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Author: Amala Kaja Publisher: ISBN: Category : Cancer Languages : en Pages : 0
Book Description
Eukaryotic gene expression to proteins is a complex process that begins with transcription which is regulated by numerous regulatory factors and signals. Alterations in these regulatory factors that modulate gene expression are linked with a multitude of cellular pathologies including cancers. Thus, it is important to delineate these transcriptional regulatory mechanisms of gene expression. Therefore, a large number of studies have been aimed at understanding the mechanism of transcription at the level of initiation, elongation, and termination. In line with this, my dissertation work is focused towards elucidating novel regulatory mechanisms of transcription initiation and elongation. Our results illuminate genetically how TOR (target of rapamycin) signaling pathway regulates transcription initiation and hence, transcription, in response to nutrients. The process of transcription initiation at the promoter is followed by RNA polymerase II (Pol II) pausing at the promoter-proximal site for mRNA capping/quality control. Such promoter-proximal pausing of Pol II (paused Pol II) plays an important role in regulating transcription elongation. Our results unveil how paused Pol II is released to engage into productive elongation for mRNA synthesis. We show that the capping enzyme, Cet1, targets a transcription factor known as FACT (facilitates chromatin transcription) which subsequently recruits a transcription elongation factor, Paf1C (RNA polymerase II- associated factor 1 [Paf1] complex), to release the paused Pol II for productive transcription elongation for mRNA synthesis. During such transcription elongation, histones need to be evicted in front of Pol II and reassembled in the wake of Pol II, and this dynamic histone disassembly and reassembly are coordinated by a number of histone chaperones. The aforementioned transcription factor, FACT, is one such histone chaperone that plays a key role in histone reassembly during transcription elongation. Importantly, we find a new regulation of FACT, by the ubiquitin-proteasome system (UPS), and hence, histone dynamics at the coding sequence and transcription. Specifically, the Spt16 component of FACT is ubiquitinated by the E3 ubiquitin ligase San1, and subsequently degraded by the 26S proteasome in yeast. Such proteasomal regulation of Spt16 subunit of FACT regulates transcription, and impairment of this UPS regulation alters transcription, leading to cellular pathologies. Indeed, SPT16 has been found to be associated with a lot of cancers, and our results show that this proteasomal degradation of SPT16 is impaired in cancer cells. Further, upregulation of SPT16 is associated with alterations in transcription of genes linked to cancer. Subsequent to its synthesis, mRNA needs to be exported to cytoplasm for translation to proteins. Importantly, transcription elongation has been found to be coupled to mRNA export, and like elongation, mRNA export is also controlled by UPS. Our findings demonstrate the role of active transcription in the proteasomal degradation of a key mRNA export factor, Sub2, mediated via Mdm30 (an F-box protein), thus, enhancing our understanding of the UPS regulation of mRNA export. Taken together, my dissertation work elucidates novel regulatory mechanisms of gene expression in response to nutrients and UPS, with implications in cellular pathologies including cancers.
Author: Amala Kaja Publisher: ISBN: Category : Cancer Languages : en Pages : 0
Book Description
Eukaryotic gene expression to proteins is a complex process that begins with transcription which is regulated by numerous regulatory factors and signals. Alterations in these regulatory factors that modulate gene expression are linked with a multitude of cellular pathologies including cancers. Thus, it is important to delineate these transcriptional regulatory mechanisms of gene expression. Therefore, a large number of studies have been aimed at understanding the mechanism of transcription at the level of initiation, elongation, and termination. In line with this, my dissertation work is focused towards elucidating novel regulatory mechanisms of transcription initiation and elongation. Our results illuminate genetically how TOR (target of rapamycin) signaling pathway regulates transcription initiation and hence, transcription, in response to nutrients. The process of transcription initiation at the promoter is followed by RNA polymerase II (Pol II) pausing at the promoter-proximal site for mRNA capping/quality control. Such promoter-proximal pausing of Pol II (paused Pol II) plays an important role in regulating transcription elongation. Our results unveil how paused Pol II is released to engage into productive elongation for mRNA synthesis. We show that the capping enzyme, Cet1, targets a transcription factor known as FACT (facilitates chromatin transcription) which subsequently recruits a transcription elongation factor, Paf1C (RNA polymerase II- associated factor 1 [Paf1] complex), to release the paused Pol II for productive transcription elongation for mRNA synthesis. During such transcription elongation, histones need to be evicted in front of Pol II and reassembled in the wake of Pol II, and this dynamic histone disassembly and reassembly are coordinated by a number of histone chaperones. The aforementioned transcription factor, FACT, is one such histone chaperone that plays a key role in histone reassembly during transcription elongation. Importantly, we find a new regulation of FACT, by the ubiquitin-proteasome system (UPS), and hence, histone dynamics at the coding sequence and transcription. Specifically, the Spt16 component of FACT is ubiquitinated by the E3 ubiquitin ligase San1, and subsequently degraded by the 26S proteasome in yeast. Such proteasomal regulation of Spt16 subunit of FACT regulates transcription, and impairment of this UPS regulation alters transcription, leading to cellular pathologies. Indeed, SPT16 has been found to be associated with a lot of cancers, and our results show that this proteasomal degradation of SPT16 is impaired in cancer cells. Further, upregulation of SPT16 is associated with alterations in transcription of genes linked to cancer. Subsequent to its synthesis, mRNA needs to be exported to cytoplasm for translation to proteins. Importantly, transcription elongation has been found to be coupled to mRNA export, and like elongation, mRNA export is also controlled by UPS. Our findings demonstrate the role of active transcription in the proteasomal degradation of a key mRNA export factor, Sub2, mediated via Mdm30 (an F-box protein), thus, enhancing our understanding of the UPS regulation of mRNA export. Taken together, my dissertation work elucidates novel regulatory mechanisms of gene expression in response to nutrients and UPS, with implications in cellular pathologies including cancers.
