Abstract
There is an increasing demand in the grain handling chain to control purity and segregation of different classes and varieties of grains. Accurate segregation is needed to ensure that varieties with specific qualities are delivered at high purity and, for example, in the future to segregate GM and non-GM material. Since the grain handling chain stretches from farmers, to transporters, to storage silos, to end-users in the world market, low-cost rapid tests are needed. In addition, with the advent of end-point royalties, rapid variety identification is needed to monitor compliance in delivering new varieties subject to plant breeders’ rights (PBR).
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References
Bloch H A, Petersen M, Sperotto M M, Kesmir C, Radzikowski L, Jacobsen S, Sondergaard I (2001) Identification of Barley and Rye Varieties Using Matrix-assisted Laser Desorption/Ionisation Time-of-flight Mass Spectrometry with Neural Networks. Rapid Commun in Mass Spectrometry, 15: 440–445
von Bothmer R (1992) The Wild Species of Hordeum: Relationships and Potential Use for Improvement of Cultivated Barley. In: Shewry, P.R. (Ed), Barley: Genetics, Biochemistry, Molecular Biology and Biotechnology. Oxford, CAB International, UK, 3–18
Crop Variety Sowing Guides (CVSG) 1997–2005, Department of Agriculture, Western Australia, South Perth, WA
Echart-Almeida C, Cavalli-Molina S (2001) Hordein Polypeptide Patterns in Relation to Malting Quality in Brazilian Barley Varieties. Brazilian J Agri Res, 36: 211–217
Fernandez M E, Figueiras A M, Benito C (2002) The Use of ISSR and RAPD Markers for Detecting DNA Polymorphism, Genotype Identification and Genetic Diversity Among Barley Cultivars with Known Origin. Theor Appl Genet, 104: 845–851
Harvest Handbook 2003/04 Season, Co-operative Bulk Handling Ltd, West Perth, WA 6005
Howard K A, Gayler K R, Eagles H A, Halloran G M (1996) The Relationship Between D Hordein and Malting Quality in Barley. J Cereal Sci, 24: 47–53
Karakousis A, Barr A R, Chalmers K J, Ablett G A, Holton T A, Henry R J, Lim P, Langridge P, (2003) Potential of SSR Markers for Plant Breeding and Variety Identification in Australian Barley Germplasm. Aust J Agri Res, 54: 1197–1210
Macaulay M, Ramsay L, Powell W, Waugh R (2001) A Representative, Highly Informative “Genotyping Set” of Barleys SSRs. Theor Appl Genet, 102: 801–809
Marchylo B A, LaBerge D E (1980) Barley Cultivar Identification by Electrophoretic Analysis of Hordein Proteins I. Extraction and Separation of Hordein Proteins and Environmental Effects on the Hordein Electropherogram. Can J Plant Sci, 60: 1343–1350
Marchylo B A, LaBerge D E (1981) Barley Cultivar Identification by Electrophoretic Analysis of Hordein Proteins II. Catalogue of Electrophoregram Formulae for Canadian-Grown Barley Cultivars. Can J Plant Sci, 61: 859–870
McCausland J, Wrigley C W (1977) Identification of Australian Barley Cultivars by Laboratory Methods: Gel Electrophoresis and Gel Isoelectric Focusing of the Endosperm Proteins. Aust J Exp Agri & Animal Husbandry, 17: 1020–1027
Schibeci D, Potter R, Wathen-Dunn K, Jones M G K, Bellgard M (2001) Applying Artificial Neural Networks to Classification of Wheat Varieties Processed by MALDI-TOF Mass Spectrometry. Proceedings of the Neural Networks Applications (NNA’01), Tenerife, Canary Islands
Schut J W, Qi X, Stam P (1997) Association between Relationship Measures Based on AFLP Markers, Pedigree Data and Morphological Traits in Barley. Theor Appl Genet, 95: 1161–1168
Shewry P R (1993) Barley Seed Proteins In: MacGregor A W, Batty R S (Eds.), Barley: Chemistry and Technology. American Association of Cereal Chemists Inc., St Paul Minnesota, USA, 131–183
Shewry P R, Haiford N G (2002) Cereal Seed Storage Proteins: Structures, Properties and Role in Grain Utilization. J Exp Bio, 53: 947–958
Siriamornpun S, Wootton M, Cox J M, Bekes F, Wrigley C M (2001) Capillary Electrophoresis of Wheat Gliadin Proteins and its Potential for Wheat Varietal Identification Using Pattern Matching Software. Aust J Agri Res, 52: 839–843
Uthayakumaran S, Batey I L, Wrigley C W (2005) On-the-spot Identification of Grain Variety and Wheat Quality Type by Lab-on-a-chip Capillary Electrophoresis. J Cereal Sci, 41: 371–374
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© 2009 Zhejiang University Press, Hangzhou and Springer-Verlag Berlin Heidelberg
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Scobie, M.N., Jones, M.G.K. (2009). Identification of Barley Varieties by Protein Profiling. In: Zhang, G., Li, C. (eds) Genetics and Improvement of Barley Malt Quality. Advanced Topics in Science and Technology in China. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-01279-2_4
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DOI: https://doi.org/10.1007/978-3-642-01279-2_4
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