Research progress of bean weevil resistance in mungbean

doi:10.14088/j.cnki.issn0439-8114.2020.11.002

Abstract

Abstract: Mungbean （Vigna radiata L.） is an important legume crop in Asia, the germplasm resources are extremely rich and the nutritional value is high. However, its yield and quality are seriously affected by the bean weevil. Therefore, it is urgent to cultivate new varieties resistant to bean weevil. The research progress of mungbean at home and abroad was reviewed from the aspects of germplasm resources, mechanism of resistance to mung bean and genetic mechanism and location of resistance gene in order to supply the useful information to correlation studies.

Key words: mungbean（Vigna radiata L.）, bean weevil resistance, germplasm resources, mechanism research, research progress

CLC Number:

S522

ZHANG Qin-xue, CHEN Jing-bin, YUAN Xing-xing, WU Ran-ran, YAN Qiang, ZHU Yue-lin, XUE Chen-chen, CHEN Xin. Research progress of bean weevil resistance in mungbean[J]. HUBEI AGRICULTURAL SCIENCES, 2020, 59(11): 10-13.

References 47

[1]	赵丹, 程须珍, 王丽侠, 等. 绿豆遗传连锁图谱的整合[J]. 作物学报, 2010, 36(6): 932-939.
[2]	YAQUB M, MAHMOOD T, AKHTAR M, et al.Induction of mungbean [Vigna radiata (L.) Wilczek] as a grain legume in the annual rice-wheat double cropping system[J]. Pakistan journal of botany, 2010, 42(5): 3125-3135.
[3]	SOUMIA P S, SRIVASTAVA C, DIKSHIT H K et al. Screening for resistance against pulse beetle, Callosobruchus analis (F.) in greengram (Vigna radiata (L.) Wilczek) accessions[J]. Proceedings of the national academy of sciences, india-section B:Biological sciences, 2015, 87(2): 1-8.
[4]	TOMOOKA N, KASHIWABA K, VAUGHAN D A, et al.The effectiveness of evaluating wild species: Searching for sources of resistance to bruchid beetles in the genus Vigna subgenus Ceratotropis[J]. Euphytica, 2000, 115(1): 27-41.
[5]	MORALES H.Pest management in traditional tropical agroecosystems: Lessons for pest prevention research and extension[J]. Integrated pest management reviews, 2002, 7(3): 145-163.
[6]	KOONA P, DORN S.Extracts from Tephrosia vogelii for the protection of stored legume seeds against damage by three bruchid species[J]. Annals of applied biology, 2010, 147(1): 43-48.
[7]	SWELLA G B, MUSHOBOZY D M K. Evaluation of the efficacy of protectants against cowpea bruchids (Callosobruchus maculatus (F.)) on cowpea seeds (Vigna unguiculata (L.) Walp.)[J]. Plant protection science, 2007, 43(2): 68-72.
[8]	YUSUF A U, DIKE M C, ADEBITAN S A, et al.Comparative efficacy of seven plant products on the cowpea burchid, Callosobruchus maculatus F. development and damage[J]. Journal of biopesticides, 2011. 4(1): 19-26.
[9]	郑卓杰, 王述民, 宗绪晓. 中国食用豆类学[J]. 北京:中国农业出版社, 1997.
[10]	程须珍. 绿豆抗豆象基因源发掘与创新利用研究[D]. 北京: 中国农业科学院, 2006.
[11]	LAMBRIDES C J, IMRIE B C.Susceptibility of mungbean varieties to the bruchid species Callosobruchus maculatus (F.), C.phaseoli (Gyll.), C. chinensis (L.), and Acanthoscelides obtectus (Say.) (Coleoptera : Chrysomelidae)[J]. Australian journal of agricultural research, 2000. 51(1): 85-89.
[12]	梅丽. 绿豆Berken/Acc41重组近交系豆象抗性及重要农艺性状QTL分析[D].北京:中国农业科学院, 2007.
[13]	WAR A R, MURNURUGESAN S, BODDEPALLI V N, et al.Mechanism of resistance in mungbean [Vigna radiata (L.) R. Wilczek var. radiata] to bruchids, Callosobruchus spp.(Coleoptera: Bruchidae)[J]. Frontiers in plant science, 2017, 8: 1031.
[14]	WATT E E, POEHLMAN J M, CUMBIE B G.Origin and composition of a texture layer on seeds of mungbean[J]. Crop science, 1977, 17(1): 121-125.
[15]	APPLEBY J H, CREDLAND P F.Variation in responses to susceptible and resistant cowpeas among west African populations of Callosobruchus maculatus (Coleoptera: Bruchidae)[J]. Journal of economic entomology, 2003, 96(2): 489-502.
[16]	潘家驹. 作物育种学总论[J]. 北京:中国农业出版社, 1994.
[17]	FUJII K, ISHIMOTO M, KITAMURA K.Patterns of resistance to bean weevils (Bruchidae) in vigna-radiata-mungo-sublobata complex inform the breeding of new resistant varieties[J]. Applied entomology and zoology, 1989, 24(1): 126-132.
