QTL mapping of starch granule size in common wheat using recombinant inbred lines derived from a PH82-2/Neixiang188 cross 被引量：2

QTL mapping of starch granule size in common wheat using recombinant inbred lines derived from a PH82-2/Neixiang188 cross

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摘要 Starch is a crucial component determining the processing quality of wheat(Triticum aestivum L.)-based products. Wheat starch generally contains A-type and B-type starch granules, having different effects on starch properties and end-use qualities. In the present study, 240 recombinant inbred lines(RILs) derived from a PH82-2/Neixiang 188 cross were grown in Anyang, Henan, China, during three cropping seasons. A-type and B-type granule contents were determined using a laser diffraction particle size analyzer, defined as the percentage of total starch volume. A total of 195 SSR and STS markers were used to construct a genetic map. QTL analysis was performed by composite interval mapping. Three QTL for A-type starch granule content were mapped on chromosomes 1DL, 7BL and 4AL, explaining5.6%, 5.2% and 3.8% of the phenotypic variation, respectively. These results provide useful information for improving starch quality in common wheat. Starch is a crucial component determining the processing quality of wheat(Triticum aestivum L.)-based products. Wheat starch generally contains A-type and B-type starch granules, having different effects on starch properties and end-use qualities. In the present study, 240 recombinant inbred lines(RILs) derived from a PH82-2/Neixiang 188 cross were grown in Anyang, Henan, China, during three cropping seasons. A-type and B-type granule contents were determined using a laser diffraction particle size analyzer, defined as the percentage of total starch volume. A total of 195 SSR and STS markers were used to construct a genetic map. QTL analysis was performed by composite interval mapping. Three QTL for A-type starch granule content were mapped on chromosomes 1DL, 7BL and 4AL, explaining5.6%, 5.2% and 3.8% of the phenotypic variation, respectively. These results provide useful information for improving starch quality in common wheat.

作者 Nan Feng Zhonghu He Yong Zhang Xianchun Xia Yan Zhang

机构地区 Institute of Crop Science International Maize and Wheat Improvement Center (CIMMYT) China Office

出处《The Crop Journal》 SCIE CAS 2013年第2期166-171,共6页 作物学报（英文版）

基金 supported by the National Natural Science Foundation of China (31171547) China Agriculture Research System (CARS-3-1-3).

关键词 TRITICUM AESTIVUM QTL STARCH GRANULE size distribution A-TYPE STARCH GRANULE B-type STARCH GRANULE Triticum aestivum QTL Starch granule size distribution A-type starch granule B-type starch granule

分类号 S512.1 [农业科学—作物学]

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参考文献10

1YIN Yong-an,QI Jun-cang,LI Wei-hua,CAO Lian-pu,WANG Zi-bu.Formation and Developmental Characteristics of A- and B-Type Starch Granules in Wheat Endosperm[J].Journal of Integrative Agriculture,2012,11(1):73-81. 被引量：9
2Hyun-Seok Kim,Kerry C. Huber.Physicochemical properties and amylopectin fine structures of A- and B-type granules of waxy and normal soft wheat starch[J].Journal of Cereal Science.2010(3)
3Yu-Chan Huang,Hsi-Mei Lai.Noodle quality affected by different cereal starches[J].Journal of Food Engineering.2009(2)
4Chuanhui Zhang,Dong Jiang,Fulai Liu,Jian Cai,Tingbo Dai,Weixing Cao.Starch granules size distribution in superior and inferior grains of wheat is related to enzyme activities and their gene expressions during grain filling[J].Journal of Cereal Science.2009(2)
5ZHAO Jing-lan,CHEN Min-sheng,MA Yan-ming,LI Rui-jun,REN Yong-pan,SUN Qing-quan,LI Si-shen.QTL Mapping for Quality Traits of Chinese Dry Noodle[J].Agricultural Sciences in China,2009,8(4):394-400. 被引量：3
6Les Copeland,Jaroslav Blazek,Hayfa Salman,Mary Chiming Tang.Form and functionality of starch[J].Food Hydrocolloids.2008(6)
7Hyun-Seok Kim,Kerry C. Huber.Channels within soft wheat starch A- and B-type granules[J].Journal of Cereal Science.2007(1)
8IsaacRoldán,FabriceWattebled,M.Mercedes Lucas,DavidDelvallé,VeroniquePlanchot,SebastianJiménez,RicardoPérez,StevenBall,ChristopheD’Hulst,ángelMérida.The phenotype of soluble starch synthase IV defective mutants of Arabidopsis thaliana suggests a novel function of elongation enzymes in the control of starch granule formation[J].The Plant Journal.2007(3)
9Z.Chen,H.A.Schols,A.G.J.Voragen.Starch Granule Size Strongly Determines Starch Noodle Processing and Noodle Quality[J].Journal of Food Science.2006(5)
10S. Sahlstr?m,A.B. B?vre,E. Br?then.Impact of Starch Properties on Hearth Bread Characteristics. II. Purified A- and B-granule Fractions[J].Journal of Cereal Science.2003(3)

