Morphological evolution and development of the euglenid cytoskeleton

In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid protists, I used comparative and descriptive methods to investigate the morphological diversity and development of pellicle surface patterns formed by differences in strip length at the anterior and post...

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Main Author: Esson, Heather Jean
Language:English
Published: University of British Columbia 2009
Online Access:http://hdl.handle.net/2429/6814
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.2429-68142014-03-26T03:35:47Z Morphological evolution and development of the euglenid cytoskeleton Esson, Heather Jean In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid protists, I used comparative and descriptive methods to investigate the morphological diversity and development of pellicle surface patterns formed by differences in strip length at the anterior and posterior ends of the cell (strip reduction). By observing dividing Euglena gracilis cells with scanning electron microscopy (SEM) and integrating these data with previous evolutionary and developmental research, I showed that these patterns result from the semiconservative duplication and subsequent intermittent growth of pellicle strips during cytoskeletal replication and cytokinesis. Furthermore, simple changes in the developmental timing of this process (heterochrony) resulted in the diversity of posterior strip reduction patterns observed in phototrophic euglenids. This model was then used to interpret the results of two studies describing pellicle surface patterns in other photosynthetic taxa. The first was a morphological description of the complex linear pattern of posterior reduction in the benthic marine phototroph, Euglena obtusa. The second was an investigation of the evolution of bilaterally symmetrical, “clustered” strip reduction patterns in the rigid genus Phacus, examined in the context of maximum likelihood (ML) and Bayesian phylogenetic analyses of combined nuclear small subunit and partial large subunit ribosomal genes (SSU rDNA and LSU rDNA, respectively). These studies, taken together, show that strip length and other pellicle characters (such as pore placement) are strongly influenced by age and perhaps other developmental factors (such as parental strip identity and cell polarity), but the underlying genetics and molecular biology of these factors are completely unknown. Finally, SEM was used for the first time to describe prearticular strip projections, a pellicle character that has been extensively studied using transmission electron microscopy (TEM). The novel character state revealed by this study shows that the diversity of this pellicle character is still poorly understood. The structural complexity of the euglenid pellicle and the developmental and evolutionary processes that resulted in its astonishing diversity could make it an ideal model system for studying cytoskeletal evolution and development once a robust genetic research framework is constructed. 2009-04-06T13:49:49Z 2009-04-06T13:49:49Z 2009 2009-04-06T13:49:49Z 2009-05 Electronic Thesis or Dissertation http://hdl.handle.net/2429/6814 eng University of British Columbia
collection NDLTD
language English
sources NDLTD
description In an effort to better understand character evolution in the cytoskeleton (pellicle) of euglenid protists, I used comparative and descriptive methods to investigate the morphological diversity and development of pellicle surface patterns formed by differences in strip length at the anterior and posterior ends of the cell (strip reduction). By observing dividing Euglena gracilis cells with scanning electron microscopy (SEM) and integrating these data with previous evolutionary and developmental research, I showed that these patterns result from the semiconservative duplication and subsequent intermittent growth of pellicle strips during cytoskeletal replication and cytokinesis. Furthermore, simple changes in the developmental timing of this process (heterochrony) resulted in the diversity of posterior strip reduction patterns observed in phototrophic euglenids. This model was then used to interpret the results of two studies describing pellicle surface patterns in other photosynthetic taxa. The first was a morphological description of the complex linear pattern of posterior reduction in the benthic marine phototroph, Euglena obtusa. The second was an investigation of the evolution of bilaterally symmetrical, “clustered” strip reduction patterns in the rigid genus Phacus, examined in the context of maximum likelihood (ML) and Bayesian phylogenetic analyses of combined nuclear small subunit and partial large subunit ribosomal genes (SSU rDNA and LSU rDNA, respectively). These studies, taken together, show that strip length and other pellicle characters (such as pore placement) are strongly influenced by age and perhaps other developmental factors (such as parental strip identity and cell polarity), but the underlying genetics and molecular biology of these factors are completely unknown. Finally, SEM was used for the first time to describe prearticular strip projections, a pellicle character that has been extensively studied using transmission electron microscopy (TEM). The novel character state revealed by this study shows that the diversity of this pellicle character is still poorly understood. The structural complexity of the euglenid pellicle and the developmental and evolutionary processes that resulted in its astonishing diversity could make it an ideal model system for studying cytoskeletal evolution and development once a robust genetic research framework is constructed.
author Esson, Heather Jean
spellingShingle Esson, Heather Jean
Morphological evolution and development of the euglenid cytoskeleton
author_facet Esson, Heather Jean
author_sort Esson, Heather Jean
title Morphological evolution and development of the euglenid cytoskeleton
title_short Morphological evolution and development of the euglenid cytoskeleton
title_full Morphological evolution and development of the euglenid cytoskeleton
title_fullStr Morphological evolution and development of the euglenid cytoskeleton
title_full_unstemmed Morphological evolution and development of the euglenid cytoskeleton
title_sort morphological evolution and development of the euglenid cytoskeleton
publisher University of British Columbia
publishDate 2009
url http://hdl.handle.net/2429/6814
work_keys_str_mv AT essonheatherjean morphologicalevolutionanddevelopmentoftheeuglenidcytoskeleton
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