Dawn Worrall
University of York
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Publication
Featured researches published by Dawn Worrall.
Nature | 2000
Chris Sidebottom; Sarah L. Buckley; Paul Pudney; Sarah Twigg; Carl Jarman; Chris Holt; Julia Telford; Andrew John Mcarthur; Dawn Worrall; Rod E. Hubbard; Peter J. Lillford
We have discovered an antifreeze protein in an overwintering perennial ryegrass, Lolium perenne. The protein is stable at 100 °C and although it is a less effective antifreeze than proteins found in antarctic fish and insects, it is better at preventing ice recrystallization. This property enables grasses to tolerate ice formation in their tissues without being damaged, suggesting that the control of ice-crystal growth rather than the prevention of freezing may have evolved to be the critical factor in their survival at very low temperatures.
Nature | 2000
Chris Sidebottom; Sarah L. Buckley; Paul Pudney; Sarah Twigg; Carl Jarman; Chris Holt; Julia Telford; Andrew John Mcarthur; Dawn Worrall; Roderick E. Hubbard; Peter J. Lillford
We have discovered an antifreeze protein in an overwintering perennial ryegrass, Lolium perenne. The protein is stable at 100 °C and although it is a less effective antifreeze than proteins found in antarctic fish and insects, it is better at preventing ice recrystallization. This property enables grasses to tolerate ice formation in their tissues without being damaged, suggesting that the control of ice-crystal growth rather than the prevention of freezing may have evolved to be the critical factor in their survival at very low temperatures.
Nature | 2000
Chris Sidebottom; Sarah L. Buckley; Paul Pudney; Sarah Twigg; Carl Jarman; Chris Holt; Julia Telford; Andrew John Mcarthur; Dawn Worrall; Rod E. Hubbard; Peter J. Lillford
We have discovered an antifreeze protein in an overwintering perennial ryegrass, Lolium perenne. The protein is stable at 100 °C and although it is a less effective antifreeze than proteins found in antarctic fish and insects, it is better at preventing ice recrystallization. This property enables grasses to tolerate ice formation in their tissues without being damaged, suggesting that the control of ice-crystal growth rather than the prevention of freezing may have evolved to be the critical factor in their survival at very low temperatures.
Science | 1998
Dawn Worrall; Luisa Elias; David A. Ashford; Maggie Smallwood; Chris Sidebottom; Peter Lillford; Julia Telford; Chris Holt; Dianna J. Bowles
Journal of Biological Chemistry | 2002
Eng-Kiat Lim; Charlotte J. Doucet; Yi Li; Luisa Elias; Dawn Worrall; Steven P. Spencer; Joe Ross; Dianna J. Bowles
Biochemical Journal | 1999
Maggie Smallwood; Dawn Worrall; Louise Byass; Luisa Elias; David A. Ashford; Charlotte J. Doucet; Chris Holt; Julia Telford; Peter Lillford; Dianna J. Bowles
Glycobiology | 2003
Eng-Kiat Lim; Sandie Baldauf; Yi Li; Luisa Elias; Dawn Worrall; Steven P. Spencer; Rosamond G. Jackson; Goro Taguchi; Joe Ross; Dianna J. Bowles
Cryobiology | 2000
Charlotte J. Doucet; Louise Byass; Luisa Elias; Dawn Worrall; Maggie Smallwood; Dianna J. Bowles
Food Research International | 2005
Federico Gómez Galindo; Luisa Elias; Vassilis Gekas; Werner B. Herppich; Maggie Smallwood; Marianne Sommarin; Dawn Worrall; Ingegerd Sjöholm
Methods of Molecular Biology | 1998
Dawn Worrall
