000			02176cam a22003255a 4500
999			_c27400 _d27371
001			18369710
005			20190420110258.0
008			141112t2015 nyua frb 001 0 eng d
010			_a 2014044381
020			_a9780815345039 (alk. paper)
020			_a0815345038 (alk. paper)
035			_a(DNLM)101645990
040			_aDNLM/DLC _beng _cDLC _dDLC _dEG-ScBUE
082	0	4	_a572.865 _bLAT _222
100	1		_aLatchman, David S.
245	1	0	_aGene control / _cDavid S. Latchman.
250			_a2nd ed.
260			_aNew York : _bGarland Science / Taylor & Francis Group, _cc.2015.
300			_axxi, 505 p. : _bill. ; _c28 cm.
504			_aIncludes bibliographical references and index.
505	0		_aLevels of gene control -- Structure of chromatin -- Epigenome : role of chromatin structure in gene control -- Process of transcription -- Transcription factors and transcription control -- Post-transcriptional processes -- Post-transcriptional regulation -- Gene control and cellular signaling pathways -- Gene control in embryonic development -- Control of cell type specific gene expression -- Gene regulation and cancer -- Gene regulation in human disease -- Conclusion and future prospects.
520			_aThe new edition of Gene Control has been updated to include significant advances in the roles of the epigenome and regulatory RNAs in gene regulation. The chapter structure remains the same: the first part consists of pairs of chapters that explain the mechanisms involved and how they regulate gene expression, and the second part deals with specific biological processes (including diseases) and how they are controlled by genes. Coverage of methodology has been strengthened by the inclusion more explanation and diagrams. The significant revision and updating will allow Gene Control to continue to be of value to students, scientists and clinicians interested in the topic of gene control.
650		7	_aGenetic regulation. _2BUEsh
650		7	_aGene Expression Regulation _xphysiology. _2BUEsh
650		7	_aTranscription, Genetic _xphysiology. _2BUEsh
651			_2BUEsh
653			_bPPhrm _cApril2019
655			_vReading book
942			_2ddc