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Acta Agronomica Sinica ›› 2021, Vol. 47 ›› Issue (2): 376-382.doi: 10.3724/SP.J.1006.2021.04119

• RESEARCH NOTES • Previous Articles    

Identification of brown rust resistance and molecular detection of Bru1 gene in new and main cultivated sugarcane varieties

ZHANG Rong-Yue(), WANG Xiao-Yan, YANG Kun, SHAN Hong-Li*(), CANG Xiao-Yan, LI Jie, WANG Chang-Mi, YIN Jiong, LUO Zhi-Ming, LI Wen-Feng, HUANG Ying-Kun*()   

  1. Sugarcane Research Institute, Yunnan Academy of Agricultural Sciences / Yunnan Key Laboratory of Sugarcane Genetic Improvement, Kaiyuan 661699, Yunnan, China
  • Received:2020-06-01 Accepted:2020-08-19 Online:2021-02-12 Published:2020-09-02
  • Contact: SHAN Hong-Li,HUANG Ying-Kun E-mail:rongyuezhang@hotmail.com;shhldlw@163.com;huangyk64@163.com
  • Supported by:
    National Natural Science Foundation of China(31660419);China Agriculture Research System(CARS-170303);Yunling Industry and Technology Leading Talent Training Program “Prevention and Control of Sugarcane Pests”(2018LJRC56);Yunnan Province Technology Innovation Talent Training Object Project, and the Yunnan Province Agriculture Research System

Abstract:

The aim of this study was to assess brown rust resistance of new sugarcane varieties bred in China and main cultivated varieties in sugarcane planting area, and screen the elite new brown rust resistant varieties for popularization and application in production. In total, 60 new varieties in the national regional test of new sugarcane varieties were tested in Kaiyuan and Lincang, and 34 main cultivated varieties were studied in Lincang, Puer, and Yuxi, Yunnan province, and Yizhou, Guangxi province, China, where the incidence of brown rust was particularly high. The resistance of these sugarcane varieties to brown rust was investigated under natural inoculation and molecular marker-assisted identification was used to detect the brown rust resistance gene Bru1. The results of field survey showed that 66 (70.21%) of the 94 new and main cultivated varieties were highly resistant to moderately resistant, and 28 (29.79%) were susceptible to highly susceptible. Molecular detection indicated that Bru1 gene was found among 54 (57.45%) of the 94 new and main cultivated varieties. Some main cultivated varieties that were currently planted across large areas such as Guitang 29, Guitang 44, Dezhe 03-83, Liucheng 03-1137, Yuetang 60, and Guitang 46 were highly susceptible to brown rust, and 31 new varieties such as Yuegan 48, Funong 09-2201, Guitang 08-120, Liucheng 09-15, Zhongzhe 1, Yunzhe 08-1609, Yunrui 10-187, and Zhongtang 1201 were resistant. Therefore, in the sugarcane planting areas with high incidence of brown rust and wet and rainy climates, more effort should be eliminated the main susceptible varieties and promoted the application of new resistant varieties. This will help to achieve a reasonable distribution of varieties, fundamentally control the outbreak of disease in sugarcane planting areas, and provide security for the high-quality development of sugarcane industry in China in the future.

Key words: sugarcane, main cultivated varieties, brown rust, brown rust resistance gene Bru1, resistance

Table 1

PCR detection of Bru1 and evaluation of field resistance to Puccina melanocephala in new sugarcane varieties"

