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Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode
Three key steps in meiosis allow diploid organisms to produce haploid gametes: (1) homologous chromosomes (homologs) pair and undergo crossovers; (2) homologs segregate to opposite poles; and (3) sister chromatids segregate to opposite poles. The XX/XO sex determination system found in many nematode...
Autores principales: | , , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Cell Press
2018
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5772170/ https://www.ncbi.nlm.nih.gov/pubmed/29276124 http://dx.doi.org/10.1016/j.cub.2017.11.037 |
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author | Tandonnet, Sophie Farrell, Maureen C. Koutsovoulos, Georgios D. Blaxter, Mark L. Parihar, Manish Sadler, Penny L. Shakes, Diane C. Pires-daSilva, Andre |
author_facet | Tandonnet, Sophie Farrell, Maureen C. Koutsovoulos, Georgios D. Blaxter, Mark L. Parihar, Manish Sadler, Penny L. Shakes, Diane C. Pires-daSilva, Andre |
author_sort | Tandonnet, Sophie |
collection | PubMed |
description | Three key steps in meiosis allow diploid organisms to produce haploid gametes: (1) homologous chromosomes (homologs) pair and undergo crossovers; (2) homologs segregate to opposite poles; and (3) sister chromatids segregate to opposite poles. The XX/XO sex determination system found in many nematodes [1] facilitates the study of meiosis because variation is easily recognized [2, 3, 4]. Here we show that meiotic segregation of X chromosomes in the trioecious nematode Auanema rhodensis [5] varies according to sex (hermaphrodite, female, or male) and type of gametogenesis (oogenesis or spermatogenesis). In this species, XO males exclusively produce X-bearing sperm [6, 7]. The unpaired X precociously separates into sister chromatids, which co-segregate with the autosome set to generate a functional haplo-X sperm. The other set of autosomes is discarded into a residual body. Here we explore the X chromosome behavior in female and hermaphrodite meioses. Whereas X chromosomes segregate following the canonical pattern during XX female oogenesis to yield haplo-X oocytes, during XX hermaphrodite oogenesis they segregate to the first polar body to yield nullo-X oocytes. Thus, crosses between XX hermaphrodites and males yield exclusively male progeny. During hermaphrodite spermatogenesis, the sister chromatids of the X chromosomes separate during meiosis I, and homologous X chromatids segregate to the functional sperm to create diplo-X sperm. Given these intra-species, intra-individual, and intra-gametogenesis variations in the meiotic program, A. rhodensis is an ideal model for studying the plasticity of meiosis and how it can be modulated. |
format | Online Article Text |
id | pubmed-5772170 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2018 |
publisher | Cell Press |
record_format | MEDLINE/PubMed |
spelling | pubmed-57721702018-01-24 Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode Tandonnet, Sophie Farrell, Maureen C. Koutsovoulos, Georgios D. Blaxter, Mark L. Parihar, Manish Sadler, Penny L. Shakes, Diane C. Pires-daSilva, Andre Curr Biol Article Three key steps in meiosis allow diploid organisms to produce haploid gametes: (1) homologous chromosomes (homologs) pair and undergo crossovers; (2) homologs segregate to opposite poles; and (3) sister chromatids segregate to opposite poles. The XX/XO sex determination system found in many nematodes [1] facilitates the study of meiosis because variation is easily recognized [2, 3, 4]. Here we show that meiotic segregation of X chromosomes in the trioecious nematode Auanema rhodensis [5] varies according to sex (hermaphrodite, female, or male) and type of gametogenesis (oogenesis or spermatogenesis). In this species, XO males exclusively produce X-bearing sperm [6, 7]. The unpaired X precociously separates into sister chromatids, which co-segregate with the autosome set to generate a functional haplo-X sperm. The other set of autosomes is discarded into a residual body. Here we explore the X chromosome behavior in female and hermaphrodite meioses. Whereas X chromosomes segregate following the canonical pattern during XX female oogenesis to yield haplo-X oocytes, during XX hermaphrodite oogenesis they segregate to the first polar body to yield nullo-X oocytes. Thus, crosses between XX hermaphrodites and males yield exclusively male progeny. During hermaphrodite spermatogenesis, the sister chromatids of the X chromosomes separate during meiosis I, and homologous X chromatids segregate to the functional sperm to create diplo-X sperm. Given these intra-species, intra-individual, and intra-gametogenesis variations in the meiotic program, A. rhodensis is an ideal model for studying the plasticity of meiosis and how it can be modulated. Cell Press 2018-01-08 /pmc/articles/PMC5772170/ /pubmed/29276124 http://dx.doi.org/10.1016/j.cub.2017.11.037 Text en © 2017 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). |
spellingShingle | Article Tandonnet, Sophie Farrell, Maureen C. Koutsovoulos, Georgios D. Blaxter, Mark L. Parihar, Manish Sadler, Penny L. Shakes, Diane C. Pires-daSilva, Andre Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title | Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title_full | Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title_fullStr | Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title_full_unstemmed | Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title_short | Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode |
title_sort | sex- and gamete-specific patterns of x chromosome segregation in a trioecious nematode |
topic | Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5772170/ https://www.ncbi.nlm.nih.gov/pubmed/29276124 http://dx.doi.org/10.1016/j.cub.2017.11.037 |
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