Special DNA Methylated Sites Between Haploid of Twin-Seedling and Its Hybrids in Rice (Oryza sativa)

DNA methylation is one of the epigenetic phenomena which can be transferred to the offspring by cell division in the evolution of organisms. The epigenetic regulation accompanied by gene expression can be found directly in the phenotype of haploidy plants. DNA cytosine methylation at the 5'-CpCpGpG...

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Published in水稻科学:英文版 Vol. 19; no. 2; pp. 94 - 99
Main Author Wu Shao-hua XUE Jing-jing ZHANG Hong-yu Xu Pei-zhou Wu Xian-jun
Format Journal Article
LanguageEnglish
Published 2012
Subjects
DNA甲基化
Oryza
单倍体植株
双胚苗
基因组DNA
基因表达
杂交后代
杂交水稻
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Abstract DNA methylation is one of the epigenetic phenomena which can be transferred to the offspring by cell division in the evolution of organisms. The epigenetic regulation accompanied by gene expression can be found directly in the phenotype of haploidy plants. DNA cytosine methylation at the 5'-CpCpGpG sites of haploid, Shuhui 527, Shuhui 363 and their hybrids was analyzed by methylation sensitive amplification polymorphism (MSAP) method. There were 765 DNA methylated sites detected and the methylation level was lower in hybrids than parents. Meanwhile, the different bands between hybrids and parents were analyzed and two types of methylated sites were detected, of which one inherited from haploid, and the other did not. The biological functions of genes related to methylated sites involved in cell structure, metabolize and response factor. Therefore, DNA methylated modifications can activate and silence the genes and play an important role in plant growth, development and evolution.
AbstractList DNA methylation is one of the epigenetic phenomena which can be transferred to the offspring by cell division in the evolution of organisms. The epigenetic regulation accompanied by gene expression can be found directly in the phenotype of haploidy plants. DNA cytosine methylation at the 5'-CpCpGpG sites of haploid, Shuhui 527, Shuhui 363 and their hybrids was analyzed by methylation sensitive amplification polymorphism (MSAP) method. There were 765 DNA methylated sites detected and the methylation level was lower in hybrids than parents. Meanwhile, the different bands between hybrids and parents were analyzed and two types of methylated sites were detected, of which one inherited from haploid, and the other did not. The biological functions of genes related to methylated sites involved in cell structure, metabolize and response factor. Therefore, DNA methylated modifications can activate and silence the genes and play an important role in plant growth, development and evolution.
Author Wu Shao-hua XUE Jing-jing ZHANG Hong-yu Xu Pei-zhou Wu Xian-jun
AuthorAffiliation Rice Research Institute / Key Laboratory of Southwest Crop Genetic Resources and Improvement, Ministry of Education, SichuanAgricultural University, Chengdu 611130, China
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Notes DNA methylation is one of the epigenetic phenomena which can be transferred to the offspring by cell division in the evolution of organisms. The epigenetic regulation accompanied by gene expression can be found directly in the phenotype of haploidy plants. DNA cytosine methylation at the 5'-CpCpGpG sites of haploid, Shuhui 527, Shuhui 363 and their hybrids was analyzed by methylation sensitive amplification polymorphism (MSAP) method. There were 765 DNA methylated sites detected and the methylation level was lower in hybrids than parents. Meanwhile, the different bands between hybrids and parents were analyzed and two types of methylated sites were detected, of which one inherited from haploid, and the other did not. The biological functions of genes related to methylated sites involved in cell structure, metabolize and response factor. Therefore, DNA methylated modifications can activate and silence the genes and play an important role in plant growth, development and evolution.
33-1317/S
twin-seedling rice; haploid; methylation sensitive amplification polymorphism; DNA methylation
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PublicationTitle 水稻科学:英文版
PublicationTitleAlternate Rice science
PublicationYear 2012
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Snippet DNA methylation is one of the epigenetic phenomena which can be transferred to the offspring by cell division in the evolution of organisms. The epigenetic...
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StartPage 94
SubjectTerms DNA甲基化
Oryza
单倍体植株
双胚苗
基因组DNA
基因表达
杂交后代
杂交水稻
Title Special DNA Methylated Sites Between Haploid of Twin-Seedling and Its Hybrids in Rice (Oryza sativa)
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