品种
Variety
病级
Disease grade
抗性反应
Resistance response
Bru1的PCR检测结果
PCR detection of Bru1
粤甘48号 Yuegan 48 1 高抗 HR +
福农09-2201 Funong 09-2201 1 高抗 HR +
福农09-7111 Funong 09-7111 1 高抗 HR -
福农11-2907 Funong 11-2907 1 高抗 HR -
桂糖08-120 Guitang 08-120 1 高抗 HR +
桂糖08-1533 Guitang 08-1533 1 高抗 HR +
桂糖11-1076 Guitang 11-1076 1 高抗 HR +
柳城09-15 Liucheng 09-15 1 高抗 HR +
中蔗1号 Zhongzhe 1 1 高抗 HR +
云蔗08-1095 Yunzhe 08-1095 1 高抗 HR +
云蔗08-1609 Yunzhe 08-1609 1 高抗 HR +
云蔗11-1204 Yunzhe 11-1204 1 高抗 HR +
云蔗11-3898 Yunzhe 11-3898 1 高抗 HR +
云瑞10-187 Yunrui 10-187 1 高抗 HR +
德蔗12-88 Dezhe 12-88 1 高抗 HR +
粤甘50号 Yuegan 50 2 抗病 R +
粤甘51号 Yuegan 51 2 抗病 R +
福农08-3214 Funong 08-3214 2 抗病 R +
福农09-6201 Funong 09-6201 2 抗病 R +
福农09-12206 Funong 09-12206 2 抗病 R +
闽糖12-1404 Mintang 12-1404 2 抗病 R +
桂糖06-1492 Guitang 06-1492 2 抗病 R +
桂糖08-1180 Guitang 08-1180 2 抗病 R +
柳城09-19 Liucheng 09-19 2 抗病 R +
中蔗6号 Zhongzhe 6 2 抗病 R +
中蔗13号 Zhongzhe13 2 抗病 R +
云蔗11-1074 Yunzhe 11-1074 2 抗病 R +
云蔗11-3208 Yunzhe 11-3208 2 抗病 R +
云瑞10-701 Yunrui 10-701 2 抗病 R +
德蔗09-78 Dezhe 09-78 2 抗病 R +
中糖1201 Zhongtang 1201 2 抗病 R +
粤甘53号 Yuegan 53 3 中抗 MR +
福农07-3206 Funong 07-3206 3 中抗 MR +
福农09-4095 Funong 09-4095 3 中抗 MR +
福农10-0574 Funong 10-0574 3 中抗 MR +
闽糖06-1405 Mintang 06-1405 3 中抗 MR +
桂糖06-2081 Guitang 06-2081 3 中抗 MR +
桂糖08-1589 Guitang 08-1589 3 中抗 MR +
中蔗10号 Zhongzhe 10 3 中抗 MR -
品种
Variety
病级
Disease grade
抗性反应
Resistance response
Bru1的PCR检测结果
PCR detection of Bru1
云瑞11-450 Yunrui 11-450 3 中抗 MR -
中糖1202 Zhongtang 1202 3 中抗 MR -
粤甘47号 Yuegan 47 4 中感 MS -
福农10-14405 Funong 10-14405 4 中感 MS -
海蔗22号 Haizhe 22 4 中感 MS -
中糖1301 Zhongtang 1301 4 中感 MS -
粤甘52号 Yuegan 52 5 感病1 S1 -
闽糖07-2005 Mintang 07-2005 5 感病1 S1 -
柳城07-150 Liucheng 07-150 5 感病1 S1 -
云瑞12-263 Yunrui 12-263 5 感病1 S1 -
海蔗28号 Haizhe 28 5 感病1 S1 -
桂糖44号 Guitang 44 6 感病2 S2 -
柳城07-506 Liucheng 07-506 6 感病2 S2 -
粤甘46号 Yuegan 46 7 感病3 S3 -
闽糖11-610 Mintang 11-610 7 感病3 S3 -
桂糖40号 Guitang 40 7 感病3 S3 -
德蔗07-36 Dezhe 07-36 7 感病3 S3 -
桂糖13-386 Guitang 13-386 8 高感1 HS1 -
粤甘43号 Yuegan 43 9 高感2 HS2 -
粤甘49号 Yuegan 49 9 高感2 HS2 -
云蔗09-1601 Yunzhe 09-1601 9 高感2 HS2 -

Table 2

PCR detection of Bru1 and evaluation of field resistance to Puccina melanocephala in major sugarcane varieties"

