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Author: Ricardo Benavente Publisher: Frontiers Media SA ISBN: 2832546021 Category : Science Languages : en Pages : 227
Book Description
Meiosis is a special type of cell division that allows the generation of haploid gametes and is a key process for sexual reproduction of animals, plants and fungi. Haploidization requires that meiotic cells undergo a series of unique processes; namely, pairing, synapsis, recombination and segregation of homologous chromosomes. This involves profound meiosis-specific changes in the protein composition and architecture of homologous chromosomes as well as of the condensation and folding of chromatin that require a critical timing and regulation. Despite this enormous complexity, different organisms may achieve haploidization through common molecular mechanisms. A major goal of this article collection is to provide an overview of how meiotic chromosomes and their components are critically involved in the mechanisms of haploidization and how dynamic protein complexes yield important structural intermediates and temporal regulation to this process. We welcome submissions of original articles, mini-reviews and review articles dealing with the composition, architecture, function and regulation of meiotic chromosomes of animals, plants and fungi using microscopic, biochemical, molecular, genetic and/or ‘omic’ techniques.
Author: Ricardo Benavente Publisher: Frontiers Media SA ISBN: 2832546021 Category : Science Languages : en Pages : 227
Book Description
Meiosis is a special type of cell division that allows the generation of haploid gametes and is a key process for sexual reproduction of animals, plants and fungi. Haploidization requires that meiotic cells undergo a series of unique processes; namely, pairing, synapsis, recombination and segregation of homologous chromosomes. This involves profound meiosis-specific changes in the protein composition and architecture of homologous chromosomes as well as of the condensation and folding of chromatin that require a critical timing and regulation. Despite this enormous complexity, different organisms may achieve haploidization through common molecular mechanisms. A major goal of this article collection is to provide an overview of how meiotic chromosomes and their components are critically involved in the mechanisms of haploidization and how dynamic protein complexes yield important structural intermediates and temporal regulation to this process. We welcome submissions of original articles, mini-reviews and review articles dealing with the composition, architecture, function and regulation of meiotic chromosomes of animals, plants and fungi using microscopic, biochemical, molecular, genetic and/or ‘omic’ techniques.
Author: Publisher: Elsevier ISBN: 0128201622 Category : Science Languages : en Pages : 390
Book Description
Meiosis in Development and Disease, Volume 151 in the Current Topics in Developmental Biology series, highlights new advances in the field, with this new volume presenting interesting chapters on topics such as The initiation stages of meiosis, The molecular basis and dynamics of meiotic cohesions, and their significance in human infertility, Chromatin, recombination, and the centromeres, Sites and structures that mediate segregation when crossing over calls out sick/Life (or at Least Meiosis) Without Crossing Over, Crossover maturation inefficiency, Non coding RNA mediated gene regulation in meiosis, Short chromosomes in meiotic recombination, Chromatin level changes during meiosis initiation vs. oncogenesis, and much more. Other sections of note include Chromosomal speciation revisited: Meiotic recombination and synapsis of evolutionary diverged homologs, Recombination suppression at specific chromosome regions, Unwinding during stressful times - mechanisms of helicases in meiotic recombination, Meiotic functions of PCH-2/TRIP13 and HORMADs, Crossover interference, Checkpoint control in meiotic prophase: Idiosyncratic demands require unique characteristics, The breadth of meiotic drive genes and mechanisms across the tree of life, and many more interesting topics. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Current Topics in Developmental Biology series - Updated release includes the latest information on the Meiosis in Development and Disease
Author: Sarah Ur Publisher: ISBN: Category : Languages : en Pages : 140
Book Description
Meiosis, a hallmark of sexual reproduction, entails the division of one diploid parent cell into four haploid gamete daughter cells. To support proper chromosome segregation in two successive meiotic divisions, meiotic chromosomes must undergo dramatic structural changes in meiotic prophase to identify and pair with their corresponding homolog. This chromosomal structural rearrangement is accomplished through meiotic recombination, a process that inflicts double strand break damage on the chromosomes and necessitates their repair using their homologous sequence, in some cases forming an inter-homolog crossover. This work begins by reviewing meiotic chromosome structure, and how it supports meiotic recombination. In order to understand the structural context of meiotic recombination I begin by reviewing higher-order data on how entire chromosomes are packaged and ordered during meiosis then zoom into well-known structures such as the chromosome axis, the synaptonemal complex, and their individual protein components. The chapters on my experimental work begin by examining a Chromatin Binding Region (CBR) in the yeast meiotic HORMAD Hop1, a component of the chromosome axis. I demonstrate how the CBR is responsible for a secondary mode of chromosome axis deposition through its capability to bind directly nucleosomes. This secondary mechanism functions alongside a previously defined cohesin dependent chromosome axis assembly mechanism, and I hypothesize that this second mode of axis assembly enables crossover formation in an as-yet unknown manner. I next examine the Msh4-Msh5 complex in an attempt to define its role in shuttling double strand DNA breaks towards a crossover fate. Through careful biochemistry, I demonstrate that the preferred DNA substrate of the S. cerevisiae Msh4-Msh5 is a Holliday junction, and I identify the critical regions in both Msh4 and Msh5 for this activity. My last study aims to examine meiotic recombination from a larger perspective. In order to determine how individual proteins interplay on the chromatin throughout the process of meiotic prophase I, I developed a mass spectroscopy protocol to assay a meiotic time-course of S. cerevisiae chromosomes. With this protocol I created a spatial and temporal atlas of chromatin associated proteins, which details how proteins assemble and disassemble throughout meiotic prophase I. As a whole this thesis provides an extensive review of the field of meiotic chromosome architecture, defines molecular mechanisms of individual protein assembly during meiosis, and demonstrates the proteomic context for interhomolog recombination.
