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Unexplored potentials of epigenetic mechanisms of plants and animals-theoretical considerations.


ABSTRACT: Morphological and functional changes of cells are important for adapting to environmental changes and associated with continuous regulation of gene expressions. Genes are regulated-in part-by epigenetic mechanisms resulting in alternating patterns of gene expressions throughout life. Epigenetic changes responding to the environmental and intercellular signals can turn on/off specific genes, but do not modify the DNA sequence. Most epigenetic mechanisms are evolutionary conserved in eukaryotic organisms, and several homologs of epigenetic factors are present in plants and animals. Moreover, in vitro studies suggest that the plant cytoplasm is able to induce a nuclear reassembly of the animal cell, whereas others suggest that the ooplasm is able to induce condensation of plant chromatin. Here, we provide an overview of the main epigenetic mechanisms regulating gene expression and discuss fundamental epigenetic mechanisms and factors functioning in both plants and animals. Finally, we hypothesize that animal genome can be reprogrammed by epigenetic factors from the plant protoplast.

SUBMITTER: Seffer I 

PROVIDER: S-EPMC4222336 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Unexplored potentials of epigenetic mechanisms of plants and animals-theoretical considerations.

Seffer Istvan I   Nemeth Zoltan Z   Hoffmann Gyula G   Matics Robert R   Seffer A Gergely AG   Koller Akos A  

Genetics & epigenetics 20130630


Morphological and functional changes of cells are important for adapting to environmental changes and associated with continuous regulation of gene expressions. Genes are regulated-in part-by epigenetic mechanisms resulting in alternating patterns of gene expressions throughout life. Epigenetic changes responding to the environmental and intercellular signals can turn on/off specific genes, but do not modify the DNA sequence. Most epigenetic mechanisms are evolutionary conserved in eukaryotic or  ...[more]

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