Your search keyword '"Logsdon JM"' showing total 3 results

1. Retention of Core Meiotic Genes Across Diverse Hymenoptera.

Author

Tvedte ES, Forbes AA, and Logsdon JM Jr

Subjects

Animals, Evolution, Molecular, Gene Duplication, Phylogeny, Genes, Insect, Hymenoptera genetics, Meiosis genetics

Abstract

The cellular mechanisms of meiosis are critical for proper gamete formation in sexual organisms. Functional studies in model organisms have identified genes essential for meiosis, yet the extent to which this core meiotic machinery is conserved across non-model systems is not fully understood. Moreover, it is unclear whether deviation from canonical modes of sexual reproduction is accompanied by modifications in the genetic components involved in meiosis. We used a robust approach to identify and catalogue meiosis genes in Hymenoptera, an insect order typically characterized by haplodiploid reproduction. Using newly available genome data, we searched for 43 genes involved in meiosis in 18 diverse hymenopterans. Seven of eight genes with roles specific to meiosis were found across a majority of surveyed species, suggesting the preservation of core meiotic machinery in haplodiploid hymenopterans. Phylogenomic analyses of the inventory of meiosis genes and the identification of shared gene duplications and losses provided support for the grouping of species within Proctotrupomorpha, Ichneumonomorpha, and Aculeata clades, along with a paraphyletic Symphyta. The conservation of meiosis genes across Hymenoptera provides a framework for studying transitions between reproductive modes in this insect group., (© The American Genetic Association 2017. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

2. Inventory and phylogenetic analysis of meiotic genes in monogonont rotifers.

Author

Hanson SJ, Schurko AM, Hecox-Lea B, Welch DB, Stelzer CP, and Logsdon JM Jr

Subjects

Animals, Cell Cycle Proteins genetics, Chromosomes genetics, DNA Replication, Expressed Sequence Tags, Gene Expression Regulation, Meiosis genetics, Parthenogenesis genetics, Phylogeny, Rotifera genetics

Abstract

A long-standing question in evolutionary biology is how sexual reproduction has persisted in eukaryotic lineages. As cyclical parthenogens, monogonont rotifers are a powerful model for examining this question, yet the molecular nature of sexual reproduction in this lineage is currently understudied. To examine genes involved in meiosis, we generated partial genome assemblies for 2 distantly related monogonont species, Brachionus calyciflorus and B. manjavacas. Here we present an inventory of 89 meiotic genes, of which 80 homologs were identified and annotated from these assemblies. Using phylogenetic analysis, we show that several meiotic genes have undergone relatively recent duplication events that appear to be specific to the monogonont lineage. Further, we compare the expression of "meiosis-specific" genes involved in recombination and all annotated copies of the cell cycle regulatory gene CDC20 between obligate parthenogenetic (OP) and cyclical parthenogenetic (CP) strains of B. calyciflorus. We show that "meiosis-specific" genes are expressed in both CP and OP strains, whereas the expression of one of the CDC20 genes is specific to cyclical parthenogenesis. The data presented here provide insights into mechanisms of cyclical parthenogenesis and establish expectations for studies of obligate asexual relatives of monogononts, the bdelloid rotifer lineage.

Published

2013

3. Meeting for sex in Iowa.

Author

Logsdon JM Jr and Neiman M

Subjects

Recombination, Genetic genetics, Reproduction physiology, Biological Evolution, Recombination, Genetic physiology, Reproduction genetics, Sex

Published

2010