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Author: Jaclyn Geok Yueen Lim Publisher: ISBN: Category : Languages : en Pages :
Book Description
Adult stem cells are undifferentiated cells that are capable of both self-renewal and differentiation into a variety of specialized cells. Adult stem cell lineages have been identified in several organs including skin, blood, breast, intestine, bladder, skeletal muscle, prostate, and the testes. The changes in homeostatic conditions in these organs caused by tissue turnover or injury rely heavily on the pool of adult stem cells for cell replenishment. Therefore, the activity of adult stem cells must be tightly controlled, and many of these regulations are orchestrated by the stem cell niche, the local microenvironment in which stem cells reside. The fast generation cycle and the genetic tractability of fruit flies make the Drosophila testis stem cell niche an ideal system for the study of adult stem cell regulation. The Drosophila testis maintains two types of stem cells: germline stem cells (GSCs) which give rise to sperm, and cyst stem cells (CySCs) which differentiate into cyst cells that encapsulate germ cells. The somatic cyst cell lineage has been implicated to be required at several stages of spermatogenesis and play pivotal roles in germline proliferation, survival, and differentiation. This dissertation focuses on understanding the role of the cyst cell lineage in GSC maintenance and investigating the mechanisms by which cyst cells direct early germ cell differentiation. Previously, it has been proposed that CySCs are the source of instructive self-renewal cues for GSCs. In contrast to this model, I showed that early germ cells with GSC characteristics can be maintained in the absence of CySCs and cyst cells. These germ cells failed to enter the transit-amplifying program, which is regarded as the first step of differentiation in many adult stem cell lineages. My observations suggest that cyst cells provide a pro-differentiation environment for GSCs, and that this mechanism(s) may be repressed in CySCs which indirectly allow for GSC self-renewal. Encapsulation of germ cells by cyst cells is one of the differentiation-promoting mechanisms imposed by the soma on the germline, and I have uncovered that this process requires activation of the EGFR-Ras-MEK-MAPK pathway in differentiated cyst cells. Furthermore, I also showed that repression of EGFR activation in CySCs is important in maintaining the population of GSCs and CySCs at the niche, as premature activation of the pathway resulted in displacement of GSCs from the hub by somatic cells. Preliminary studies revealed a STAT target gene, Socs36E as a negative regulator of the EGFR pathway in CySCs to prevent out-competition of GSCs by somatic cells. To understand how the somatic cyst cells germline differentiation, I performed two genetic screens: an RNAi screen of genes that caused premature germ cell differentiation when misexpressed in the soma, and a misexpression screen of genes predicted to be cell-surface and secreted proteins. Three promising candidates were identified through these screens: two ribosomal subunits, Rpl13A and RpS10a; and a septate junction component, Neurexin IV. The two ribosomal proteins may be involved in the soma to promote germ cell encapsulation. Neurexin IV however, operates non-cell autonomously in cyst cells to regulate germ cell differentiation into spermatocytes. Together, the results of this dissertation emphasize the importance and complexity of the interaction between adult stem cells and their microenvironment in maintaining tissue homeostasis.
Author: Jaclyn Geok Yueen Lim Publisher: ISBN: Category : Languages : en Pages :
Book Description
Adult stem cells are undifferentiated cells that are capable of both self-renewal and differentiation into a variety of specialized cells. Adult stem cell lineages have been identified in several organs including skin, blood, breast, intestine, bladder, skeletal muscle, prostate, and the testes. The changes in homeostatic conditions in these organs caused by tissue turnover or injury rely heavily on the pool of adult stem cells for cell replenishment. Therefore, the activity of adult stem cells must be tightly controlled, and many of these regulations are orchestrated by the stem cell niche, the local microenvironment in which stem cells reside. The fast generation cycle and the genetic tractability of fruit flies make the Drosophila testis stem cell niche an ideal system for the study of adult stem cell regulation. The Drosophila testis maintains two types of stem cells: germline stem cells (GSCs) which give rise to sperm, and cyst stem cells (CySCs) which differentiate into cyst cells that encapsulate germ cells. The somatic cyst cell lineage has been implicated to be required at several stages of spermatogenesis and play pivotal roles in germline proliferation, survival, and differentiation. This dissertation focuses on understanding the role of the cyst cell lineage in GSC maintenance and investigating the mechanisms by which cyst cells direct early germ cell differentiation. Previously, it has been proposed that CySCs are the source of instructive self-renewal cues for GSCs. In contrast to this model, I showed that early germ cells with GSC characteristics can be maintained in the absence of CySCs and cyst cells. These germ cells failed to enter the transit-amplifying program, which is regarded as the first step of differentiation in many adult stem cell lineages. My observations suggest that cyst cells provide a pro-differentiation environment for GSCs, and that this mechanism(s) may be repressed in CySCs which indirectly allow for GSC self-renewal. Encapsulation of germ cells by cyst cells is one of the differentiation-promoting mechanisms imposed by the soma on the germline, and I have uncovered that this process requires activation of the EGFR-Ras-MEK-MAPK pathway in differentiated cyst cells. Furthermore, I also showed that repression of EGFR activation in CySCs is important in maintaining the population of GSCs and CySCs at the niche, as premature activation of the pathway resulted in displacement of GSCs from the hub by somatic cells. Preliminary studies revealed a STAT target gene, Socs36E as a negative regulator of the EGFR pathway in CySCs to prevent out-competition of GSCs by somatic cells. To understand how the somatic cyst cells germline differentiation, I performed two genetic screens: an RNAi screen of genes that caused premature germ cell differentiation when misexpressed in the soma, and a misexpression screen of genes predicted to be cell-surface and secreted proteins. Three promising candidates were identified through these screens: two ribosomal subunits, Rpl13A and RpS10a; and a septate junction component, Neurexin IV. The two ribosomal proteins may be involved in the soma to promote germ cell encapsulation. Neurexin IV however, operates non-cell autonomously in cyst cells to regulate germ cell differentiation into spermatocytes. Together, the results of this dissertation emphasize the importance and complexity of the interaction between adult stem cells and their microenvironment in maintaining tissue homeostasis.