Author: Jane Y. Wu Publisher: Springer Science & Business Media ISBN: 364231659X Category : Medical Languages : en Pages : 256
Book Description
Accumulating evidence supports the role of defects in post-transcriptional gene regulation in the development of cancer. RNA and Cancer examines the recent advances in our understanding of post-transcriptional gene regulation, especially RNA processing and its role in cancer development and treatment. A particular focus is mRNA splicing, but other topics such as microRNAs, mRNA stability, the perinucleolar compartment, and oligonucleotide therapeutics are also covered in detail. All chapters have been written by internationally renowned experts. The book is intended for all with an interest in gene regulation and cancer biology, and especially for those not directly working on RNA biology, including clinicians and medical students. It is hoped that it will stimulate further innovative research collaborations between RNA biologists and cancer researchers to the benefit of patients.
Author: Surinder K. Batra Publisher: CRC Press ISBN: 1351778331 Category : Medical Languages : en Pages : 322
Book Description
Differential gene regulation and targeted therapy are the critical aspects of several cancers. This book covers specific gene regulation and targeted therapies in different malignancies. It offers a comprehensive assessment of the transcriptional dysregulation in cancer, and considers some examples of transcriptional regulators as definitive oncogenic drivers in solid tumors, followed by a brief discussion of transcriptional effectors of the programs they drive, and discusses its specific targets. Most targeted therapeutics developed to date have been directed against a limited set of oncogenic drivers, exemplified by those encoding cell surface or cytoplasmic kinases that function in intracellular signaling cascades.
Author: Vincenzo E. A. Russo Publisher: ISBN: Category : Medical Languages : en Pages : 716
Book Description
Many inheritable changes in gene function are not explained by changes in the DNA sequence. Such epigenetic mechanisms are known to influence gene function in most complex organisms and include effects such as transposon function, chromosome imprinting, yeast mating type switching and telomeric silencing. In recent years, epigenetic effects have become a major focus of research activity. This monograph, edited by three well-known biologists from different specialties, is the first to review and synthesize what is known about these effects across all species, particularly from a molecular perspective, and will be of interest to everyone in the fields of molecular biology and genetics.
