Genetic and Malt Quality Diversity of East Asian Two-Rowed Barley Accessions in Relationship to North American Malting Barley

Guo Tai Yu; Jerome D. Franckowiak; Richard D. Horsley; Paul B. Schwarz

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Genetic and Malt Quality Diversity of East Asian Two-Rowed Barley Accessions in Relationship to North American Malting Barley

机译：东亚两行大麦种质与北美制麦大麦的遗传和麦芽质量多样性

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A causa de las epidemias de fusariosis de la espiga (FHB, causada por Fusarium graminearum Schwabe [teleomorfo Gibberella zeae (Schwein.) Petch]) en el norte de las Planicies Grandes de los Estados Unidos y Canadá en las últimas dos décadas, malta de cebada criadores han visto obligados a uso no adaptada cebada (Hordeum vulgare L.) adhesiones como fuentes de resistencia por FHB. Muchas de las accesiones resistentes son de Asia Oriental, y la información es limitada sobre su diversidad genética y la calidad de la malta. Los objetivos de este estudio fue determinar la diversidad genética entre las 30 accesiones de Asia Oriental y de dos cultivares de América del Norte. La diversidad genética se basa en 49 marcadores de repetición de secuencia simple. Todas las adhesiones fueron probados para el brillo de cebada grano y el contenido de proteína; 1,000-kernel de peso, pérdida de malteado, extracto de malta con una fina molienda, el contenido de granos gordos, nitrógeno amino libre, proteínas solubles, y el β-glucano contenido del mosto; el índice Kolbach (es decir, la proporción de proteína soluble a proteína total de malta); α-amilasa; poder diastásico, el color del mosto, y viscosidad del mosto. A pocas accesiones tenía la misma calidad en comparación con Harrington y Con-lon cebada por los rasgos individuales pero no por todos. Qing 2, Mokkei 93-78 y Nitakia 48 podría ser una excelente fuente para mas extracto de malta; Nitakia 48 es una posible fuente del mosto de viscosidad baja, y Mokkei 93-78 y Nitakia 48 son las fuentes de supuestos para baja β-glucano contenido. El grupo de análisis también implica que la calidad de la malta de una adhesión no se puede predecir en función del país donde se desarrolló.%Because of epidemics of Fusarium head blight (FHB; caused by Fusa-rium graminearum Schwabe [teleomorph Gibberella zeae (Schwein.) Petch]) in the northern Great Plains of the United States and Canada in the past two decades, malting barley breeders have been forced to use nonadapted barley (Hordeum vulgare L.) accessions as sources of FHB resistance. Many of the resistant accessions are from East Asia, and limited information is available on their genetic diversity and malt quality. The objectives of this study were to determine the genetic diversity among 30 East Asian accessions and two North American cultivars. Genetic diversity was based on 49 simple-sequence repeat markers. All accessions were tested for barley grain brightness; protein content; 1,000-kernel weight; malting loss; fine-grind malt extract; content of plump kernels, free amino nitrogen, soluble protein, and wort β-glucan; the Kol-bach index (I.e., the ratio of malt soluble protein to malt total protein); α-amylase activity; diastatic power; wort color; and wort viscosity. A few accessions had equal quality compared with Harrington and Conlon barley for individual traits but not for all. Qing 2, Mokkei 93-78, and Nitakia 48 could be excellent sources for increased malt extract; Nitakia 48 is a possible source for low wort viscosity; and Mokkei 93-78 and Nitakia 48 are putative sources of low β-glucan content. The cluster analyses also implied that the malt quality of an accession cannot be predicted based on the country where it was developed.

机译：由于过去二十年来在美国和加拿大北部大平原的穗状钉镰刀菌病（FHB，由镰刀镰刀菌Schwabe [变态赤霉菌（Schwein。）提取]引起）的流行，大麦育种者被FHB强迫使用不合适的大麦（Hordeum vulgare L.）种作为抗药性来源。许多抗性材料来自东亚，关于其遗传多样性和麦芽质量的信息有限。这项研究的目的是确定东亚和北美两个品种的30个材料之间的遗传多样性。遗传多样性基于49个单序列重复标记。测试所有胶粘剂的大麦谷物光泽度和蛋白质含量； 1,000粒重，麦芽损失，细磨的麦芽提取物，脂肪粒含量，游离氨基氮，可溶性蛋白质和麦芽汁葡聚糖含量；柯尔巴赫指数（即可溶性蛋白与总麦芽蛋白之比）； α-淀粉酶；渗透力，麦芽汁颜色和麦芽汁粘度。与Harrington和Con-lon相比，一些种质具有相同的品质，但这些个性并非全部。 Qing 2，Mokkei 93-78和Nitakia 48可能是获取更多麦芽提取物的极好来源。 Nitakia 48是低粘度麦芽汁的可能来源，Mokkei 93-78和Nitakia 48是低β-葡聚糖含量的假设来源。分析小组还暗示，粘胶麦芽的质量无法预测，具体取决于生长的国家。％由于镰刀菌疫病的流行（FHB；由禾本科禾谷镰刀菌Schwabe [teleomorph Gibberella zeae（在过去的二十年中，在美国和加拿大北部的大平原，麦芽大麦育种者被迫使用不适应的大麦（Hordeum vulgare L.）种作为FHB抗性的来源。许多抗性材料来自东亚，关于其遗传多样性和麦芽品质的信息有限。这项研究的目的是确定30个东亚种和两个北美品种之间的遗传多样性。遗传多样性基于49个简单序列重复标记。测试所有种质的大麦籽粒亮度。蛋白质含量; 1,000内核的重量；麦芽损失；细磨碎的麦芽提取物；饱满的籽粒含量，游离氨基氮，可溶性蛋白和麦芽汁β-葡聚糖； Kol-bach指数（即麦芽可溶性蛋白与麦芽总蛋白之比）； α-淀粉酶活性；透析能力麦汁色和麦芽汁粘度。与Harrington和Conlon大麦相比，一些种质具有相同的品质，但不是全部。 Qing 2，Mokkei 93-78和Nitakia 48可能是增加麦芽提取物的极好来源。 Nitakia 48是低麦芽汁粘度的可能来源。 Mokkei 93-78和Nitakia 48是低β-葡聚糖含量的推定来源。聚类分析还暗示，不能根据开发的国家来预测该品种的麦芽品质。

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来源
《Journal of the American Society of Brewing Chemists》 |2012年第1期|p.79-85|共7页
作者
Guo Tai Yu; Jerome D. Franckowiak; Richard D. Horsley; Paul B. Schwarz;
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作者单位

Department of Plant Sciences, North Dakota State University (NDSU) Department Number 7670, P.O. Box 6050, Fargo;

Queensland Department of Primary Industries & Fisheries, Hermitage Research Station, 604 Yangan Road, Warwick, Queensland 4370, Australia;

Department of Plant Sciences, NDSU;

Department of Plant Sciences, NDSU;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
barley; cluster; genetic; malt; quality;

机译：大麦;簇;遗传麦芽;质量;
入库时间 2022-08-18 00:34:09

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Genetic and Malt Quality Diversity of East Asian Two-Rowed Barley Accessions in Relationship to North American Malting Barley

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