Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation

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Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation. / Jalili, Mahsa; Pati, Sanghamitra; Rath, Bandita; Bjørklund, Geir; Singh, Ram B.

I: Open Nutraceuticals Journal, Bind 6, Nr. 1, 2013, s. 27-34.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Jalili, M, Pati, S, Rath, B, Bjørklund, G & Singh, RB 2013, 'Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation', Open Nutraceuticals Journal, bind 6, nr. 1, s. 27-34. https://doi.org/10.2174/1876396001306010027

APA

Jalili, M., Pati, S., Rath, B., Bjørklund, G., & Singh, R. B. (2013). Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation. Open Nutraceuticals Journal, 6(1), 27-34. https://doi.org/10.2174/1876396001306010027

Vancouver

Jalili M, Pati S, Rath B, Bjørklund G, Singh RB. Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation. Open Nutraceuticals Journal. 2013;6(1):27-34. https://doi.org/10.2174/1876396001306010027

Author

Jalili, Mahsa ; Pati, Sanghamitra ; Rath, Bandita ; Bjørklund, Geir ; Singh, Ram B. / Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation. I: Open Nutraceuticals Journal. 2013 ; Bind 6, Nr. 1. s. 27-34.

Bibtex

@article{4c5ccf70407249afb4c2abfcab117648,
title = "Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation",
abstract = "Major research progress in the last few decades has elucidated the complex nexus between nutrition and health. Diet and lifestyle influence epigenetic changes that are heritable. However, a statement of reservation is needed here, viz. that it is often difficult to distinguish between epigenetic changes that are inherited from one generation to the next and true mutations, for instance in mitochondrial DNA. The last topic is a big one in its own right and will not be further discussed in this article. Epigenetic changes induced by dietary nutrients ultimately culminate in changes of the expression of genes through transcription and translation. The interaction between dietary nutrients and nuclear receptors triggers the signaling pathway, leading to modulation of epigenetic change and gene expression. Knowledge about nuclear receptors is important for explaining dietary modulation of transcription via recruitment of large protein complexes. These proteins are capable of causing modification of chromosomal components, can influence chromatin proteins, and affect the binding of proteins to particular parts of the DNA molecules controlling the expression of individual genes. Chromatin complexes between DNA and proteins can be destabilized by recruitment of transcriptional coactivators by histone acetylation. However, in the presence of hormone antagonists or in the absence of relevant ligands, recruitment of other cellular core proteins may stabilize chromatin by their influence on histone deacetylases, thus antagonizing the effect of enzymes causing histone acetylation. This article reviews the current knowledge on nutritional modulation of bioactive molecules by epigenetic changes, if they can regulate genetic expressions. The molecular mechanism of action of various dietary nutrients on gene expression mediated by nuclear receptors is also discussed.",
keywords = "Diet, Epigenetic changes, Gene expression, Nuclear receptors, Nutrition, Transcription",
author = "Mahsa Jalili and Sanghamitra Pati and Bandita Rath and Geir Bj{\o}rklund and Singh, {Ram B}",
note = "(Ekstern)",
year = "2013",
doi = "10.2174/1876396001306010027",
language = "English",
volume = "6",
pages = "27--34",
journal = "Open Nutraceuticals Journal",
issn = "1876-3960",
publisher = "Bentham Science Publishers",
number = "1",

}

RIS

TY - JOUR

T1 - Effect of diet and nutrients on molecular mechanism of gene expression mediated by nuclear receptor and epigenetic modulation

AU - Jalili, Mahsa

AU - Pati, Sanghamitra

AU - Rath, Bandita

AU - Bjørklund, Geir

AU - Singh, Ram B

N1 - (Ekstern)

PY - 2013

Y1 - 2013

N2 - Major research progress in the last few decades has elucidated the complex nexus between nutrition and health. Diet and lifestyle influence epigenetic changes that are heritable. However, a statement of reservation is needed here, viz. that it is often difficult to distinguish between epigenetic changes that are inherited from one generation to the next and true mutations, for instance in mitochondrial DNA. The last topic is a big one in its own right and will not be further discussed in this article. Epigenetic changes induced by dietary nutrients ultimately culminate in changes of the expression of genes through transcription and translation. The interaction between dietary nutrients and nuclear receptors triggers the signaling pathway, leading to modulation of epigenetic change and gene expression. Knowledge about nuclear receptors is important for explaining dietary modulation of transcription via recruitment of large protein complexes. These proteins are capable of causing modification of chromosomal components, can influence chromatin proteins, and affect the binding of proteins to particular parts of the DNA molecules controlling the expression of individual genes. Chromatin complexes between DNA and proteins can be destabilized by recruitment of transcriptional coactivators by histone acetylation. However, in the presence of hormone antagonists or in the absence of relevant ligands, recruitment of other cellular core proteins may stabilize chromatin by their influence on histone deacetylases, thus antagonizing the effect of enzymes causing histone acetylation. This article reviews the current knowledge on nutritional modulation of bioactive molecules by epigenetic changes, if they can regulate genetic expressions. The molecular mechanism of action of various dietary nutrients on gene expression mediated by nuclear receptors is also discussed.

AB - Major research progress in the last few decades has elucidated the complex nexus between nutrition and health. Diet and lifestyle influence epigenetic changes that are heritable. However, a statement of reservation is needed here, viz. that it is often difficult to distinguish between epigenetic changes that are inherited from one generation to the next and true mutations, for instance in mitochondrial DNA. The last topic is a big one in its own right and will not be further discussed in this article. Epigenetic changes induced by dietary nutrients ultimately culminate in changes of the expression of genes through transcription and translation. The interaction between dietary nutrients and nuclear receptors triggers the signaling pathway, leading to modulation of epigenetic change and gene expression. Knowledge about nuclear receptors is important for explaining dietary modulation of transcription via recruitment of large protein complexes. These proteins are capable of causing modification of chromosomal components, can influence chromatin proteins, and affect the binding of proteins to particular parts of the DNA molecules controlling the expression of individual genes. Chromatin complexes between DNA and proteins can be destabilized by recruitment of transcriptional coactivators by histone acetylation. However, in the presence of hormone antagonists or in the absence of relevant ligands, recruitment of other cellular core proteins may stabilize chromatin by their influence on histone deacetylases, thus antagonizing the effect of enzymes causing histone acetylation. This article reviews the current knowledge on nutritional modulation of bioactive molecules by epigenetic changes, if they can regulate genetic expressions. The molecular mechanism of action of various dietary nutrients on gene expression mediated by nuclear receptors is also discussed.

KW - Diet

KW - Epigenetic changes

KW - Gene expression

KW - Nuclear receptors

KW - Nutrition

KW - Transcription

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U2 - 10.2174/1876396001306010027

DO - 10.2174/1876396001306010027

M3 - Journal article

AN - SCOPUS:84879180263

VL - 6

SP - 27

EP - 34

JO - Open Nutraceuticals Journal

JF - Open Nutraceuticals Journal

SN - 1876-3960

IS - 1

ER -

ID: 248338998