Reprint
Male Germline Chromatin
Edited by
October 2020
144 pages
- ISBN978-3-03936-854-9 (Hardback)
- ISBN978-3-03936-855-6 (PDF)
This book is a reprint of the Special Issue Male Germline Chromatin that was published in
Biology & Life Sciences
Summary
Spermatogenesis requires radical restructuring of germline chromatin at multiple stages, involving coordinated waves of DNA methylation/demethylation, histone modification, and the replacement and removal that occurs before, during, and after meiosis. This Special Issue will draw together papers that address all aspects of chromatin organization and dynamics in the male germ line, in humans, and in model organisms. In particular, we will invite authors to discuss novel methods for studying germline chromatin structure, the interplay between chromatin structure and susceptibility to DNA damage and mutation, chromatin modifications associated with epigenetic inheritance in the early embryo, and the impact this work has for understanding natural fertility and improving assisted reproduction techniques.
Format
- Hardback
License
© 2020 by the authors; CC BY-NC-ND license
Keywords
mouse sperm chromatin; chromosome organization; nuclear-3D-parameters; spermiogenesis; chromatin remodeling; DNA double-strand breaks; genetic instability; mutations; sperm DNA damage; DNA fragmentation; infertility; assisted reproduction; miscarriage; implantation; nuclear organization; sperm; morphometrics; chromosome painting; nucleoli; NOR; chromosome associations; meiotic prophase; spermatocytes; Mus m. domesticus; Robertsonian chromosomes; chromosome translocation; Y chromosome; testis; spermatogenesis; SLY; mouse; infertility; assisted reproduction; oxidative stress; reactive oxygen species; chromatin; DNA fragmentation; DNA oxidation; male infertility; spermatogenesis; nuclear organization; chromatin; spermatozoa; chromosomes; chromosome territories; centromeres; male germ cells; spermatogenesis; sperm; telomeres; chromatin; reproductive aging; spermatogenesis; chromatin; nuclear organisation; DNA oxidation; DNA fragmentation; epigenetic inheritance; histone retention; assisted reproduction; in vitro fertilisation