The impact of hybridization on alternative splicing revealed by transcriptome analysis
Hybridization can result in offspring with transgressive traits when compared to the parents. These hybrid traits may have had an important role in plant evolution, they impact ecological fitness, and they have been exploited extensively in agricultural systems. Gene expression levels and pattern...
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University of British Columbia
2011
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ndltd-UBC-oai-circle.library.ubc.ca-2429-358502018-01-05T17:25:06Z The impact of hybridization on alternative splicing revealed by transcriptome analysis Baute, Gregory Joseph Hybridization can result in offspring with transgressive traits when compared to the parents. These hybrid traits may have had an important role in plant evolution, they impact ecological fitness, and they have been exploited extensively in agricultural systems. Gene expression levels and patterns of small RNA expression as well as epigenetic modifications can be affected by hybridization. Alternative splicing (AS) is an important form of gene regulation, where multiple final transcript types are created from a single gene. AS is found in a large number of plant genes and has various functional consequences. Here changes in AS regulation upon hybridization have been assayed on a genome-wide scale using RNA-seq data from rice hybrids. AS was quantified in both parental genotypes and their reciprocal hybrids based on read coverage across genes as well as junction spanning reads. Of the over 24,000 AS events investigated, ~8% happen at different frequencies between the different subspecies. The majority of events in the hybrids occur at additive levels compared to their parents, although a large number of events (~9%) are at non-additive levels. Many nonadditive events in the hybrids are at levels equal to one parent. Several hundred AS events happen at higher or lower levels in at least one of the hybrids then in either parent, indicating transgressive AS. Some of these events, 48 in total, could be unique to the hybrids. The transgressively spliced events could contribute to the phenotype of the hybrids by altering the proteome through introducing different proteins, or via regulation of protein levels through nonsense-mediated decay. These data may also be useful in understanding the evolution of the regulation of AS. Science, Faculty of Botany, Department of Graduate 2011-06-30T21:15:15Z 2011-12-31 2011 2011-11 Text Thesis/Dissertation http://hdl.handle.net/2429/35850 eng Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/ University of British Columbia |
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NDLTD |
| language |
English |
| sources |
NDLTD |
| description |
Hybridization can result in offspring with transgressive traits when compared to the
parents. These hybrid traits may have had an important role in plant evolution, they impact
ecological fitness, and they have been exploited extensively in agricultural systems. Gene
expression levels and patterns of small RNA expression as well as epigenetic modifications
can be affected by hybridization. Alternative splicing (AS) is an important form of gene regulation, where multiple final transcript types are created from a single gene. AS is found in a large number of plant genes and has various functional consequences. Here changes in AS regulation upon hybridization have been assayed on a genome-wide scale using RNA-seq
data from rice hybrids. AS was quantified in both parental genotypes and their reciprocal
hybrids based on read coverage across genes as well as junction spanning reads. Of the over
24,000 AS events investigated, ~8% happen at different frequencies between the different subspecies. The majority of events in the hybrids occur at additive levels compared to their parents, although a large number of events (~9%) are at non-additive levels. Many nonadditive events in the hybrids are at levels equal to one parent. Several hundred AS events
happen at higher or lower levels in at least one of the hybrids then in either parent, indicating
transgressive AS. Some of these events, 48 in total, could be unique to the hybrids. The
transgressively spliced events could contribute to the phenotype of the hybrids by altering the
proteome through introducing different proteins, or via regulation of protein levels through nonsense-mediated decay. These data may also be useful in understanding the evolution of
the regulation of AS. === Science, Faculty of === Botany, Department of === Graduate |
| author |
Baute, Gregory Joseph |
| spellingShingle |
Baute, Gregory Joseph The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| author_facet |
Baute, Gregory Joseph |
| author_sort |
Baute, Gregory Joseph |
| title |
The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| title_short |
The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| title_full |
The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| title_fullStr |
The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| title_full_unstemmed |
The impact of hybridization on alternative splicing revealed by transcriptome analysis |
| title_sort |
impact of hybridization on alternative splicing revealed by transcriptome analysis |
| publisher |
University of British Columbia |
| publishDate |
2011 |
| url |
http://hdl.handle.net/2429/35850 |
| work_keys_str_mv |
AT bautegregoryjoseph theimpactofhybridizationonalternativesplicingrevealedbytranscriptomeanalysis AT bautegregoryjoseph impactofhybridizationonalternativesplicingrevealedbytranscriptomeanalysis |
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1718582907256176640 |