Abstract
The history of wheat domestication and use is closely linked to the efforts of humans to protect themselves from hunger and gain control over their food supply. Now grown worldwide wheat has become the most important source of food. For centuries bread wheat (Triticum aestivum) and durum wheat (Triticum durum) have been cultivated in the West to provide humans with energy and essential nutrients. Today China and India are the top two wheat-producing countries, largely because wheat has the advantage of requiring less water for cultivation than other comparable crops while being the main ingredient of a variety of processed foods valued in modern, mainly urban life. For more than a century, breeders have continuously improved wheat focusing on factors affecting grain yield and, more recently, technological quality. The properties of wheat that are ideal for processing into different food products have been greatly improved since the 1960s thanks to detailed research on storage proteins, which constitute the gluten. Most of these genetic successes are referred to in this book but many important goals remain to be achieved. Today further progress is crucial in the use of shared genetic resources, common analytical protocols for allele identification and technological processing, and dedicated tools for analysing polymer formation and characterisation particularly in response to climatic and other environmental factors. Technological properties are not the only wheat quality attributes, as consumers are increasingly aware and concerned about the nutritional value (the content in fiber, minerals, macro- and micro-nutrients, vitamins) and the health impact, whether positive or negative. For example, research on several pathologies associated with the consumption of gluten-based products will require collaboration between allergy specialists and wheat protein geneticists.
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References
Alessio F, Sapone A, Zevallos V, Schuppan D (2015). Nonceliac gluten sensitivity, Gastroenterology 148: 1195–1204.
Bailey C 1941 A translation of Beccari’s lecture ‘Concerning Grain’ (1728). Cereal Chem 18:555–561.
Biesiekierski JR (2017) What is gluten? J Gastroenterol Hepatol 32:78–81.
Bonjean AP (2016). The saga of wheat the successful story of wheat and human interaction. The world wheat book: A history of wheat breeding, volume 3,” Alain P. Bonjean, William J. Angus, Maarten Van Ginkel eds. Edition Lavoisier Tec&Doc, ISBN 978-2-7430-2091-0, pp. 1672, Chapter 1, 1–90.
Bonjean AP, Angus WJ, van Ginkel M (2011). The world wheat book volume 2. A history of wheat breeding (Bonjean AP, Angus WJ, van Ginkel M eds) Lavoisier Publishing. ISBN: 978-2-7430-1102-4, pp. 1201.
Branlard G, Chiron H (2016). History and milestones of wheat processing and end-uses around the world (East Asia excepted): past, present and prospectives. In: “The world wheat book: a history of wheat breeding, volume 3,” Alain P. Bonjean, William J. Angus, Maarten Van Ginkel eds. Edition Lavoisier Tec&Doc, ISBN 978-2-7430-2091-0, pp. 1672, Chapter 42, 1297–1343.
Branlard G, Faye A, Méléard B, Le Gouis J, Oury F-X, Ravel C (2019a). Quelle hypothèse approfondir pour appréhender la sensibilité non céliaque au gluten: 1. L’abondance du gluten et la diversité des prolamines Industries des Céréales 211: 34–37.
Branlard G, Rhazi L, Méléard B, Le Gouis J, Ravel C (2019b). Quelle hypothèse approfondir pour appréhender la sensibilité non céliaque au gluten: 2. Les polymères des gluténines. Industries des Céréales 212: 26–29.
Braudel F (1985). Civilisation matérielle, économie et capitalisme XV, XVIII siècles,1. Les structures du quotidien. Poche Editions. Bruneton – Governatori, 1984. Le pain de bois, ethnohistoire de la châtaigne et du châtaignier; Eché Editions. pp. 547.
Bruyérin C (1560). De re Cibaria, L’alimentation de tous les peuples et de tous les temps jusqu’au XVI siècle. Traduit du latin par Sigurd Amundsen, 1998. Editions Intermédiaire des Chercheurs et curieux. pp. 666.
Bushuk W, Rasper VF (Eds.) (1994). Wheat. Production, properties and quality. Springer: Blackie/Chapman and Hall, London, 239 pp.
FAO (2018). World food and agriculture – Statistical pocketbook 2018. Rome. 254 pp.
FAOSTAT (2014). Food and agriculture organization of the United Nations. Statistics Division, Crops data. http://faostat3.fao.org/download/Q/QC/E
Flandrin JL, Montanari M (1996). Histoire de l’alimentation. Fayard Editions, Paris. 392–426.
Igbinedion SO, Ansari J, Vasikaran A, Gavins FN, Jordan P, Boktor M, Alexander JS (2017) Non-celiac gluten sensitivity: all wheat attack is not celiac. World J Gastroenterol. 23(40): 7201–7210.
Johansson E, Malik AH, Hussain A, Rasheed F, Newson WR, Plivelic T,. Hedenqvist MS, Gällstedt M, Kuktaite R (2013). Wheat gluten polymer structures: the impact of genotype, environment, and processing on their functionality in various applications. Cereal Chem 90: 367–376.
Laurière M, Pecquet C, Boulenc E, Bouchez-Mahiout I, Snégaroff J, Choudat D, Raison-Peyron N, Vigan M, Branlard G (2007). Genetic differences in omega-gliadins involved in two different immediate food hypersensitivities to wheat. Allergy, 62. 890–896.
Osborne TB (1907) The proteins of the wheat kernel, by Thomas B. Osborne, Washington, Carnegie Inst.
Peña-Bautista RJ, Hernandez-Espinosa N, Jones JM, Guzmán C, Braun, HJ (2017). CIMMYT Series on carbohydrates, wheat, grains, and health: wheat-based foods: their global and regional importance in the food supply, nutrition, and health. Cereal Foods World 62(5): 231–249.
Pomeranz Y (1971). Wheat chemistry and technology. Published by AACC. 1–2.
Saulnier L, Sado P-E, Branlard G, Charmet G, Guillon F (2007). Wheat arabinoxylans: Exploiting variation in amount and composition to develop enhanced varieties. J Cereal Sci. The Contribution of Cereals to a Healthy Diet, 46: 261–281.
Shewry PR, Hey SJ (2015). The contribution of wheat to human diet and health. Food Energy Secur 4(3): 178–202.
Shewry PR, Charmet G, Branlard G, Lafiandra D, Gergely S, SalgóA, Saulnier L, Bedő Z, Mills C, Ward JL (2012). Developing new types of wheat with enhanced health benefits. Trends Food Sci Technol 25: 70–77.
Wang Z, Li Y, Yang Y, Liu X, Qin H, Dong Z, Wang D (2017). New insight into the function of wheat glutenin proteins as investigated with two series of genetic mutants. Sci Rep 7(1): 3428.
Weiss E, Zohary D, 2011 The neolithic Southwest Asian founder crops: their biology and archaeobotany. Curr Anthropol, 52(S4): S239-S240.
Zevallos VF, Raker V, Tenzer S, Jimenez-Calvente C, Ashfaq-Khan M, Rüssel N, Pickert G, Schild H, Steinbrink K, Schuppan D (2017). Nutritional wheat amylase-trypsin inhibitors promote intestinal inflammation via activation of Myeloid cells. Gastroenterology 152(5): 1100–1113.
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Igrejas, G., Branlard, G. (2020). The Importance of Wheat. In: Igrejas, G., Ikeda, T., Guzmán, C. (eds) Wheat Quality For Improving Processing And Human Health. Springer, Cham. https://doi.org/10.1007/978-3-030-34163-3_1
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