Dissertation
Modification of plant and yeast lipids by heterologous expression of protist, algal, and animal desaturases
Washington State University
Doctor of Philosophy (PhD), Washington State University
12/2006
DOI:
https://doi.org/10.7273/000005639
Abstract
Modification of lipids by expression of transgenes to alter levels of endogenous
fatty acids, and/or to produce novel fatty acids has long been a goal of plant researchers.
In this attempt, the identification of desaturases and other fatty acid modification
enzymes that can act in heterologous systems was undertaken. Tetrahymena species
Tetrahymena pyriformis and Tetrahymena thermophila have three endogenous fatty acid
desaturases, a Δ6, a Δ9, and a Δ12. To examine the activity of Tetrahymena enzymes, Δ6
and Δ9 desaturases were cloned from a T. thermophila cDNA library and modified for
expression in heterologous systems. Alignment of these proteins with known desaturases
revealed homology seen in conserved domains of these proteins. Desaturation was not
seen with the Δ9 desaturase and limited desaturation was seen with the Δ6. However,
desaturation was increased 10-fold when the Δ6 desaturase was co-expressed with a
cytochrome b5 from Arabidopsis thaliana. Further analysis of the desaturases of
Tetrahymena involved the cloning of the Δ12 desaturase homologs of both T. pyriformis
and T. thermophila which could account for the Δ14 desaturation of 20:1(11) to
20:2(11,14) seen in Tetrahymena. Following the cloning of these desaturase cDNAs, the
codons were altered to allow for expression in three heterologous expression systems.
Desaturation was not seen in any of the systems until the codons were optimized and a
small amount of Δ12 desaturation was seen in yeast. With the overall goal of
modification of plant lipids by expression of desaturases two other cDNAs were
introduced into Arabidopsis, a Δ8 from E. gracilis, and a Δ9 from C. elegans.
Expression of the Δ8 with a seed-specific promoter resulted in the desaturation of
20:1(11) to 20:2(8,11) in Arabidopsis seeds. The Δ9 from C. elegans was introduced into
Arabidopsis seeds plants to reduce the amount of 16:0 saturated fatty acid. Expression of
this desaturase with a seed-specific promoter resulted in a reduction of 16:0 from 10% to
around 3%. Overall this project highlights the issue that can arise from heterologous
expression of desaturases but also the results that can be obtained in alteration of
endogenous fatty acids by desaturase expression.
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Details
- Title
- Modification of plant and yeast lipids by heterologous expression of protist, algal, and animal desaturases
- Creators
- Rebecca Lynn Olsen
- Contributors
- John Anthony Browse (Chair)
- Awarding Institution
- Washington State University
- Academic Unit
- School of Molecular Biosciences
- Theses and Dissertations
- Doctor of Philosophy (PhD), Washington State University
- Publisher
- Washington State University
- Number of pages
- 104
- Identifiers
- 99901054536001842
- Language
- English
- Resource Type
- Dissertation