二级参考文献26

1胡新中,张国权,张正茂,欧阳韶晖,郑建梅,郭波莉,周丽.小麦面粉、面条色泽与蛋白质组分的关系[J].作物学报,2005,31(4):515-518. 被引量：26
2赵京岚,李斯深,范玉顶,孙海燕,李瑞军.利用RIL群体分析HMW-GS对面条品质性状的量化效应[J].中国粮油学报,2005,20(3):9-12. 被引量：4
3阚世红,王宪泽,于振文.淀粉化学结构、面粉黏度性状与面条品质关系的研究[J].作物学报,2005,31(11):1506-1510. 被引量：9
4B(a)ga M,Nair R B,Repellin A,Scoles G J,Chibbar R N. Isolation of a cDNA encoding a granule-bound 152-kilodalton starch-branching enzyme in wheat[J].Plant Physiology,2000.253-264.
5Baldwin P M. Starch granule associated proteins and polypeptides:a review[J].Starke,2001.475-503.
6Ball S G,van de Wal H B J M,Visser R G F. Progress in understanding the biosynthesis of amylose[J].Trends in Plant Science,1998.1360-1385.
7Bechtel D B,Wilson J D. Amyloplast formation and starch granule development in hard red winter wheat[J].Cereal Chemistry,2003.175-183.
8Chen M F,Huang R M,Powers J R,Harriman R W,Knight M,Singletary C W,Keeling P L,W. Physical association of starch biosynthetic enzymes with starch granules of maize endosperm[J].Plant Physiology,1996.821-829.
9Chiotelli E,le Meste M. Effect of small and large wheat starch granules on thermomechanical behavior of starch[J].Cereal Chemistry,2002.286-293.
10Darlington H F,Tecsi L,Harris N,Griggs D L,Cantrell I C,Shewry P R. Starch granule associated proteins in barley and wheat[J].Journal of Cereal Science,2000.21-29.

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1银永安,陈林,李继忠,陈东,胡成成.杂交小麦垦冬杂1号在新疆天业示范与应用[J].大麦与谷类科学,2015,32(4):53-54.
2ZHANG Yan,GUO Qi,FENG Nan,WANG Jin-rong,WANG Shu-jun,HE Zhong-hu.Characterization of A-and B-type starch granules in Chinese wheat cultivars[J].Journal of Integrative Agriculture,2016,15(10):2203-2214. 被引量：9
3王凤,齐军仓,郑许光,郭亚南,龚磊,王少玉,陈阿龙,黄湘怡,李忠豪,宋瑞娇.人工老化对大麦种子活力及其萌发早期淀粉分解和内源激素的影响[J].新疆农业科学,2017,54(1):33-42. 被引量：6
4刘娣,李欢欢,聂文文,马慧,张焕丽.小麦淀粉大颗粒和小颗粒(A-型颗粒和B-型颗粒)的分离纯化与理化性质差异综述[J].食品科技,2017,42(2):251-255. 被引量：4
5王凤,齐军仓,郭亚南,郑许光,龚磊,王少玉,陈阿龙,黄湘怡,李忠豪,宋瑞娇.人工老化处理对大麦种子萌发早期淀粉及淀粉酶活性的影响[J].中国粮油学报,2017,32(8):14-21. 被引量：2
6张秋会,宋莲军,黄现青,赵秋艳,崔文明,王凡.质构仪在食品分析与检测中的应用[J].农产品加工（下）,2017(12):52-56. 被引量：75
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8蔡雨佳,杨凯钧,高科,郝龙,李昕芮,韩晓翠,周晓燕,王德鹏.不同小麦品种淀粉粒径的比较研究[J].山东农业科学,2021,53(7):46-50. 被引量：4
9刘婕,艾菊,高冬丽.马铃薯块茎不同发育时期淀粉合成相关基因表达与淀粉颗粒大小分析[J].云南师范大学学报（自然科学版）,2022,42(5):32-36. 被引量：1
10谢新华,郭东旭,宋一诺,艾志录,王娜.脂肪酸对小麦淀粉糊化特性及热特性的影响[J].麦类作物学报,2014,34(7):957-962. 被引量：16

