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Cellular polarization is key to all cellular functions. Our perceptions, which are derived from our senses, depend on the proper cellular polarization of our sense organs, such as the eyes or ears. Much of this book examines the different aspects in cellular polarization and its researched role in the Drosophila, where the first planar cellular polarity (PCP) gene was discovered over 20 years ago. Topics also include: From flies to man: how we are polarized, Marking an embryo work, Cellular polarization at its functional best, Hearing and seeing your environment, and From a cell to an organ. This series represents timely issues in developmental biology. It provides annual reviews of selected topics, written from the perspectives of leading investigators in the field of development. * Presents many various organisms such as flies, fish, frogs and mice * Offers over 40 exceptional illustrations * First of its kind to include new data and detailed models on cell planar polarization
Cell Polarity in Development and Disease offers insights into the basic molecular mechanisms of common diseases that arise as a result of a loss of ordered organization and intrinsic polarity. Included are diseases affecting highly polarized epithelial tissues in the lung and kidney, as well as loss and gain of cell polarity in the onset and progression of cancer. This book provides a basic resource for understanding the biology of polarity, offering a starting point for those thinking of targeting cell polarity for translational medical research. Provides basic science understanding of cell polarity disease and development Covers diseases affecting polarized epithelial tissues in the lung and kidney, also covering the progression of cancer Includes historical context of cell polarity research for potential future breakthroughs
Cell Polarity in Development and Disease offers insights into the basic molecular mechanisms of common diseases that arise as a result of a loss of ordered organization and intrinsic polarity. Included are diseases affecting highly polarized epithelial tissues in the lung and kidney, as well as loss and gain of cell polarity in the onset and progression of cancer. This book provides a basic resource for understanding the biology of polarity, offering a starting point for those thinking of targeting cell polarity for translational medical research.
This new volume of Current Topics in Developmental Biology covers the area of Planar Cell Polarity with contributions from an international board of authors. The 12 chapters provide a comprehensive set of reviews covering such topics as PCP in Zebra fish, the role of Dishevelled in PCP regulation, and PCP in axon pathfinding. Covers the area of planar cell polarity International board of authors 12 chapters provide a comprehensive set of reviews covering such topics as planar cell polarity in Zebrafish, the role of disheveled in planar cell polarity regulation, and planar cell polarity in axon path finding
Cell Polarity and Morphogenesis, the latest volume in the Methods in Cell Biology series, looks at cell polarity and morphogenesis. Edited by leaders in the field, this volume provides proven, state-of-art techniques, along with relevant historical background and theory, to aid researchers in efficient design and effective implementation of experimental methodologies.
Intracellular cell signaling is a well understood process. However, extracellular signals such as hormones, adipokines, cytokines and neurotransmitters are just as important but have been largely ignored in other works. Aimed at medical professionals and pharmaceutical specialists, this book integrates extracellular and intracellular signalling processes and offers a fresh perspective on new drug targets.
Cell Polarity in Development and Disease, Volume 154 in the Methods in Cell Biology series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of timely topics, including Cell polarity in the protist-to-animal transition, Polarized actin networks in development: Case studies from Drosophila, Protein clustering and cell polarization, Polarity in the Drosophila female germline, Context Matters: Mechanisms governing epithelial polarization in C. elegans, Epithelial polarity in the fly: Principles and diversity, Polarizing epithelial expulsion and expulsion driven by mispolarization, The Role of Apical-Basal Polarization in the Mammalian First Cell Fate Decision, and much more. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Methods in Cell Biology series Updated release includes the latest information on Cell Polarity in Development and Disease
Abstract Establishing Planar Cell Polarity in an Edgeless Epithelium By Katherine Ruth Lipari Doctor of Philosophy in Molecular and Cell Biology University of California, Berkeley Professor David Bilder, Chair In all animals, organ function is dependent on two major processes that happen in the very beginning of embryonic development: differentiation and morphogenesis. In this study we focus on the process of morphogenesis, studying the planar cell polarity (PCP) pathway, a process that acts perpendicular to the apical-basal axis to orient the cell within the larger environment. From the elongation and closure of the entire central nervous system during neural tube closure, to the subtle orientation of hairs on the skin of a mammal, PCP dictates gross morphological events by first polarizing subcellular structures. Most of our knowledge about PCP derives from the Drosophila wing, where two well-characterized signaling pathways are currently known to regulate PCP: Fz/Vang PCP and Fat/Ds signaling. These two pathways have also been implicated in vertebrate PCP; despite vigorous investigation, there is a surprising paucity of data on how these pathways are shaping vertebrate organs, beyond the fact that they do. One major limitation is that PCP has been most deeply studied in organs with a fundamentally different topology than the tubules that make up the majority of animal organs. While planar polarization of proteins within the cells of the Drosophila wing align with the edge of the wing, causing elongation in the direction of polarization, vertebrate planar polarity proteins align perpendicular to later elongation and do not orient towards the edge of the tissue. Indeed, vertebrate tubular organs do not have similar edges to dictate orientation; they are 'edgeless' tissues. To study how planar polarization occurs in such structures we use the Drosophila egg chamber as a model. This tissue undergoes planar polarization perpendicular to the axis of elongation - similar to other tubule elongation - and depends upon the Fat2 cadherin for planar polarization and elongation. In this dissertation I show that planar polarization in this tissue is established early during development of the tissue - at the level of a few cells - by biased microtubule growth. This bias is then propagated by rotation of the entire tissue to create planar polarization of the overlying extracellular matrix to establish a persistent orientation as the tissue grows. I find novel genetic enhancers of the Fat2 mutant phenotype that identify genes involved in this early event and later morphogenetic events. I also study what cells within the epithelium itself are necessary for this rotation to occur. Overall, my thesis work has shown how planar polarization is established and propagated in edgeless tissues through tissue migration.
The establishment of polarity is a fundamental feature in eukaryotic development. Polarity in Plants provides an account of current research into the mechanisms by which polarity is generated at the level of the cell, organ and organism in plants, drawing especially on recent work with model organisms. The emphasis is on the use of the techniques of molecular genetics to dissect molecular mechanisms. This is the first volume to bring together the diverse aspects of polarity in plant development.
This work provides a state-of-the art overview on the most relevant aspects of cell polarity. Volume 2 discusses the physiological and pathophysiological relevance of cell polarity. It especially focuses on pathophysiological conditions in which one or several aspects of cell polarity are impaired, and in which a loss of cell polarity possibly contributes to disease (e.g. epithelial-to-mesenchymal transition in cancer, role of polarity proteins in cancer). Both volumes are intended for professors, group leaders and researchers in cell biology as well as for medical professionals working in anatomy, cell biology, physiology, pathology and tumor biology.