品种
Variety
云南临沧
Lincang, Yunnan
云南普洱
Puer, Yunnan
云南玉溪
Yuxi, Yunnan
广西宜州
Yizhou, Guangxi
Bru1的PCR检测结果
PCR detection of Bru1
病级
DG
抗性反应
RR
病级
DG
抗性反应
RR
病级
DG
抗性反应
RR
病级
DG
抗性反应
RR
新台糖1号 ROC 1 1 HR +
新台糖10号 ROC 10 1 HR 1 HR +
新台糖16号 ROC 16 1 HR 1 HR 1 HR +
新台糖20号 ROC 20 1 HR 1 HR 1 HR +
新台糖22号 ROC 22 1 HR 1 HR 1 HR 1 HR +
新台糖25号 ROC 25 1 HR +
川糖61-408 Chuantang 61-408 1 HR -
桂糖21号 Guitang 21 HR 1 HR 1 HR +
柳城03-182 Liucheng 03-182 1 HR +
闽糖69-421 Mintang 69-421 HR 1 HR +
盈育91-59 Yingyu 91-59 1 HR -
粤糖79-177 Yuetang 79-177 1 HR -
粤糖83-88 Yuetang 83-88 1 HR -
粤糖86-368 Yuetang 86-368 1 HR 1 HR +
云引3号 Yunyin 3 1 HR +
云引58 Yunyin 58 1 HR -
川糖79-15 Chuantang 79-15 2 R +
粤糖00-236 Yuetang 00-236 2 R 2 R 2 R -
粤糖93-159 Yuetang 93-159 2 R 2 R 2 R -
云蔗03-258 Yunzhe 03-258 2 R +
云蔗05-49 Yunzhe 05-49 2 R +
桂糖11号 Guitang 11 3 中抗 MR +
桂糖36号 Guitang 36 3 MR +
云引10号 Yunyin 10 3 MR +
云蔗05-51 Yunzhe 05-51 3 MR +
桂糖42号 Guitang 42 4 MS -
柳城05-136 Liucheng 05-136 4 MS 4 MS -
桂糖29号 Guitang 29 5 S1 -
桂糖44号 Guitang 44 5 S1 -
德蔗03-83 Dezhe 03-83 7 S3 -
柳城03-1137 Liucheng 03-1137 8 HS1 8 HS1 -
巴西45号 Baxi 45 9 HS2 -
桂糖46号 Guitang 46 9 HS 2 9 HS2 -
粤糖60号 Yuetang 60 9 HS2 9 HS2 -
[1] Rott P, Bailey R A, Comstock J C, Croft B J. A Guide to Sugarcane Diseases. Montpellier: CIRAD Publication Services, 2000. pp 85-89.
[2] Huang Y K, Li W F, Zhang R Y, Wang X Y. Color Illustration of Diagnosis and Control for Modern Sugarcane Diseases, Pests, and Weeds. Singapore: Springer Nature Singapore Pte Ltd., 2018. pp 18-20.
[3] Chaulagain B, Dufault N, Raid R N, Rott P. Sensitivity of two sugarcane rust fungi to fungicides in urediniospore germination and detached leaf bioassays. Crop Prot, 2019,117:86-93.
[4] 王晓燕, 李文凤, 黄应昆, 张荣跃, 单红丽, 罗志明, 尹炯. 云南蔗区首次发现由屈恩柄锈菌引起的甘蔗黄锈病. 中国农学通报, 2015,31(18):282-286.
Wang X Y, Li W F, Huang Y K, Zhang R Y, Shan H L, Luo Z M, Yin J. First report of orange rust of sugarcane caused by Puccinia kuehnii in Yunnan sugarcane field. Chin Agric Sci Bull, 2015,31(18):282-286 (in Chinese with English abstract).
[5] Purdy L H, Liu L J, Dean J L. Sugarcane rust: a newly important disease. Plant Dis, 1983,67:1292-1296.
[6] Garcés F F, Fiallos F F, Silva E, Martinez F, Aime M C, Comstock J C, Glynn N C, Castlebury L A. First report of orange rust of sugarcane caused by Puccinia kuehnii in Ecuador. Plant Dis, 2014,98:842.
pmid: 30708643
[7] Hoy J W, Hollier C A. Effect of brown rust on yield of sugarcane in Louisiana. Plant Dis, 2009,93:1171-1174.
doi: 10.1094/PDIS-93-11-1171 pmid: 30754585
[8] Comstook J C, Shine J M, Raid R N. Effect of early rust infection on subsequent sugarcane growth. Sugar Cane, 1992,4:7-9.