Author: Masuda Sharifi Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Meiosis is an important process for species survival and genetic diversity that promotes reproductive resilience. The process begins with diploid cells that undergo DNA replication followed by two rounds of cell division (meiosis I and meiosis II) to produce haploid gametes (sperm and egg). Inaccuracy in chromosome segregation results in aneuploidy, which is the cause of many developmental defects in humans. Zebrafish, Danio rerio, is an excellent vertebrate model organism to study key meiotic dynamics because the temporal and spatial transition of meiotic events all occur within the telomere bouquet hub-the site of homolog recognition, pairing and synapsis initiation. While it is known that the early stages of male and female meiotic prophase I are indistinguishable and characterized by polarized double stranded breaks (DSBs) formation, the relationship between sex-specific chromosome structural components and meiotic program modulation has not been extensively explored. Here I show that Rad21l1, a meiotic specific cohesin, does not function in the same pathway as Spo11, a protein required for DSBs formation to modulate the female meiotic program. Furthermore, I show that homologous chromosomes share a nonrandom distribution of cohesin, indicating that homologs can identify one another through complementary chromosome features at the protein level. These findings provide further insight into chromosome features and architecture promoting meiotic pairing and recombination.
Author: Oldenburg Oldenburg Press Publisher: ISBN: 9781523764426 Category : Languages : en Pages : 40
Book Description
HiC-Pro is an optimized and flexible pipeline for processing Hi-C data from raw reads to normalized contact maps. HiC-Pro maps reads, detects valid ligation products, performs quality controls and generates intra- and inter-chromosomal contact maps. It includes a fast implementation of the iterative correction method and is based on a memory-efficient data format for Hi-C contact maps. In addition, HiC-Pro can use phased genotype data to build allele-specific contact maps. We applied HiC-Pro to different Hi-C datasets, demonstrating its ability to easily process large data in a reasonable time. Source code and documentation are available at http://github.com/nservant/HiC-Pro.
Author: Rafael A. Fissore Publisher: Frontiers Media SA ISBN: 2889459446 Category : Languages : en Pages : 145
Book Description
The Research Topic aims to support progress towards understanding the different sets of developmental processes that are absolutely required to complete all the steps essential for successful embryonic development, under physiological conditions. We sought contributions that dealt with single cells, interaction between cells as well as intra- and extracellular signal transduction. The Research Topic presents original studies covering experimental and theoretical approaches, descriptions of new methodologies, reviews and opinions.
Author: Ben E. Black Publisher: Springer ISBN: 3319585924 Category : Science Languages : en Pages : 552
Book Description
This book presents the latest advances concerning the regulation of chromosome segregation during cell division by means of centromeres and kinetochores. The authors cover both state-of-the-art techniques and a range of species and model systems, shedding new light on the molecular mechanisms controlling the transmission of genetic material between cell divisions and from parent to offspring. The chapters cover five major areas related to the current study of centromeres and kinetochores: 1) their genetic and epigenetic features, 2) key breakthroughs at the molecular, proteomic, imaging and biochemical level, 3) the constitutive centromere proteins, 4) the role of centromere proteins in the physical process of chromosome segregation and its careful orchestration through elaborate regulation, and 5) intersections with reproductive biology, human health and disease, as well as chromosome evolution. The book offers an informative and provocative guide for newcomers as well as those already acquainted with the field.
Author: Ricardo Benavente
Author: Ricardo Benavente
Author: Ivana Novak
Author: Katharina Schücker
Author: 
Author: Sarah Ur
Author: Masuda Sharifi
Author: Oldenburg Oldenburg Press
Author: Wei Li
Author: Rafael A. Fissore
Author: Ben E. Black