Crops ›› 2023, Vol. 39 ›› Issue (4): 260-266.doi: 10.16035/j.issn.1001-7283.2023.04.037

Previous Articles    

Breeding and Application of Elite Waxy Sorghum Male Sterile Line “Ji 5535A”

Chen Bingru(), Yu Miao, Shi Guishan, Wang Jianghong, Tang Yujie, Xu Chen, Li Haiqing, Xu Ning, Zhou Ziyang(), Wang Nai()   

  1. Institute of Crop Germplasm Resources, Jilin Academy of Agricultural Sciences, Changchun 130033, Jilin, China
  • Received:2022-02-11 Revised:2022-04-01 Online:2023-08-15 Published:2023-08-15

RichHTML

4

PDF (PC)

75

Abstract:

To breed elite waxy sorghum male sterile lines for early-maturing area in China, Ji 2055B was selected as female parent, a elite non-waxy sorghum maintainer line with strong combining ability, strong disease resistance and excellent grain quality, a dwarf waxy material from the progeny of non-waxy maintainer line 406B and waxy maintainer line ICS-34B was used as waxy donor. Through crossing of one generation, selfing of ten generations and backcrossing of five generations in five years, the elite waxy sorghum male sterile lines Ji 5535A were successfully bred. Ji 5535A had good grain quality, its amylopectin content was 99.17%, crude protein content was 14.29%, crude fat content was 3.15%, tannin content was 0.01%, lysine content was 0.33%, and 1000-grain weight reached 27.2g. Ji 5535A had strong disease resistance, high resistance to sorghum head smut, resistance anthracnose and target leaf spot, moderate resistance to stalk rot. The waxy allele of Ji 5535A was wxb by molecular marker analysis. High-quality forage and edible sorghum hybrids could be bred through Ji 5535A and low tannin restorer lines, and high-quality brewing sorghum hybrids could be bred through Ji 5535A and high tannin restorer lines. The resulted revealed that Ji 5535A was an excellent male sterile line for cultivating brewing, grain forage and edible sorghum hybrids. Ji 5535A expanded the genetic basis of waxy male sterile lines and provided excellent germplasm for the improvement of sorghum male sterile lines in China. Meanwhile, it improved the yield and quality of waxy sorghum hybrids in early maturing area, and promoted the cultivation of brewing, forage and edible sorghum hybrids.

Key words: Sorghum, Waxy, Male sterile lines, Ji 5535A

Table 1

The primers of allelic variation of Waxy"

引物名称
Primer name		 引物序列
Primer sequence		 扩增产物
Amplification product (bp)		 检测方法
Test method		 功能
Function
Wxa-F CGTGGCGAGATCAAACTCTA 615或523 电泳 用于区分Wxa和野生型及其他3种突变[18-19],当扩增片段为615bp时,为Wxa。当扩增片段为523bp时,为Wx-WT、WxbWxcWxd
Wx-F GGCCTGGATTCAATGTTCTT
Wx-R CTGGTTGTCCTTGTAG
Wx-F2 GGCATCTACAAGGACGCAAAG 990 测序 通过测序区分Wx-WT、WxbWxcWxd
Wx-R2 CGCGTTGAACTTGACCAC

Fig.1

The breeding process of Ji 5535A"

Fig.2

Comparison of genetic distance between Ji 5535A, Ji 2055A, Ji 521A and backbone restorer lines"

Fig.3

The results of Waxy sequencing of Ji 5535A, Ji 2055A and Ji 521A (a) the agarose electrophoresis result showed that the amplified fragment of Ji 5535A was 523bp by Wxa-F、Wx-F and Wx-R primers, the Waxy allele mutation of Ji 5535A was not Wxa and was one of Wx-WT、Wxb、Wxc and Wxd. (b) Sequenced after PCR amplification using the primers Wx-F2 and Wx-R2, the sequencing result showed that the Waxy allele mutation of Ji 5535A was Wxb type and 804 site G mutated to T in CDS"

Table 2

Comparison of quality traits between Ji 5535A and other backbone waxy sterile lines"

种质名称
Germplasm name		 总淀粉含量
Starch content (%)		 支链淀粉含量
Amylopectin content (%)		 粗蛋白含量
Protein content (%)		 单宁含量
Tannin content (%)		 千粒重
1000-grain weight (%)
吉5535A Ji 5535A 69.53 99.17 14.29 0.01 27.2
45A 75.56 98.12 8.23 0.41 24.1
13163A 73.01 99.18 12.45 0.03 25.3
72A 73.89 96.00 9.35 0.17 22.2
张2A Zhang 2A 73.55 96.99 9.42 0.08 21.3
永糯2A Yongnuo 2A 70.88 98.85 9.30 0.13 20.6

Table 3

Comparison of quality traits between waxy sorghum hybrids bred by Ji 5535A and main waxy hybrids from different ecological regions"