[9] 马利. 泰国甘蔗生产及科研现状. 世界农业, 1995, (9):23.
Ma L. The production and research actuality of sugarcane in Thailand. World Agric, 1995, (9):23 (in Chinese).
[10] 阮兴业, 杨雾, 孙楚坚. 云南省发现甘蔗茅柄锈菌. 真菌学报, 1983,2(4):260-261.
Ruan X Y, Yang W, Sun C J. Occurrence of Puccinia erianthi on sugarcane in Yunnan province. Acta Mycol Sin, 1983,2(4):260-261 (in Chinese with English abstract).
[11] 全国甘蔗重要病害研究协作组. 我国大陆植蔗省(区)(部分)甘蔗病害种类调查初报. 甘蔗糖业, 1991, (1):1-8.
The important sugarcane diseases research cooperation group. The preliminary report of sugarcane diseases investigation in the sugarcane planting provinces (partly), mainland China. Sugarcane Canesugar, 1991, (1):1-8 (in Chinese).
[12] 刘晓妹, 刘文波, 施焕焕. 海南儋州甘蔗锈病病原菌的鉴定及其生物学特性的测定. 中国糖料, 2008, (2):30-32.
Liu X M, Liu W B, Shi H H. Pathogen identification and biological characteristics of sugarcane rust in Danzhou. Sugar Crops China, 2008, (2):30-32 (in Chinese with English abstract).
[13] 韦金菊, 邓展云, 黄伟华, 潘雪红, 王伯辉, 刘晓静. 广西北海甘蔗锈病生物学特性研究及防治对策. 安徽农业科学, 2010,38:14997-14999.
Wei J J, Deng Z Y, Huang W H, Pan X H, Wang B H, Liu X J. Control methods and pathogen biological characteristics of sugarcane rust in Beihai. J Anhui Agric Sci, 2010,38:14997-14999 (in Chinese with English abstract).
[14] 黄应昆, 李文凤. 云南蔗区甘蔗锈病流行原因及防治对策. 植保技术与推广, 1998,18(5):22-23.
Huang Y K, Li W F. Epidemic and control strategies of sugarcane rust disease in Yunnan sugarcane field. Plant Prot Technol Ext, 1998,18(5):22-23 (in Chinese with English abstract).
[15] 黄应昆, 李文凤. 现代甘蔗病虫草害防治彩色图说. 北京: 中国农业出版社, 2016. pp 113-114.
Huang Y K, Li W F. Colored Atlas of Control on Diseases, Insect Pests and Weeds of Modern Sugarcane. Beijing: China Agriculture Press, 2016. pp 113-114(in Chinese).
[16] 熊国如, 李增平, 赵婷婷, 蔡文伟, 王俊刚, 王文治, 冯翠莲, 张雨良, 张树珍. 海南蔗区甘蔗病害种类及发生情况. 热带作物学报, 2010,31:1588-1595.
Xiong G R, Li Z P, Zhao T T, Cai W W, Wang J G, Wang W Z, Feng C L, Zhang Y L, Zhang S H. Primary investigation to sugarcane on the diseases in Hainan province. Chin J Trop Crops, 2010,31:1588-1595 (in Chinese with English abstract).
[17] 韦金菊, 邓展云, 黄诚华, 黄伟华, 颜梅新, 刘海斌, 唐红琴. 广西甘蔗主要真菌病害调查初报. 南方农业学报, 2012,43:1316-1319.
Wei J J, Deng Z Y, Huang C H, Huang W H, Yan M X, Liu H B, Tang H Q. Epidemic preliminary report on investigating major sugarcane fungal diseases in Guangxi. J South Agric, 2012,43:1316-1319 (in Chinese with English abstract).
[18] 李文凤, 单红丽, 黄应昆, 张荣跃, 仓晓燕, 尹炯, 王晓燕, 罗志明. 多雨高湿季甘蔗重要病害发生流行动态与防控策略. 中国糖料, 2017,39(2):75-77.
Li W F, Shan H L, Huang Y K, Zhang R Y, Cang X Y, Yin J, Wang X Y, Luo Z M. The occurrence epidemic dynamics, control thoughts and countermeasures of important sugarcane diseases in raininess and high humidity season. Sugar Crops China, 2017,39(2):75-77 (in Chinese with English abstract).
