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作物学报 ›› 2020, Vol. 46 ›› Issue (6): 878-888.doi: 10.3724/SP.J.1006.2020.92043

• 作物遗传育种·种质资源·分子遗传学 • 上一篇    下一篇

江苏和东北粳稻稻米理化特性及WxOsSSIIa基因序列分析

赵春芳,岳红亮,田铮,顾明超,赵凌,赵庆勇,朱镇,陈涛,周丽慧,姚姝,梁文化,路凯,张亚东,王才林()   

  1. 江苏省农业科学院粮食作物研究所 / 江苏省优质水稻工程技术研究中心 / 国家水稻改良中心南京分中心, 江苏南京210014
  • 收稿日期:2019-08-13 接受日期:2020-01-15 出版日期:2020-06-12 网络出版日期:2020-01-23
  • 通讯作者: 王才林
  • 作者简介:E-mail: czhao@jaas.ac.cn
  • 基金资助:
    江苏省自然科学基金项目(BK20180302);江苏省农业科技自主创新资金(CX[18]1001);江苏省重点研发计划项目(BE2018357);国家现代农业产业技术体系建设专项(CARS-01-62);江苏省重点生物学实验室项目(4911707Z201705)

Physicochemical properties and sequence analysis of Wx and OsSSIIa genes in japonica rice cultivars from Jiangsu province and northeast of China

ZHAO Chun-Fang,YUE Hong-Liang,TIAN Zheng,GU Ming-Chao,ZHAO Ling,ZHAO Qing-Yong,ZHU Zhen,CHEN Tao,ZHOU Li-Hui,YAO Shu,LIANG Wen-Hua,LU Kai,ZHANG Ya-Dong,WANG Cai-Lin()   

  1. Institute of Food Crops, Jiangsu Academy of Agricultural Sciences / Jiangsu High Quality Rice Research and Development Center / Nanjing Branch of China National Center for Rice Improvement, Nanjing 210014, Jiangsu, China
  • Received:2019-08-13 Accepted:2020-01-15 Published:2020-06-12 Published online:2020-01-23
  • Contact: Cai-Lin WANG
  • Supported by:
    Natural Science Foundation of Jiangsu Province(BK20180302);Jiangsu Agriculture Science and Technology Innovation Fund(CX[18]1001);Key Research and Development Programs of Jiangsu Province(BE2018357);China Agriculture Research System(CARS-01-62);Provincial Key Laboratory of Agrobiology Jiangsu Academy of Agricultural Sciences(4911707Z201705)

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摘要:

依据地理来源和直链淀粉含量将87份供试粳稻品种(系)划分为江苏普通粳稻、东北粳稻和江苏半糯粳稻3种类型, 系统比较了稻米理化性状及淀粉合成主效基因WxOsSSIIa序列的差异, 以探究其食味品质特征及其形成的分子基础。与东北粳稻相比, 江苏普通粳稻的直链淀粉含量偏低, 蛋白质含量和糊化温度偏高, 而胶稠度和RVA谱特征值相当。与江苏普通粳稻和东北粳稻相比, 江苏半糯粳稻具有较低的直链淀粉含量、较大的胶稠度及独特的RVA谱特征。大多数性状变异系数在3种类型粳稻中均较小, 仅消减值变异系数较大, 说明品种(系)间的稻米回生性存在较大差异而其他性状较为一致。各性状间的相关性在3种类型粳稻中表现不尽相同, 说明地理来源和品种特性影响食味品质性状间的相关程度。聚类分析将87份粳稻分为4个类群, 江苏普通粳稻与东北粳稻主要分布于类群I和II, 且品种间相互交错; 类群III由2个江苏普通粳稻品系和1个江苏半糯粳稻(徐稻9号)组成, 多数性状值位于普通粳稻与半糯粳稻之间; 类群IV中均为江苏半糯粳稻。序列分析表明江苏普通粳稻和东北粳稻中Wx b基因无序列差异, 而江苏半糯粳稻在Wx b第4外显子上发生G/A替换, 属Wx mp等位基因型; 江苏省部分粳稻品种(系)携带OsSSIIa(G-GC)等位基因, 从而导致高糊化温度。

关键词: 粳稻, 食味品质, 低直链淀粉含量, Wx, OsSSIIa

Abstract:

According to geographic origin and amylose content, 87 investigated japonica rice cultivars were divided into three types: Jiangsu common japonica rice, Northeast japonica rice and Jiangsu semi-waxy japonica rice. In order to explore the eating quality characteristics of the three types of japonica rice and their molecular basis, the physicochemical properties and the sequence of major genes Wx and OsSSIIa for starch synthesis were analyzed. Compared with Northeast japonica rice, Jiangsu common japonica rice had lower amylose content, higher protein content and gelatinization temperature, and similar gel consistency and RVA profiles. Compared with Northeast japonica rice and Jiangsu common japonica rice, Jiangsu semi-waxy japonica rice contained the lowest amylose content, the highest gel consistency and unique RVA profile. Variation coefficients of all characters except for setback value were small in three types of rice varieties, indicating that there was a great range of retrogradation within all the cultivars. The correlation coefficients among traits were different among three types of japonica rice, which indicated that the correlations were affected by the ecological conditions of different regions and properties of varieties. By cluster analysis, 87 japonica rice varieties (lines) were divided into four groups. Jiangsu common and Northeast japonica rice varieties (lines) were intersected in group I and group II. Group III was composed of two lines of Jiangsu common japonica rice and one semi-waxy variety (Xudao 9), and the most of their character values were ranged between those common japonica rice and semi-waxy japonica rice. The Jiangsu semi-waxy rice varieties (lines) with unique physicochemical characteristics were clustered into group IV. By sequence analysis, there was no difference in Wx b gene between Jiangsu common japonica rice and Northeast japonica rice, but in Jiangsu semi-waxy japonica rice G/A substitution occurred in Exon 4 of Wx b, which is the Wx mp allele. The higher gelatinization temperature in some of Jiangsu japonica rice varieties (lines) was controlled by the allele of OsSSIIa (G-GC).

Key words: japonica rice, eating quality, low amylose content, Wx, OsSSIIa

表1

供试材料信息"

类型
Type		 份数
Number		 材料名称
Variety name
江苏普通粳稻
Jiangsu common japonica rice		 34 武运5020、武运5051、淮稻5号、扬粳3012、武运粳32、武育粳3号、泗稻16、泗稻212、泗稻301、连粳16、江苏省农业科学院粮食作物研究所培育的普通粳稻品系24份
Wuyun 5020, Wuyun 5051, Huaidao 5, Yangjing 3012, Wuyunjing 32, Wuyujing 3, Sidao 16, Sidao 212, Sidao 301, Lianjing 16, 24 breeding lines of common japonica rice bred by the Institute of Food Crops, Jiangsu Academy of Agricultural Sciences
东北粳稻
Northeast japonica rice		 32 稻花香2号、龙洋16、松粳22、松粳34、松香2号、五优稻1号、龙稻16、龙稻18、龙稻25、龙稻28、吉粳113、吉粳302、吉粳303、吉粳306、吉粳511、吉粳512、吉粳526、吉粳528、吉粳803、吉粳809、吉粳81、吉粳83、吉粳88、吉农引6号、沈农9903、长白19、长白20、昌粳1号、昌尹1号、辽粳337、辽粳399、铁粳11
Daohuaxiang 2, Longyang 16, Songjing 22, Songjing 34, Songxiang 2, Wuyoudao 1, Longdao 16, Longdao 18, Longdao 25, Longdao 28, Jijing 113, Jijing 302, Jijing 303, Jijing 306, Jijing 511, Jijing 512, Jijing 526, Jijing 528, Jijing 803, Jijing 809, Jijing 81, Jijing 83, Jijing 88, Jinongyin 6, Shennong 9903, Changbai 19, Changbai 20, Changjing 1, Changyin 1, Liaojing 337, Liaojing 399, Tiejing 11
江苏半糯粳稻
Jiangsu semi-waxy japonica rice		 21 徐稻9号、宁粳8号、苏香粳100、南粳46、南粳5055、南粳9108、南粳2728、南粳505、南粳3908、南粳5718、南粳58、南粳晶谷、江苏省农业科学院粮食作物研究所培育的半糯粳稻品系9份
Xudao9, Ningjing 8, Suxiangjing 100, Nanjing 46, Nanjing 5055, Nanjing 9108, Nanjing 2728, Nanjing 505, Nanjing 3908, Nanjing 5718, Nanjing 58, Nanjing jinggu, 9 breeding lines of semi-waxy japonica rice bred by the Institute of Food Crops, Jiangsu Academy of Agricultural Sciences

表2

试验所用引物的序列信息"

引物名称
Primer		 引物序列
Primer sequence (5°-3°)		 片段长度
Fragment length (bp)
Wx-seq1 F: GTGCCACCGTCGCAGGAGAAGAGATGT 1753
R: GGGGTGGTGGTGTGGGTGGCTATTTGT
Wx-seq2 F: GGCTTCACGCAACGGCGCTACAAATAG 1812
R: CCATTCGCCTGCAAAGAACACAAGAAC
Wx-seq3 F: TCGTCGCTGACCGTCGTCGTCTTCAAC 2327
R: CGCAAGCACAGGGCTGGAGAAATCAAC
Wx-seq4 F: ACGGAACGGTATACAATTTCCATCTAT 1096
R: ACATAAATTCAGGGTCCGATAAGATAC
OsSSIIa-seq1 F: CGCGCACACACTCAAACCC 1573
R: ATCTAACAGCTGGAGTAGCCTT
OsSSIIa-seq2 F: CAGGCCCATACAATTAGGGAT 1426
R: TGTCCCTGCTCAATAATTACCAT
OsSSIIa-seq3 F: AGTTCAGCAATTTCTCCGTTT 1614
R: TCACATCCATTCAGACACGAG
Wx-mp-O F: ATGTTGTGTTCTTGTGTTCTTTGCAGGC 439/292/200
R: GTAGATCTTCTCACCGGTCTTTCCCCAA
Wx-mp-I F: GGGTGAGGTTTTTCCATTGCTACAATCG
R: GTCGATGAACACACGGTCGACTCAAT

