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RECORD NUMBER: 33 OF 211

OLS Field Name OLS Field Data
Main Title Chromatin and Disease [electronic resource] /
Type EBOOK
Author Kundu, Tapas K.
Other Authors
Author Title of a Work
Bittman, R.
Dasgupta, D.
Engelhardt, H.
Flohe, L.
Herrmann, H.
Holzenburg, A.
Nasheuer, H-P.
Rottem, S.
Wyss, M.
Zwickl, P.
Publisher Springer Netherlands,
Year Published 2007
Call Number QR46
ISBN 9781402054662
Subjects Medicine. ; Microbiology. ; Medical virology.
Internet Access
Description Access URL
http://dx.doi.org/10.1007/1-4020-5466-1
Collation XIII, 458 p. online resource.
Notes
Due to license restrictions, this resource is available to EPA employees and authorized contractors only
Contents Notes
Chromatin Structure, Dynamics and Disease -- Structural Organization of Dynamic Chromatin -- ATP-dependent Chromatin Remodelling -- Regulation of Chromatin Structure and Chromatin-Dependent Transcription by Poly(Adp-Ribose) Polymerase-1 -- Histone Variant Nucleosomes -- Histone Variants and Complexes Involved in Their Exchange -- Histone Chaperones in Chromatin Dynamics -- Functions Of The Histone Chaperone Nucleolin In Diseases -- Chromatin as a Target for the DNA-Binding Anticancer Drugs -- Nonhistone Proteins, Sites for Epigenetic Marks: Link to Disease -- Reversible Acetylation Of Non Histone Proteins -- MARs and MARBPs -- Epigenetic Modifications of Chromatin: Implication in disease and therapeutics -- Aberrant Forms of Histone Acetyltransferases in Human Disease -- Chromatin Acetylation Status in the Manifestation of Neurodegenerative Diseases -- Functions of Myst Family Histone Acetyltransferases and Their Link to Disease -- Role Of Histone Phosphorylation In Chromatin Dynamics And Its Implications in Diseases -- Regulation And Function Of H3K9 Methylation -- Histone Acetylation And Methylation -- Chromatin-Associated Regulation Of Hiv-1 Transcription -- Small Molecule Modulators In Epigenetics. It is more evident now than ever before that dynamic organization of human genome into nucleoprotein structure, chromatin confers the unique regulatory mechanisms for most of the cellular phenomena, which include replication, transcription, DNA repair, recombination and also apoptosis. The dynamic nature of the chromatin is regulated by chromatin modifications (epigenetic alterations), remodeling, histone chaperones and functional interactions of different chromatin interacting n- histone proteins. Dysfunction of this highly inter connected machineries disturb the cellular homoeostasis, and thereby causes several diseases. As we advance in our knowledge of chromatin function and also disease mechanisms in more details, their causal relationship is becoming more evident. This has lead to the identification of chromatin function as target for new generation therapeutics. In the light of these advances, it happens to be the right time to explore current insights into various aspect of chromatin and disease connection under one cover. Authors who are actively involved in chromatin research and have made several original contributions to develop latest paradigms in the field have written the chapters of this book. Significantly, the authors' repertoire is truly international. They come from eight different countries of Asia, Europe and America. The book has been divided into three different parts. Part I introduces the reader to the dynamic nature of chromatin structure and its link to diseases. First two chapters in this part deal with the chromatin architecture, chromatin dynamics in the cell cycle and molecular mechanism of chromatin remodeling.