[19] Comstock J C, Wu K K, Schnell R J. Heritability of resistance to sugar cane rust. Sugar Cane (United Kingdom), 1992,6:7-10.
[20] Hogarth D M, Ryan C C, Taylor P W J. Quantitative inheritance of rust resistance in sugarcane. Field Crops Res, 1993,34:187-193.
[21] Ramdoyal K, Sullivan S, Chong L C Y L S, Badaloo G H, Saumtally S, Domaingue R. The genetics of rust resistance in sugar cane seedling populations. Theor Appl Genet, 2000,100:557-563.
[22] 单红丽, 李文凤, 黄应昆, 罗志明, 王晓燕, 申科, 张荣跃, 尹炯. 国家甘蔗体系繁殖和示范新品种(系)病虫害调查. 中国糖料, 2014, (2):50-53.
Shan H L, Li W F, Huang Y K, Luo Z M, Wang X Y, Shen K, Zhang R Y, Yin J. Investigation of diseases and insect pests on new propagation and demonstration varieties/lines in National Sugarcane System. Sugar Crops China, 2014, (2):50-53 (in Chinese with English abstract).
[23] Daugrois J H, Grivet L, Roques D. A putative major gene for rust resistance linked with a RFLP marker in sugarcane cultivar‘R570’. Theor Appl Genet, 1996,92:1059-1064.
[24] Asnaghi C, Roques D, Ruffel S, Kaye C, Hoarau J Y, Télismart H, Girard J C, Roboin L M, Risterucci A M, Grivet L, D’Hont A. Targeted mapping of a sugarcane rust resistance gene (Bru1) using bulked segregant analysis and AFLP markers. Theor Appl Genet, 2004,108:759-764.
doi: 10.1007/s00122-003-1487-6 pmid: 14586507
[25] Asnaghi C, D’Hont A, Glaszmann J, Rott P. Resistance of sugarcane cultivar R570 to Puccinia melanocephala isolates from different geographic locations. Plant Dis, 2001,85:282-286.
pmid: 30832043
[26] Costet L, Le Cunff L, Royaert S, Raboin L M, Hervouet C, Toubi L, Telismart H, Garsmeur O, Rousselle Y, Pauquet J, Nibouche S, Glaszmann J C, Hoarau J Y, D'Hont A. Haplotype structure around Bru1 reveals a narrow genetic basis for brown rust resistance in modern sugarcane cultivars. Theor Appl Genet, 2012,125:825-836.
doi: 10.1007/s00122-012-1875-x
[27] 李文凤, 黄应昆. 现代甘蔗病害诊断检测与防控技术. 北京: 中国农业出版社, 2012. p 94.
Li W F, Huang Y K. Diagnosis Detection and Control Technique of Modern Sugarcane Diseases. Beijing: China Agriculture Press, 2012. p 94 (in Chinese).
[28] 李文凤, 王晓燕, 黄应昆, 张荣跃, 单红丽, 尹炯, 罗志明. 31份甘蔗野生核心种质资源褐锈病抗性鉴定及Bru1基因的分子检测. 作物学报, 2015,41:806-812.
doi: 10.3724/SP.J.1006.2015.00806
Li W F, Wang X Y, Huang Y K, Zhang R Y, Shan H L, Yin J, Luo Z M. Identification of resistance to brown rust and molecular detection of Bru1 gene in 31 wild core sugarcane germplasms. Acta Agron Sin, 2015,41:806-812 (in Chinese with English abstract).
[29] 陈辉, 范源洪, 史宪伟, 蔡青, 张明, 张亚平. 甘蔗细茎野生种(Saccharum spontaneum L.)的遗传多样性与系统演化研究. 作物学报, 2001,27:645-652.
