded in the genome and exhibit important tissue-specific biological functions,particularly in the reproductive organs. 展开更多
关键词 Transposable elements PORCINE histone modification Alternative promoter TE-containing transcript
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Research Progress of Epigenetics in Liver Cancer
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作者 Shijian Fu Min Guo 《Journal of Cancer Therapy》 2024年第3期71-82,共12页
Epigenetic changes are changes in gene expression by regulating gene transcription and translation without changing the nucleotide sequence of the genome. Although the genome itself changes during the occurrence and d... Epigenetic changes are changes in gene expression by regulating gene transcription and translation without changing the nucleotide sequence of the genome. Although the genome itself changes during the occurrence and development of most malignant tumors, recent studies have found that epigenetic changes also play an important role in the occurrence and development of tumors. Epigenetic modification mainly includes DNA methylation, histone modification and miRNA regulation. This review focuses on the role and mechanism of epigenetic modification in the occurrence, metastasis and invasion of hepatocellular carcinoma (HCC), and summarizes the latest methods for the treatment of HCC by restoring dysregulated epigenetic modification. It provides a theoretical basis for revealing the pathogenesis of liver cancer and developing new methods of diagnosis and treatment. 展开更多
关键词 EPIGENETICS Hepatocellular Carcinoma DNA Methylation histone Modification miRNA Regulation
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