Epigenetic control of gene expression occurs at two distinctlevels: DNA methylation and histone modification. Over thepast 10 years, the discovery of epigenetic targets has acceleratedto the point where more than 400 domains have beenidentified that are involved in either DNA methylation, themodification of histones (and some nonhistones), or translationof these modifications into changes in ge...

objective(s): epigenetic regulation of gene expression can be carried out through chromatin remodeling enzymes such as swi/snf. brg1 also known as smarca4 is a catalytic subunit of swi/snf, which is necessary for mmps expression. matrix metalloproteinases (mmps) are known as important player enzymes during tumor progression and metastasis. aberrant epigenetic modification of chromatin should be...

Epigenetics refers to the heritable changes in gene expression without any alteration in DNA sequence, including DNA methylation, histone modification and chromatin conformation. Epigenomics deals with global analyses of epigenetic changes across the entire genome. In the fields of epigenetics and epigenomics, DNA methylation has been drawn a special attention because of its close correlation t...

Abiotic stress induces several changes in plants at physiological and molecular level. Plants have evolved regulatory mechanisms guided towards establishment of stress tolerance in which epigenetic modifications play a pivotal role. We provide examples of gene expression changes that are brought about by conversion of active chromatin to silent heterochromatin and vice versa. Methylation of CG ...

Epigenetic modification of chromatin has been proposed to translate environmental stimuli into persistent "cellular memories." Recent studies suggest that epigenetic pathways regulate long-term behavioral adaptation in the nervous system. In this issue of Neuron, Renthal et al. utilize genetic manipulations of HDAC5 to provide strong evidence for a role for histone acetylation in the behavioral...

All terrestrial life is influenced by multi-directional flows of information about its environment, enabling malleable phenotypic change through signals, chemical processes, or various forms of energy that facilitate acclimatization. Billions of biological co-inhabitants of the earth, including all plants and animals, collectively make up a genetic/epigenetic ecosystem by which adaptation/survi...

Major depressive disorder (MDD) is a chronic disease whose neurological basis and pathophysiology remain poorly understood. Initially, it was proposed that genetic variations were responsible for the development of this disease. Nevertheless, several studies within the last decade have provided evidence suggesting that environmental factors play an important role in MDD pathophysiology. Alterat...

Unlike the genome, the epigenome can be modified and hence some epigenetic risk markers have the potential to be reversed. Such modifications take place by means of drugs, diet or environmental exposures. It is widely accepted that epigenetic modifications take place during early embryonic and primordial cell development, but it is also important that we gain an understanding of the potential f...

Genome instability is a prerequisite for the development of cancer. It occurs when genome maintenance systems fail to safeguard the genome's integrity, whether as a consequence of inherited defects or induced via exposure to environmental agents (chemicals, biological agents and radiation). Thus, genome instability can be defined as an enhanced tendency for the genome to acquire mutations; rang...

100-250 words) How do mammalian cells that share the same genome exist in notably distinct phenotypes, exhibiting differences in morphology, gene expression patterns, and epigenetic chromatin statuses? Furthermore how do cells of different phenotypes differentiate reproducibly from a single fertilized egg? These are fundamental problems in developmental biology. Epigenetic histone modifications...