Chen H, Fan Y H, Shi X W, Cai Q, Zhang M, Zhang Y P. Research on genetic diversity and systemic evolution in Saccharum spontaneum L. Acta Agron Sin, 2001,27:645-652 (in Chinese with English abstract).
[30] 范源洪, 陈辉, 史宪伟, 蔡青, 张明, 张亚平. 甘蔗细茎野生种云南不同生态类型的RAPD分析. 云南植物研究, 2001,23(3):298-308.
Fan Y H, Chen H, Shi X W, Cai Q, Zhang M, Zhang Y P. RAPD analysis of Saccharum spontaneum from different ecospecific colonies in Yunnan. Acta Bot Yunnanica, 2001,23(3):298-308 (in Chinese with English abstract).
[31] 黄忠兴, 周峰, 王勤南, 金玉峰, 符成, 胡后祥, 张垂明, 常海龙, 吉家乐, 吴其卫, 齐永文, 刘少谋. 国内外割手密资源农艺性状表型遗传多样性分析. 植物遗传资源学报, 2012,13:825-829.
Huang Z X, Zhou F, Wang Q N, Jin Y F, Fu C, Hu H X, Zhang C M, Chang H L, Ji J L, Wu Q W, Qi Y W, Liu S M. Genetic diversity assessment of Saccharum spontanuem L. Native of domestic and overseas with phenotype agronomic traits. J Plant Genet Resour, 2012,13:825-829 (in Chinese with English abstract).
[32] 徐超华, 陆鑫, 刘洪博, 林秀琴, 刘新龙, 苏火生, 马丽, 毛钧, 李旭娟, 蔡青. 甘蔗近缘种滇蔗茅(Erianthus rockii)表型性状遗传多样性研究. 植物遗传资源学报, 2014,15:1369-1373.
Xu C H, Lu X, Liu H B, Lin X Q, Liu X L, Su H S, Ma L, Mao J, Li X J, Cai Q. Genetic diversity analysis of phenotypic traits in Erianthus rockii wild species. J Plant Genet Resour, 2014,15:1369-1373 (in Chinese with English abstract).
[33] Li W F, Wang X Y, Huang Y K, Shan H L, Luo Z M, Ying X M, Zhang R Y, Shen K, Yin J. Screening sugarcane germplasm resistant to Sorghum mosaic virus. Crop Prot, 2013,43:27-30.
[34] 李文凤, 单红丽, 王晓燕, 陆鑫, 张荣跃, 仓晓燕, 尹炯, 罗志明, 黄应昆. 滇蔗茅杂交F1双抗SCSMV和SrMV鉴定与评价. 植物遗传资源学报, 2017,18:886-890.
Li W F, Shan H L, Wang X Y, Lu X, Zhang R Y, Cang X Y, Yin J, Luo Z M, Huang Y K. Identification and evaluation of Erianthus rockii F1 hybrids resistant to SCSMV and SrMV. J Plant Genet Resour, 2017,18:886-890 (in Chinese with English abstract).
[35] 李文凤, 王晓燕, 黄应昆, 张荣跃, 单红丽, 罗志明, 尹炯. 101份中国甘蔗主要育种亲本褐锈病抗性鉴定及Bru1基因的分子检测. 作物学报, 2016,42:1411-1416.
Li W F, Wang X Y, Huang Y K, Zhang R Y, Shan H L, Luo Z M, Yin J. Identification of resistance to brown rust and molecular detection of Bru1 gene in 101 main sugarcane breeding parents in China. Acta Agron Sin, 2016,42:1411-1416 (in Chinese with English abstract).
[36] 李竹, 许莉萍, 苏亚春, 吴期滨, 成伟, 孙婷婷, 高世武. 基于田间表型和Bru1基因检测分析甘蔗褐锈病抗性遗传. 作物学报, 2018,44:306-312.
doi: 10.3724/SP.J.1006.2018.00306
Li Z, Xu L P, Su Y C, Wu Q B, Cheng W, Sun T T, Gao S W. Analysis of brown rust resistance inheritance based on field phenotypes and detection of Bru1 gene in sugarcane. Acta Agron Sin, 2018,44:306-312 (in Chinese with English abstract).
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