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Dr Brett Williams

Science and Engineering Faculty,
Earth, Environmental and Biological Sciences,
Environmental Systems

Personal

Name
Dr Brett Williams
Position(s)
Research Fellow
Science and Engineering Faculty,
Earth, Environmental and Biological Sciences,
Environmental Systems
Discipline *
Agriculture, Land and Farm Management, Agricultural Biotechnology, Manufacturing Engineering
Phone
+61 7 3138 1696
Fax
+61 7 3138 1534
Email
Location
View location details (QUT staff and student access only)
Qualifications

Doctor of Philosophy (Queensland University of Technology)

Professional memberships
and associations
  • Australian Society of Plant Scientists (ASPS)
  •  American Society of Plant Biologists (ASPB)
Keywords

Transcriptomics, Programmed Cell Death, Apoptosis, Autophagy, Resurrection Plant, Next Generation Sequencing

* Field of Research code, Australian and New Zealand Standard Research Classification (ANZSRC), 2008

Biography

Brett Williams is a Vice Chancellor’s Research Fellow in the Centre for Tropical and Biocommodities (CTCB). He is the senior research fellow on the Queensland Government funded project on the improvement of tropical pulses in Queensland. Brett is/was also the co-PI on several projects funded from the National Science Foundation (NSF) (USA), QUT Bluebox and the Australia-India Strategic Research Fund (AISRF). Brett joined the centre in 2010 and in addition to the aforementioned projects he has been researching the molecular dissection of programmed cell death pathways in plants using next generation transcriptomics of a novel Australian resurrection grass. Prior to working at the CTCB Brett received his BS and Ph. D., both at QUT, in the laboratory of Distinguished Professor James Dale, where he focused on the development of a novel virus-inducible protein expression system in plants. Following his PhD studies, Brett travelled to Texas A & M University in the US where he worked in the lab of Professor Martin Dickman, studying plant Programmed Cell Death (PCD) pathways in response to biotic and abiotic stimuli. Brett’s research has led to several key discoveries including the observation that members of the Arabidopsis Bcl-2 athanogene (BAG) family are dispersed in a variety of sub-cellular organelles. He also showed temporal induction of plant PCD pathways as a key pathogenicity factor of the potent necrotrophic fungus Sclerotinia sclerotiorum. Brett is the associate supervisor of seven PhD students

This information has been contributed by Dr Brett Williams.

Teaching

Teaching discipline: Cell & Molecular Biosciences Teaching areas:

  • Plant Biology (BVB203)
  • Comparative & Evolutionary Genomics (BVB330)
  • Microbiology and the Environment (BVB305)
This information has been contributed by Dr Brett Williams.

Experience

  • 2015 to present – Vice Chancellor’s Research Fellow, QUT
  • 2010 – 2015 – Research Fellow, Centre for Tropical Crops and Biocommodities
  • 2007 – 2009 – Post-doctoral Research Associate, Texas A & M University
This information has been contributed by Dr Brett Williams.

Publications


For more publications by this staff member, visit QUT ePrints, the University's research repository.

Awards

Awards and recognition

Type
Fellowships
Reference year
2015
Details
Vice Chancellor's Research Fellowship
Type
Editorial Role for an Academic Journal
Reference year
2014
Details
Editorial Board for Molecular Plant Pathology 2014 - current
Type
Committee Role/Editor or Chair of an Academic Conference
Reference year
2014
Details
Co-chair of the B3 Big Biology and Bioinformatics symposium
Type
Committee Role/Editor or Chair of an Academic Conference
Reference year
2015
Details
Member of the Kenya-Australia Investors Forum Organising Committee

Research projects

Grants and projects (Category 1: Australian Competitive Grants only)

Title
Development of drought tolerant rice and mustard using a two-pronged approach and novel genes identified from resurrection (Mundree)
Primary fund type
CAT 1 - Australian Competitive Grant
Project ID
AISRF08240
Start year
2014
Keywords
Drought Tolerance; Resurrection; Rice

Supervision