Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 3 of 3
Full-Text Articles in Life Sciences
Foraminifera As A Model Of Eukaryotic Genome Dynamism, Caitlin Timmons, Kristine Le, H. B. Rappaport, Elinor G. Sterner, Xyrus X. Maurer-Alcaláh, Susan T. Goldstein, Laura A. Katz
Foraminifera As A Model Of Eukaryotic Genome Dynamism, Caitlin Timmons, Kristine Le, H. B. Rappaport, Elinor G. Sterner, Xyrus X. Maurer-Alcaláh, Susan T. Goldstein, Laura A. Katz
Biological Sciences: Faculty Publications
In contrast to the canonical view that genomes cycle only between haploid and diploid states, many eukaryotes have dynamic genomes that change content throughout an individual’s life cycle. However, the few detailed studies of microeukaryotic life cycles render our understanding of eukaryotic genome dynamism incomplete. Foraminifera (Rhizaria) are an ecologically important, yet understudied, clade of microbial eukaryotes with complex life cycles that include changes in ploidy and genome organization. Here, we apply fluorescence microscopy and image analysis techniques to over 2,800 nuclei in 110 cells to characterize the life cycle of Allogromia laticollaris strain Cold Spring Harbor (CSH), one of …
The Dynamic Nature Of Genomes Across The Tree Of Life, Angela M. Oliverio, Laura A. Katz
The Dynamic Nature Of Genomes Across The Tree Of Life, Angela M. Oliverio, Laura A. Katz
Biological Sciences: Faculty Publications
Genomes are dynamic in lineages across the tree of life. Among bacteria and archaea, for example, DNA content varies through out life cycles, and nonbinary cell division in diverse lineages indicates the need for coordination of the inheritance of genomes. These observations contrast with the textbook view that bacterial and archaeal genomes are monoploid (i.e., single copied) and fixed both within species and throughout an individual's lifetime. Here, we synthesize information on three aspects of dynamic genomes from exemplars representing a diverse array of bacterial and archaeal lineages: 1) ploidy level variation, 2) epigenetic mechanisms, and 3) life cycle variation. …
The Dynamic Nature Of Eukaryotic Genomes, Laura Wegener Parfrey, Daniel J.G. Lahr, Laura A. Katz
The Dynamic Nature Of Eukaryotic Genomes, Laura Wegener Parfrey, Daniel J.G. Lahr, Laura A. Katz
Biological Sciences: Faculty Publications
Analyses of diverse eukaryotes reveal that genomes are dynamic, sometimes dramatically so. In numerous lineages across the eukaryotic tree of life, DNA content varies within individuals throughout life cycles and among individuals within species. Discovery of examples of genome dynamism is accelerating as genome sequences are completed from diverse eukaryotes. Though much is known about genomes in animals, fungi, and plants, these lineages represent only 3 of the 60-200 lineages of eukaryotes. Here, we discuss diverse genomic strategies in exemplar eukaryotic lineages, including numerous microbial eukaryotes, to reveal dramatic variation that challenges established views of genome evolution. For example, in …