Author: Steven X. Hou Publisher: Humana Press ISBN: 9781617378805 Category : Science Languages : en Pages : 0
Book Description
In this comprehensive and cutting-edge book, leading experts explore the parameters that define germline stem cells and the mechanisms that regulate the cell behavior in order to better isolate, characterize and maintain them. The volume begins by providing protocols for germline stem cell identification and regulation in model organisms, and concludes with detailed chapters covering current techniques involving in vitro culture and the applications of the cells.
Author: Michael Bate Publisher: ISBN: 9780879698997 Category : Science Languages : en Pages : 0
Book Description
The fruit fly Drosophila melanogaster offers the most powerful means of studying embryonic development in eukaryotes. New information from many different organ systems has accumulated rapidly in the past decade. This monograph, written by the most distinguished workers in the field, is the most authoritative and comprehensive synthesis of Drosophila developmental biology available and emphasizes the insights gained by molecular and genetic analysis. In two volumes, it is a lavishly illustrated, elegantly designed reference work illustrating principles of genetic regulation of embryogenesis that may apply to other eukaryotes.
Author: Kyle E. Orwig Publisher: Springer Science & Business Media ISBN: 1617379735 Category : Science Languages : en Pages : 269
Book Description
Scientists investigating germ cells have, over the past 15 years, originated discoveries and innovations that give us valuable insights into the mechanisms that regulate not just stem cell function, but human development in its widest sense. With contributions from some of the leading researchers in the field, Male Germline Stem Cells: Developmental and Regenerative Potential assesses the implications of these discoveries for understanding the fundamental biology of germline stem cells as well as their potential for human stem cell-based therapies. This monograph covers many of the fundamental issues now being explored by today’s generation of stem cell researchers, including the field’s potential for regenerative medicine. Ranging from an assessment of the pluripotency of primordial germ cells and their possible applications in treating testicular cancer, to the recovery of once-mordant fertilization-competent sperm, this volume has it all. It is a reference point for any scientist involved in related research as well as being a timely summation of what could prove to be a hugely exciting and very fruitful area of inquiry.
Author: Michael Buszczak Publisher: Humana ISBN: 9781493940158 Category : Science Languages : en Pages : 0
Book Description
This second edition provides updated and new chapters on selected genetic, molecular, biochemical, and cell biological techniques. Chapter’s guide readers through methods and principles on primordial germ cells and germline stem cells, however many of these principles can be applied to different types of adult stem cells. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Germline Stem Cells: Second Edition aims to present the new findings and techniques that have developed since the first edition.
Author: Swathi Arur Publisher: Springer ISBN: 331944820X Category : Science Languages : en Pages : 296
Book Description
This volume covers the current knowledge base on the role of signaling and environmental pathways that control the normal development of germline stem cells, meiotic progression of oocytes, events of oocyte maturation and fertilization, and the birth of an embryo. Germ cells are uniquely poised to sustain life across generations through the fusion of oocyte and sperm. Because of the central importance of germ cells to life, much work has been dedicated to obtaining a clear understanding of the molecular and signaling events that control their formation and maintenance. Germ cells are set aside from somatic cells in the embryo and go through specialized meiotic cell cycles as the animal matures. These cell cycles are interspersed with long periods of arrest. In human females, meiosis I is initiated in the fetus. At birth, oocytes are arrested in meiosis I; after puberty, every month an oocyte initiates meiosis II – ovulation. Upon sperm availability these cells are fertilized, generate an embryo, and the cycle-of-life continues. During meiotic I progression and arrest, the fitness of oocytes and their progeny are likely influenced by environmental cues and signaling pathways. A lot of recent work has focused on understanding the mechanisms that regulate oocyte fitness and quality in humans and vertebrates. Much of our understanding on the events of meiosis I and germline stem cell populations comes from work in invertebrates, wherein the germline stem cells produce oocytes continuously through adult development. In both inverbrates and vertebrates nutritional and signaling pathways control the regulation of stem cells in such a manner so as to couple production of gametes with the nutritional availability. Additionally, mature oocytes arrest both in meiosis I and meiosis II, and signaling and nutritional pathways have been shown to regulate their formation, and maintenance, such that despite long periods of arrest, the oocyte quality is assured and errors in chromosome segregation and varied cytoplasmic events are minimal.
