Genome Size and Host Specialization in Parasites

Ogburn, Nicholas Theodore

22 March 2019

In parasites, there are several examples of changes in genome size linked to a parasitic lifestyle—with some species having greatly reduced or expanded genome sizes relative to free-living non-parasitic relatives. What is unknown is whether there is correlated evolution between genome size and host specialization, and whether there is a generalizable framework in predicting genome size evolution in parasites using their genetic architecture and host use ecology. Here, I tested whether genome size of 96 eukaryotic parasites across a wide variety of taxa correlates with host specialization, quantified by the number and phylogenetic relatedness of host species they parasitize. I did not find that genome size and host specialization shared a correlated phylogenetic history; however, I did find that ectoparasites tended to have larger genomes then endoparasites, and that parasitic fungi had more host species then either animal or protozoan parasites. Although no clear trends in the evolution of genomes and host specificity were observed among parasites, my study was significantly limited by gaps in both genome size and host range availability. Future research should seek to address these gaps, as well as improve taxonomic coverage of data, so that trends in the evolution of parasite genome architecture could be adequately tested and delineated.

Genome size evolution

Host use

Parasitism

Ecology and Evolutionary Biology

The Relationship Between Genome Size, Development Rate, and Body Size in Copepods

Wyngaard, Grace A., Rasch, Ellen M., Manning, Nicole M., Gasser, Kathryn, Domangue, Rickie

01 January 2005

Freshwater cyclopoid copepods exhibit at least a fivefold range in somatic genome size and a mechanism, chromatin diminution, which could account for much of this interspecific variation. These attributes suggest that copepods are well suited to studies of genome size evolution. We tested the nucleotypic hypothesis of genome size evolution, which poses that variation in genome size is adaptive due to the 'bulk' effects of both coding and noncoding DNA on cell size and division rates, and their correlates. We found a significant inverse correlation between genome size and developmental (growth) rate in five freshwater cyclopoid species at three temperatures. That is, species with smaller genomes developed faster. Species with smaller genomes had significantly smaller bodies at 22°C, but not at cooler and warmer temperatures. Species with smaller genomes developed faster at all three temperatures, but had smaller bodies only at 22°C. We propose a model of life history evolution that adds genome size and cell cycle dynamics to the suite of characters on which selection may act to mold life histories and to influence the distribution of traits among different habitats.

body size

copepod

developmental rate

genome size evolution

nucleotype

Evoluce velikosti genomu v rodě Globba (Zingiberaceae) / Genome size evolution in tropical tribe Globba (Zingiberaceae)

Pospíšilová, Monika

January 2012

The variability of the genome size reaches several grades even within relatively close groups of plants. The study of the genome size in the phylogenetic context provides interesting results which characterize the evolution of the individual groups of plants. In this respect, tropical plants have yet not been studied. Tropical genus Globba (ca. 100 species) belongs to an economically significant family Zingiberaceae. The diversity centre is found in Thailand but it spreads from east India and southern China up to Indonesia and the Philippines. It is a polyploid complex which exists in two cytotypes within one genus (2n = 32 a 2n = 48); it is characteristic minimally in three out of seven distinguished sections. The aim of this thesis has been a reconstruction of the group phylogeny, discovering the role of the polyploid and evaluation of the genome size evolution of the Globba genus in the phylogenetic context. To this end, modern biosystematic methods were used (flow cytometry, chromosome counting, sequencing of the nuclear and chloroplast DNA regions). Many types of software and statistical methods were used to process and interpret the data. In this group, the genome size was measured for the first time. Out of 87 individuals, the smallest size was measured with Globba nuda (2C = 1.11 pg). The...