种质名称
Germplasm name		 总淀粉含量
Starch content (%)		 支链淀粉含量
Amylopectin content (%)		 蛋白含量
Protein content (%)		 单宁含量
Tannin content (%)		 脂肪
Fat content (%)
吉杂238 Jiza 238 75.47 99.37 9.91 1.10 3.21
吉糯杂3号Jinuoza 3 76.25 98.10 9.23 1.02 4.18
吉糯杂9号 Jinuoza 9 75.80 97.44 8.69 1.09 2.29
晋糯杂3号Jinnuoza 3 74.38 97.00 9.56 1.01 3.44
辽粘3号Liaonian 3 78.09 91.29 8.14 1.47 3.54
辽糯11 Liaonuo 11 76.26 93.78 8.82 1.04 3.99
金糯粱1号Jinnuoliang 1 73.86 98.30 8.63 1.13 3.86
川糯粱1号Chuannuoliang 1 73.29 98.64 8.57 1.54 3.75
机糯粱2号Jinuoliang 2 73.43 99.02 9.70 1.31 4.16
[1] Denyer K, Johnson P, Zeeman S, et al. The control of amylose synthesis. Journal of Plant Physiology, 2001, 158(4):479-487.
doi: 10.1078/0176-1617-00360
[2] Pedersen J, Bean S, Graybosch R, et al. Characterization of waxy grain sorghum lines in relation to granule-bound starch synthase. Euphytica, 2005, 144(1):151-156.
doi: 10.1007/s10681-005-5298-5
[3] Kawahigashi H, Oshima M, Nishikawa T, et al. A novel waxy allele in sorghum landraces in East Asia. Plant Breeding, 2013, 132:305-310.
doi: 10.1111/pbr.2013.132.issue-3
[4] Karper R E. Inheritance of waxy endosperm in sorghum. Journal of Heredity, 1933, 24:257-262.
doi: 10.1093/oxfordjournals.jhered.a103794
[5] 白文斌, 张福跃, 焦晓燕, 等. 中国高粱产业工程技术研究的定位思考. 中国农学通报, 2013, 29(11):107-110.
[6] 毛祥文, 雪瓶, 黄丹, 等. 5种常用酿酒高粱的主要成分及淀粉特此差异分析. 中国酿造, 2020, 39(3):57-62.
[7] 许德富, 沈才洪, 张宿义. 酿造高品质白酒让世界品味中国. 酿酒, 2011, 38(4):9-12.
[8] 张丽平, 张敏, 侯格妮, 等. 高粱吸水率和膨胀率测定参数优化及应用. 中国酿造, 2021, 40(8):201-205.
[9] 郭世鑫, 姚孟琦, 马文瑞, 等. 酱香型白酒的研究现状. 中国酿造, 2021, 40(11):1-6.
[10] 徐占成, 徐姿静. 酒体风味设计学概论. 酿酒, 2012, 39(6):3-8.
[11] Rooney L W, Flugfelder R L. Factors affecting starch digestibility with special emphasis on sorghum and corn. Journal of Animal Science, 1986, 63:1607-1623.
doi: 10.2527/jas1986.6351607x pmid: 3539904
[12] Wong J H, Lau T, Cai N, et al. Digestibility of protein and starch from sorghum (Sorghum bicolor) is linked to biochemical and structural features of grain endosperm. Journal of Cereal Science, 2009, 49:73-82.
doi: 10.1016/j.jcs.2008.07.013
[13] 董怀玉, 徐秀德, 姜钰, 等. 高粱糯质资源创新及其利用研究. 植物遗传资源学报, 2007, 8(3):321-324.
[14] 王江红, 闫鸿雁, 石贵山, 等. 高粱不育系吉521A的选育及应用. 现代农业科技, 2016(18):31,35.
[15] 王江红, 闫鸿雁, 马英慧, 等. 食用优质米高粱杂交种吉杂305号选育. 安徽农学通报, 2008, 14(3):134-135.
[16] 李继洪, 陈冰嬬, 高士杰. 高粱不育系吉2055A特征特性与应用潜力分析. 安徽农业科学, 2011, 39(28):17192-17194.
[17] Murray M G, Thompson W F. Rapid isolation of high molecular weight plant DNA. Nucleic Acids Research, 1980, 8:4321-4325.
doi: 10.1093/nar/8.19.4321 pmid: 7433111
[18] McIntyre C L, Drenth J, Gonzalez N, et al. Molecular characterization of the waxy locus in sorghum. Genome, 2008, 51:524-533.
doi: 10.1139/G08-035 pmid: 18545276
[19] Lu Y G, Zhao G L, Li Y, et al. Identification of two novel waxy alleles and development of their molecular markers in sorghum. Genome, 2013, 56:283-288.
doi: 10.1139/gen-2013-0047 pmid: 23789996
[20] 倪先林, 赵甘霖, 刘天朋, 等. 优质高配合力糯质高粱不育系45A的选育与应用. 园艺与种苗, 2014(11):11-14.
[21] 倪先林, 李元, 赵甘霖, 等. 糯高粱不育系13163A的特征特性及繁殖制种技术. 种子, 2019, 38(2):138-139.
[22] 曲祥春, 王鼐, 石贵山, 等. 同异分析法在粒用高粱杂交种评价中的应用. 作物杂志, 2021(3):46-50.
[1] Xie Wenjin, Li Fangming, Li Ning, Yang Hailong, Fu Jun, Zhang Zhongwei, Gao Xudong, Feng Guang. Analysis of Yield, Quality Traits and TestingSite Discrimination of Fresh Waxy Corn in Northern China Based on GGE Biplot [J]. Crops, 2023, 39(4): 85-90.