同被引文献26

1徐卫红.ATP合成酶及其功能机制综述[J].上饶师范学院学报,2004,24(3):36-40. 被引量：9
2万富世,王光瑞,李宗智.我国小麦品质现状及其改良目标初探[J].中国农业科学,1989,22(3):14-21. 被引量：100
3徐荣敏,王晓曦.小麦淀粉的理化特性及其与面制品品质的关系[J].粮食与饲料工业,2005(10):23-24. 被引量：31
4何中虎,晏月明,庄巧生,张艳,夏先春,张勇,王德森,夏兰芹,胡英考,蔡民华,陈新民,阎俊,周阳.中国小麦品种品质评价体系建立与分子改良技术研究[J].中国农业科学,2006,39(6):1091-1101. 被引量：124
5吴云鹏,张业伦,肖永贵,阎俊,张勇,张晓科,张利民,夏先春,何中虎.小麦重要品质性状的QTL定位[J].中国农业科学,2008,41(2):331-339. 被引量：28
6孙海艳,吕建华,范玉顶,赵岩,孔繁美,李斯深.小麦蛋白质和淀粉品质性状的QTL分析[J].自然科学进展,2008,18(5):505-513. 被引量：7
7蒋智文,刘新光,周中军.组蛋白修饰调节机制的研究进展[J].生物化学与生物物理进展,2009,36(10):1252-1259. 被引量：31
8李芬芬,张本山.淀粉颗粒粒径不同测定方法的比较[J].食品与发酵工业,2010,36(4):171-174. 被引量：23
9YIN Yong-an,QI Jun-cang,LI Wei-hua,CAO Lian-pu,WANG Zi-bu.Formation and Developmental Characteristics of A- and B-Type Starch Granules in Wheat Endosperm[J].Journal of Integrative Agriculture,2012,11(1):73-81. 被引量：9
10石培春,王光利,王小国,张薇,曹连莆.小麦籽粒淀粉主要特性的QTL定位[J].核农学报,2012,26(2):210-216. 被引量：7

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1石瑛,谢雪莹,赵家慧,许柯银.不同加工型马铃薯块茎中淀粉含量及其理化特性差异分析[J].东北农业大学学报,2024,55(6):1-13.

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2车少臣.杀菌剂粒剂(granule)在草坪土传病害防治上的应用[J].北京园林,2002,18(1):33-34.
3WU Ling,XIA Xian-chun,ZHENG You-liang,ZHANG Zheng-yu,ZHU Hua-zhong,LIU Yong-j ian,YANG En-nian,LI Shi-zhao,HE Zhong-hu.QTL Mapping for Adult-Plant Resistance to Stripe Rust in a Common Wheat RIL Population Derived from Chuanmai 32/Chuanyu 12[J].Journal of Integrative Agriculture,2012,11(11):1775-1782.
4PENG Dian-liang,CAI Tie,YIN Yan-ping,YANG Wei-bing,NI Ying-li,YANG Dong-qing,WANG Zhen-lin.Exogenous Application of Abscisic Acid or Gibberellin Acid Has Different Effects on Starch Granule Size Distribution in Grains of Wheat[J].Journal of Integrative Agriculture,2013,12(9):1551-1559. 被引量：12
5闫好民,韩萍.农药水分散性粒剂简述[J].浙江化工,2006,37(2):23-25. 被引量：3
6赵飞,尹维娜,曲丽君,东丽,华泽田.水稻外观品质与产量构成因素的QTL解析[J].核农学报,2014,28(6):990-997. 被引量：7
7TIAN Fu-kuan,RUAN Ban-pu,YAN Mei-xian,YE Shi-fang,PENG You-lin,DONG Guo-jun,ZHU Li,HU Jiang,YAN Hong-lan,GUO Long-biao,QIAN Qian,GAO Zhen-yu.Genetic Analysis and QTL Mapping of Mature Seed Culturability in Indica Rice[J].Rice science,2013,20(5):313-319. 被引量：3
8TANGJiu-you,JIANGLing,ZHANGWen-wei,WANGChun-ming,LIUShi-jia,CHENLiang-ming,ZHAIHu-qu,AtsushiYoshimura,WANJian-min.Analysis of QTL for Seed Dormancy and Their Response to Dry Heat Treatment in Rice (Oryza sativa L.)[J].Agricultural Sciences in China,2004,3(9):641-648.
9ZHANG Zheng-sheng(College of Agronomy & Biotechnology,Southwest University,Chongqing 400716,China).Construction of Genetic Linkage Map and QTL Mapping for Fiber Quality in Upland Cotton[J].棉花学报,2008,20(S1).
10NIE Yongfang,CHENG Jianfeng,ZHANG Sujun,CAO Jun,WANG Yushun.Detection Precision of Seedmeter for Large-granule Seeds[J].Journal of Northeast Agricultural University(English Edition),2011,18(1):63-66.

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