Difference between revisions of "Willian Thomas"

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(Created page with " ==Biography== Will completed his Bachelor of Science (majoring in Genetics and Botany) and Honours (Botany) at UWA. His Honours project was based at Kings Park Science, wher...")
 
 
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William Thomas
 
William Thomas
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Room 1.122, Agriculture Central Wing
 
Room 1.122, Agriculture Central Wing
 +
 
School of Biological Sciences, Faculty of Science
 
School of Biological Sciences, Faculty of Science
 +
 
The University of Western Australia, Crawley, WA 6009, Perth Australia
 
The University of Western Australia, Crawley, WA 6009, Perth Australia
 +
 
Emai: william.thomas@research.uwa.edu.au
 
Emai: william.thomas@research.uwa.edu.au

Latest revision as of 06:22, 6 July 2020

Biography

Will completed his Bachelor of Science (majoring in Genetics and Botany) and Honours (Botany) at UWA. His Honours project was based at Kings Park Science, where he studied the population genetics of a critically endangered native plant. He then worked for a year at the Department of Biodiversity, Conservation and Attractions in the Species and Communities Program. In March 2020, he joined the Batley Lab to undertake his PhD.

Research Interests

Plant genetics and genomics, plant disease resistance, R-gene identification, target enrichment sequencing

Current Project

Several fungal diseases cause severe yield loss to the canola industry worldwide, including blackleg, white rust and white leaf spot. To control these diseases, methods such as the application of fungicides and specific agronomic practises are typically employed. However, host resistance is the most cost-effective and sustainable way to manage disease. The objective of my PhD is to identify and validate new resistance genes (R-genes) which will provide protection from disease. A new approach to identify R-genes, R-gene enrichment sequencing or RenSeq, will be utilised. RenSeq and its descendant RLP/KSeq, allow for the identification of NLR, RLP and RLK class R-genes without a reference genome. This promising technique will be used to capture the genome wide repertoire of resistance gene analogs (RGAs) in different Brassica germplasm. A combination of association genetics and RenSeq, termed AgRenSeq, will also be used to identify R-genes that provide qualitative resistance to blackleg, white rust and white lead spot. The discovery of new R-genes will facilitate breeding programs to develop disease resistance cultivars and increase the genetic diversity in cultivar rotation.

Awards

Australian Government Research Training Program (RTP) Scholarship

Grains Research and Development Corporation (GRDC) Research Scholarship


Contact Details

William Thomas

Room 1.122, Agriculture Central Wing

School of Biological Sciences, Faculty of Science

The University of Western Australia, Crawley, WA 6009, Perth Australia

Emai: william.thomas@research.uwa.edu.au