[2] Xiao Jibing, Liu Zhi, Kong Fanxin, Xin Zongxu, Wu Hongsheng. Analysis of Agronomic Traits and Yield Stability of Sorghum Varieties Based on GGE Biplot [J]. Crops, 2023, 39(2): 36-45.
[3] Zhang Ruidong, Liang Xiaohong, Liu Jing, Nan Huailin, Wang Songyu, Cao Xiong. Effects of Seed Priming on Germination and Physiological Characteristics of Sorghum Seeds under Drought Stress [J]. Crops, 2022, 38(6): 234-240.
[4] Wang Yubin, Niu Hao, Lü Xin, Chu Jianqiang, Wang Rui, Fan Fangfang, Ju Lan, Li Huiming, Ping Jun’ai. Influence of Barren Stress on Main Agronomic Traits and Evaluation of Barren-Tolerance in Sorghum Varieties [J]. Crops, 2022, 38(5): 78-86.
[5] Gao Jie, Li Xiaorong, Feng Guangcai, Li Qingfeng, Peng Qiu. Difference Analysis of Dry Matter and Nitrogen Accumulation and Translocation of Waxy Sorghum Applied in Different Eras in Guizhou Province [J]. Crops, 2021, 37(5): 50-56.
[6] Gao Jie, Feng Guangcai, Li Xiaorong, Li Qingfeng, Wang Can, Zhang Guobing, Zhou Lengbo, Peng Qiu. Effects of Nitrogen Fertilizer on Yield and Nitrogen Use Characteristics in Waxy Sorghum Cultivar "Hongyingzi" [J]. Crops, 2021, 37(4): 118-122.
[7] Zhang Ruidong, Gao Mingyue, Yue Zhongxiao, Zhou Yufei, Cao xiong. Effects of Drought at Different Stages of Grain Filling Period on Starch Accumulation of Sorghum Grains [J]. Crops, 2021, 37(4): 172-177.
[8] Qu Xiangchun, Wang Nai, Shi Guishan, Yu Miao, Li Haiqing, Gao Yue, Xu Ning, Chen Bingru. Application in Similarity-Difference Analysis Method on Evaluation of Grain Sorghum Hybrids [J]. Crops, 2021, 37(3): 46-50.
[9] Cao Xiaoyan, Wu Ailian, Wang Jinsong, Dong Erwei, Jiao Xiaoyan. Effects of Nitrogen Fertilization on Yield, Quality and Nitrogen Utilization Efficiency of Sorghum [J]. Crops, 2021, 37(2): 108-115.
[10] Sun Hui, Zhang Liping, Hou Qiling, Bai Xiucheng, Yang Jifang, Zhang Fengting, Zhao Changping. Analysis on the Relationship between Fertility and Photosynthetic Characteristics in the BS Type Photo-Thermal Sensitive Male Sterile Wheat Lines under Controlled Condition [J]. Crops, 2021, 37(1): 7-15.
[11] Wang Rui, Ping Jun′ai, Zhang Fuyao, Zhan Pengjie, Chu Jianqiang. Identification and Evaluation of Sorghum Breeding Resources for Barren Tolerance [J]. Crops, 2020, 36(6): 30-37.
[12] Gao Jie, Feng Guangcai, Li Xiaorong, Li Qingfeng, Peng Qiu. Phenotypic Diversity and Clustering Analysis of Sorghum Germplasm Resources in Different Regions of Guizhou Province [J]. Crops, 2020, 36(6): 54-60.
[13] Zhu Zhengbin, Yang yong, Feng Linhao, Lu Yan, Shen Xuelin, Liu Qiaoquan, Zhang Changquan. Study on Physicochemical Properties of Local Waxy Rice Varieties Yaxuenuo and Suyunuo from Taihu Lake Area [J]. Crops, 2020, 36(4): 91-98.
[14] Shi Lijuan, Bai Wenbin, Cao Changlin, Gao Peng. Effects of Exogenous Selenium Application on Yield, Grain Selenium Content and Quality in Sorghum [J]. Crops, 2020, 36(3): 191-196.
[15] Zhou Wei,Cui Fuzhu,Duan Hongkai,Hao Guohua,Yang Hui,Liu Ruirui. Effects of Sowing Date on Yield and Quality of Waxy Maize [J]. Crops, 2020, 36(2): 156-161.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!