Author: Robert C. Bast, Jr. Publisher: John Wiley & Sons ISBN: 111900084X Category : Medical Languages : en Pages : 2004
Book Description
Holland-Frei Cancer Medicine, Ninth Edition, offers a balanced view of the most current knowledge of cancer science and clinical oncology practice. This all-new edition is the consummate reference source for medical oncologists, radiation oncologists, internists, surgical oncologists, and others who treat cancer patients. A translational perspective throughout, integrating cancer biology with cancer management providing an in depth understanding of the disease An emphasis on multidisciplinary, research-driven patient care to improve outcomes and optimal use of all appropriate therapies Cutting-edge coverage of personalized cancer care, including molecular diagnostics and therapeutics Concise, readable, clinically relevant text with algorithms, guidelines and insight into the use of both conventional and novel drugs Includes free access to the Wiley Digital Edition providing search across the book, the full reference list with web links, illustrations and photographs, and post-publication updates
Author: Suming Huang Publisher: Academic Press ISBN: 0128004711 Category : Science Languages : en Pages : 484
Book Description
Epigenetic Gene Expression and Regulation reviews current knowledge on the heritable molecular mechanisms that regulate gene expression, contribute to disease susceptibility, and point to potential treatment in future therapies. The book shows how these heritable mechanisms allow individual cells to establish stable and unique patterns of gene expression that can be passed through cell divisions without DNA mutations, thereby establishing how different heritable patterns of gene regulation control cell differentiation and organogenesis, resulting in a distinct human organism with a variety of differing cellular functions and tissues. The work begins with basic biology, encompasses methods, cellular and tissue organization, topical issues in epigenetic evolution and environmental epigenesis, and lastly clinical disease discovery and treatment. Each highly illustrated chapter is organized to briefly summarize current research, provide appropriate pedagogical guidance, pertinent methods, relevant model organisms, and clinical examples. - Reviews current knowledge on the heritable molecular mechanisms that regulate gene expression, contribute to disease susceptibility, and point to potential treatment in future therapies - Helps readers understand how epigenetic marks are targeted, and to what extent transgenerational epigenetic changes are instilled and possibly passed onto offspring - Chapters are replete with clinical examples to empower the basic biology with translational significance - Offers more than 100 illustrations to distill key concepts and decipher complex science
Author: Carsten Carlberg Publisher: Springer Nature ISBN: 3030756998 Category : Medical Languages : en Pages : 179
Book Description
Cancer is a collection of diseases that can affect basically every organ of our body, all of which have in common uncontrolled cellular growth. The cells forming our body have the potential to grow in the context of wound healing or for the constant replacement of cells in our blood, skin or intestine. Behind every newly diagnosed malignant tumor in adulthood there is an individual history of probably 20 or more years of tumorigenesis. Therefore, malignant tumor formation often takes time making cancer in most cases to an aging-related disease that we seem not to be able to evade. However, tumorigenesis is dependent on multiple environmental influences, many of which we have under control by lifestyle decisions, such as retaining from smoking, selecting healthy food and being physically active. Thus, cancer preventive interventions are the most effective way to fight against cancer. This textbook wants not only to describe basic mechanisms leading to cancer but also to provide the readers with a more holistic view including cancer surveaillance mechanisms of the immune system. We will place these insights in the context of the personal consequences of everyone’s lifestyle decisions. The content of the book is linked to the lecture course in “Cancer Biology”, which is given by Prof. Carlberg since 2005 at the University of Eastern Finland in Kuopio. Moreover, biological processes explained in this book will be set into a clinical context using the experience of Dr. Velleuer in the daily care in oncology. This book also relates to the textbooks “Mechanisms of Gene Regulation: How Science Works” (ISBN 978-3-030-52321-3), “Human Epigenetics: How Science Works” (ISBN 978-3-030-22907-8) and “Nutrigenomics: How Science Works” (ISBN 978-3-030-36948-4), the studying of which may be interesting to readers who like to get more detailed information.
Author: Gerald M. Kolodny Publisher: CRC Press ISBN: 1351080385 Category : Medical Languages : en Pages : 190
Book Description
The cause of cancer and its many manifestations is at present unknown. Since many of its manifestations, including is control of cell division, appear to represent abnormal patterns of gene expression, studies of the regulation of gene expression nwill provide important insights in the understanding and treatment of cancer. This volume attempts to present some of the recent work on regulation of gene expression in eukaryotic cells.
Author: Mirko Beljanski, PhD Publisher: Demos Medical Publishing ISBN: 1617051829 Category : Medical Languages : en Pages : 221
Book Description
The Regulation of DNA Replication and Transcription explores basic processes of DNA replication and transcription in an effort to identify the mechanisms responsible for the release of genetic information and its role in the regulation of cellular events. Concerned with discovering the fundamental concept that might integrate and explain the wide range of existing lines of evidence, the author reports and interprets the results of experiments conducted in an impressive range of biological systems. Focused on complex mechanisms at the biochemical level, these studies allow analysis of the pathways involved when cells, organs and animal systems react to various trigger molecules derived from both living cells and exogenous sources. These include hormones, RNA, RNA fragments, alkaloids, actinomycin D, and phorbol esters, as well as chemical carcinogens and drugs. Comnining the results of these studies with his own extensive work in this field, the author is able to formulate a uniquely integrative biochemical model for the gene expression, demonstrating that both biological and chemically synthesized molecules can trigger the differential release of information from the DNA and thus influence cell transformation. Apart from its academic significance, the model offers high potential assistance in the search for ways to induce or control the expression of certain genes and, moreover, to promote differentiation of given cells in vitro as well as in situ.
Author: Amala Kaja
Author: Amala Kaja
Author: Jane Y. Wu
Author: Surinder K. Batra
Author: Vincenzo E. A. Russo
Author: Robert C. Bast, Jr.
Author: Suming Huang
Author: Carsten Carlberg
Author: 
Author: Gerald M. Kolodny
Author: Mirko Beljanski, PhD