Author: Daryl S. Henderson Publisher: Springer Science & Business Media ISBN: 1592596657 Category : Science Languages : en Pages : 467
Book Description
Leading drosophilists describe in step-by-step detail all the essential techniques for studying Drosophila chromosomes and suggest new avenues for scientific exploration. The chapters emphasize specimen preparation (from dissection to mounting) and cover both polytene and mitotic/meiotic chromosomes in depth. Each fully tested and readily reproducible protocol offers a background introduction, equipment and reagent lists, and tips on troubleshooting and avoiding pitfalls. A cutting-edge FISH and immunolocalization technique will be important for discovering how DNA sequence influences higher-order chromosome architecture and ultimately gene expression.
Author: Rajender Singh Publisher: CRC Press ISBN: 0429534426 Category : Medical Languages : en Pages : 338
Book Description
Spermatogenesis involves the coordination of a number of signaling pathways, which culminate into production of sperm. Its failure results in male factor infertility, which can be due to hormonal, environmental, genetic or other unknown factors. This book includes chapters on most of the signaling pathways known to contribute to spermatogenesis. Latest research in germ cell signaling like the role of small RNAs in spermatogenesis is also discussed. This book aims to serve as a reference for both clinicians and researchers, explaining possible causes of infertility and exploring various treatment methods for management through the basic understanding of the role of molecular signaling. Key Features Discusses the signaling pathways that contribute to successful spermatogenesis Covers comprehensive information about Spermatogenesis at one place Explores the vital aspects of male fertility and infertility Explains the epigenetic regulation of germ cell development and fertility Highlights the translational opportunities in molecular signaling in testis
Author: Publisher: Academic Press ISBN: 0080859429 Category : Science Languages : en Pages : 789
Book Description
Drosophila melanogaster: Practical Uses in Cell and Molecular Biology is a compendium of mostly short technical chapters designed to provide state-of-the art methods to the broad community of cell biologists, and to put molecular and cell biological studies of flies into perspective. The book makes the baroque aspects of genetic nomenclature and procedure accessible to cell biologists. It also contains a wealth of technical information for beginning or advanced Drosophila workers. Chapters, written within a year of publication, make this topical volume a valuable laboratory guide today and an excellent general reference for the future.Key Features* Collection of ready-to-use, state-of-the art methods for modern cell biological and related research using Drosophila melanogaster* Accessible to both experienced Drosophila researchers and to others who wish to join in at the cutting edge of this system * Drosophila offers an easily managed life cycle, inexpensive lifestyle, extraordinarily manipulable molecular and classical genetics, now combined with powerful new cell biology techniques * Introduction and overview sections orient the user to the Drosophila literature and lore * Six full-color plates and over 100 figures and tables enhance the understanding of these cell biology techniques
Author: Kazuya Kobayashi Publisher: Springer ISBN: 4431566090 Category : Science Languages : en Pages : 783
Book Description
This book provides new insights into the universality of biological systems in animal reproduction and development by a comparative study of a variety of mechanisms in animals ranging from basal invertebrates to vertebrates, including mammals. Animals accomplish genetic diversity through meiosis and fertilization, and during embryogenesis animals must produce specialized cell types, including germ cells, in accordance with their individual body plan. This series of phenomena is essential to the continuity of life in the animal kingdom, and animals show various reproductive and developmental strategies. This volume, comprising four parts, reviews animal kingdom diversity, including reproductive strategies and germ cell differentiation mechanisms (Part 1), sex determination and differentiation (Part2), the mechanisms of fertilization (Part 3), and body axis formation (Part 4). Readers will find descriptions of the reproduction or development of 180 species, 13 phyla, 35 classes, 74 orders, 117 families, and 151 genera in this book. Of particular interest is the diversity of molecules and mechanisms used to achieve the same biological purpose in different animals. Undergraduates, graduate students, and professional scientists who want a deeper understanding of animal reproductive and developmental mechanisms will find this book to be of great value.
Author: Jaclyn Geok Yueen Lim
Author: Jaclyn Geok Yueen Lim
Author: Steven X. Hou
Author: Michael Bate
Author: Kyle E. Orwig
Author: Michael Buszczak
Author: Swathi Arur
Author: Daryl S. Henderson
Author: Rajender Singh
Author: 
Author: Kazuya Kobayashi