表3

3种类型粳稻稻米理化性状比较"

性状
Trait		 江苏普通粳稻
Jiangsu common japonica rice		 东北粳稻
Northeast japonica rice		 江苏半糯粳稻
Jiangsu semi-waxy japonica rice
均值
Mean		 最小值
Min.		 最大值
Max.		 变异
系数 CV (%)		 均值
Mean		 最小值
Min.		 最大值
Max.		 变异
系数
CV (%)		 均值
Mean		 最小值
Min.		 最大值
Max.		 变异
系数
CV (%)
AC (%) 16.5 b 14.2 18.9 7.8 19.0 a 14.8 22.6 9.4 9.2 c 7.5 11.0 10.3
PC (%) 9.0 a 7.2 11.4 10.7 8.5 b 6.4 10.9 12.8 9.2 a 7.1 10.6 9.5
GC (mm) 68.8 b 52.0 85.0 14.4 69.4 b 58.5 86.5 10.2 84.2 a 76.5 98.5 7.2
GT (°C) 73.4 a 68.9 80.0 3.5 70.7 b 67.3 74.5 2.2 73.2 a 69.6 80.7 3.8
PV (cP) 2462.0 a 1973.0 2944.0 10.5 2441.5 a 1796.0 2946.0 9.5 2502.8 a 1705.0 2953.0 15.0
TV (cP) 1560.4 a 1210.0 1950.0 13.3 1586.1 a 1110.0 2104.0 15.6 1261.8 b 763.0 1765.0 22.4
FV (cP) 2602.4 a 2135.0 3017.0 8.7 2634.9 a 2015.0 3243.0 10.6 1823.0 b 1229.0 2461.0 18.3
BDV (cP) 901.6 b 586.0 1284.0 18.4 855.4 b 479.0 1222.0 22.0 1241.0 a 942.0 1683.0 16.5
SBV (cP) 140.4 a -193.0 456.0 105.9 193.4 a -212.0 471.0 86.5 -679.9 b -1269.0 -334.0 36.5
Pet (min) 6.4 a 6.1 6.7 2.6 6.5 a 6.1 6.9 3.4 5.9 b 5.2 6.3 5.1

图1

3种类型粳稻理化性状的频率分布 a: 直链淀粉含量; b: 胶稠度; c: 糊化温度; d: 崩解值; e: 消减值; f: 峰值时间。"

图2

3种类型粳稻的RVA谱曲线"

表4

3种类型粳稻稻米理化性状间的相关系数"

性状
Trait		 直链淀粉
含量AC		 蛋白质含量PC 胶稠度
GC		 糊化温度
GT		 峰值黏度
PV		 热浆黏度
TV		 最终黏度
FV		 崩解值
BDV		 消减值
SBV
蛋白质
含量PC		 -0.054
0.278
0.061
直链淀粉
含量GC		 0.307 0.343*
-0.081 0.097
-0.204 -0.036
糊化温度
GT		 -0.291 0.662** -0.137
-0.176 0.336 0.296
-0.366 0.269 0.348
峰值黏度
PV		 -0.089 0.427* 0.268 0.693**
0.046 0.251 -0.047 0.455**
-0.056 -0.187 0.111 0.123
热浆黏度
TV		 -0.228 0.433** 0.295 0.470** 0.768**
0.329 0.343 0.148 0.479** 0.691**
0.240 -0.146 -0.036 -0.234 0.842**
最终黏度
FV		 -0.159 0.334* 0.267 0.408* 0.820** 0.938**
0.285 0.389* 0.068 0.404* 0.803** 0.906**
0.400 -0.165 -0.072 -0.323 0.761** 0.972**
崩解值
BDV		 0.146 0.032 0.050 0.493** 0.600** -0.051 0.108
-0.375* -0.153 -0.252 -0.070 0.321 -0.463** -0.203
-0.435* -0.139 0.254 0.549** 0.667** 0.159 0.049
消减值
SBV		 -0.088 -0.239 -0.060 -0.584** -0.492** 0.090 0.095 -0.880**
0.414* 0.303 0.179 0.047 -0.039 0.562** 0.565** -0.784**
0.625** 0.057 -0.265 -0.622** -0.487* 0.036 0.196 -0.942**
峰值时间
Pet		 -0.162 0.311 0.223 -0.003 0.129 0.678** 0.526** -0.647** 0.576**
0.310 0.320 0.284 0.522** 0.358* 0.885** 0.678** -0.721** 0.642**
0.551** 0.045 -0.305 -0.635** 0.157 0.645** 0.708** -0.604** 0.717**

图3

87份粳稻品种(系)的聚类分析"

图4

Wx基因等位变异(a、c)及Wxmp基因型检测(b) "

图5

OsSSIIa在不同糊化温度粳稻品种(系)中的序列分析"

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