9 Papers
81 Citations
A. Tarr is an academic researcher from Government of Western Australia. The author has contributed to research in topics: Population & Hordeum vulgare. The author has an hindex of 8, co-authored 9 publications. Previous affiliations of A. Tarr include Murdoch University.
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Papers
Matrix-assisted laser desorption/ionization time-of-flight based wheat gliadin protein peaks are useful molecular markers for wheat genetic study
TL;DR: A wheat doubled haploid population with a genetic linkage map of good coverage was used to assay individual gliadin peaks from MALDI-TOF profiles as molecular markers, and eight segregating peaks in the population were scored as polymorphic across the population.
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Quantitative trait loci controlling kernel discoloration in barley (Hordeum vulgare L.)
Chengdao Li,Reg Lance,Helen Collins,A. Tarr,S. Roumeliotis,Stefan Harasymow,Mehmet Cakir,Glen P. Fox,C. R. Grime,Sue Broughton,Kenneth J. Young,Harsh Raman,A. R. Barr,D. B. Moody,B. J. Read +14 more
TL;DR: There were strong associations between theQTLs for heading date, grain brightness, and yellowness, and the molecular markers linked with the major QTLs should be useful for marker assisted selection for KD tolerance.
Comparative analysis of Australian and Canadian barleys for seed dormancy and malting quality
Xiao-Qi Zhang,Sharon Westcott,Joe Panozzo,Mehmet Cakir,Stefan Harasymow,A. Tarr,Sue Broughton,Reg Lance,Chengdao Li,Chengdao Li +9 more
TL;DR: QTL from Baudin provide new sources to integrate PHS tolerance and high malting quality and contribute to higher malt yield without significant impact on diastatic power, beta-glucan content and wort viscosity.
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Spectroscopic and chemical fingerprints in malted barley
TL;DR: In this article, a unique matrix of malted barley samples was produced to validate spectroscopic procedures for monitoring the malting process and three critical factors that were examined in controlling the rate of germination were moisture content, temperature and germination time.
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Molecular genetic mapping of NIR spectra variation
TL;DR: A novel analytical approach was used to identify associations between Near-Infrared (NIR) spectral fingerprints and segments of wheat chromosomes indicating the location of genetic factors contributing to variation in NIR spectra.
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