The Effect of Temperature Shock and Grain Morphology on Alpha-amylase in Developing Wheat Grain

doi:10.1093/aob/mcn091

AOBPreview originally published online on June 4, 2008
Annals of Botany 2008 102(2):287-293; doi:10.1093/aob/mcn091

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The Effect of Temperature Shock and Grain Morphology on Alpha-amylase in Developing Wheat Grain

A. D. Farrell and P. S. Kettlewell^*

Crop and Environment Research Centre, Harper Adams University College, Newport, Shropshire, TF10 8NB, UK

^* For correspondence. E-mail pskettlewell{at}harper-adams.ac.uk

Received: 14 December 2007 Returned for revision: 8 April 2008 Accepted: 12 May 2008 Published electronically: 4 June 2008

Background and Aims: The premature production of alpha-amylase without visible germinationhas been observed in developing grain of many cereals. The phenomenonis associated with cool temperatures in the late stages of graingrowth but the mechanisms behind it are largely unknown. Theaim of this study was to replicate the phenomenon under controlledconditions and investigate the possibility of a mechanisticlink with grain size or endosperm cavity size.

Methods: Five wheat (Triticum aestivum) genotypes differing in theirsusceptibility to premature alpha-amylase were subjected toa range of temperature shocks in controlled environments. Acomparison was then made with plants grown under ambient conditionsbut with grain size altered by using degraining to increasethe assimilate supply. At maturity, alpha-amylase, grain areaand endosperm cavity area were measured in individual grains.

Key Results: Both cold and heat shocks were successful in inducing prematurealpha-amylase in susceptible genotypes, with cold shocks themost effective. Cold shocks also increased grain area. Degrainingresulted in increased grain area overall, but the larger graindid not have higher alpha-amylase. Analysis of individual grainfound that instances of high alpha-amylase were not associatedwith differences in grain area or endosperm cavity area.

Conclusions: Pre-maturity alpha-amylase is associated with temperature shocksduring grain filling. In some cases this coincides with an increasein grain area, but there is no evidence of a mechanistic linkbetween high alpha-amylase and grain or endosperm cavity area.

Key words: Alpha-amylase, pre-maturity alpha-amylase, late maturity alpha amylase, temperature, grain size, endosperm cavity, wheat, Triticum aestivum

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