[18]	FERNANDEZ G C J, TALEKAR N S. Genetics and breeding for bruchid resistance in Asiatic Vigna species[A]. FUJII K, GATEHOUSE A M R, JOHNSON C D, et al. Bruchids and Legumes: Economics, ecology and coevolution[M]. Dordrecht:Kluwer academic publishers, 1990.209-217.
[19]	TRIPATHI K, BHALLA S, SRINIVASAN, et al. Physical and biochemical basis of resistance in cowpea [Vigna unguiculata (L.) Walp.] accessions to pulse-beetle, Callosobruchus chinensis (L.)[J]. Legume research-an international journal, 2013, 36(5): 457-466.
[20]	SOMTA C, SOMTA P, TOMOOKA N, et al.Characterization of new sources of mungbean (Vigna radiata (L.) Wilczek) resistance to bruchids, Callosobruchus spp.(Coleoptera:Bruchidae)[J]. Journal of stored products research, 2008, 44(4): 316-321.
[21]	SCHROEDER H E, GOLLASCH S, MOORE A, et al.Bean [alpha]-amylase inhibitor confers resistance to the pea weevil (Bruchus pisorum) in transgenic peas (Pisum sativum L.)[J]. Plant physiology, 1995, 107(4): 1233-1239.
[22]	MORENO J, CHRISPELLS M J.A lectin gene encodes the alpha-amylase inhibitor of the common bean[J]. Proceedings of the national academy of sciences, 1989, 86(20): 7885-7889.
[23]	HUESING J E, SHADE R E, CHRISPEELS M J, et al.α-amylase inhibitor, not phytohemagglutinin, explains resistance of common bean seeds to cowpea weevil[J]. Plant physiology, 1991, 96(3): 993-996.
[24]	ISHIMOTO M, SUZUKI K, IWANAGA M, et al.Variation of seed α-amylase inhibitors in the common bean[J]. Theoretical and applied genetics, 1995, 90(3-4): 425-429.
[25]	ISHIMOTO M, SATO T, CHRISPEELS M J, et al.Bruchid resistance of transgenic azuki bean expressing seed α-amylase inhibitor of common bean[J]. Entomologia experimentalis et applicata, 1996, 79(3): 309-315.
[26]	CHEN K C, LIN C Y, CHUNG M C, et al.Cloning and characterization of a cDNA encoding an antimicrobial protein from mung bean seeds[J]. Botanical bulletin-academia sinica, 2002, 43(4):251-259.
[27]	CHEN K C, LIN C Y, KUAN C C, et al.A novel defensin encoded by a mungbean cDNA exhibits insecticidal activity against bruchid[J]. Journal of agricultural and food chemistry, 2002, 50(25):7258-7263.
[28]	MCCUE P, SHETTY K.A biochemical analysis of mungbean (Vigna radiata) response to microbial polysaccharides and potential phenolic-enhancing effects for nutraceutical applications[J]. Food biotechnology, 2002, 16(1): 57-79.
[29]	SUGAWARA F, ISHIMOTO M, LE-VAN N, et al.Insecticidal peptide from mungbean: A resistant factor against infestation with azuki bean weevil[J]. Journal of agricultural and food chemistry, 1996, 44(10): 3360-3364.
[30]	KITAMURA K, ISHIMOTO M, SAWA M.Inheritance of resistance to infestation with azuki bean weevil in Vigna sublobata and successful incorporation to V. radiata[J]. Japanese journal of breeding, 1988, 38(4): 459-464.
[31]	YOUNG N D, KUMAR L, MENANCIO H D, et al.RFLP mapping of a major bruchid resistance gene in mungbean (Vigna radiata L. Wilczek)[J]. Theoretical and applied genetics, 1992, 84(7-8): 839-844.
[32]	程须珍, 王素华, 金达生, 等. 绿豆抗豆象遗传的初步研究[J]. 植物遗传资源科学, 2001, 2(4):12-15.
[33]	SOMTA P, AMMARANAN C, OOI P A C, et al. Inheritance of seed resistance to bruchids in cultivated mungbean (Vigna radiata L. Wilczek)[J]. Euphytica, 2007, 155(1-2): 47-55.
[34]	孙蕾, 程须珍, 王素华, 等. 栽培绿豆V2709 抗豆象特性遗传分析[J]. 植物遗传资源学报, 2007, 8(2): 209-212.
[35]	程须珍, 王素华, 吴绍宇, 等. 绿豆抗豆象基因PCR 标记的构建与应用[J]. 中国农业科学, 2005, 38(8): 1534-1539.
[36]	马丽萍, 程须珍, 张辉. 野生绿豆种质资源TC1966抗豆象基因的AFLP标记研究[J]. 西南农业学报, 2005, 18(5): 629-633.
[37]	MENANCIO H D, FATOKUN C A, KUMAR L, et al.Comparative genome analysis of mungbean (Vigna radiata L. Wilczek) and cowpea (V unguiculata L. Walpers) using RFLP mapping data[J].Theoretical and applied genetics, 1993, 86(7): 797-810.
[38]	KAGA A, ISHIMOTO M.Genetic localization of a bruchid resistance gene and its relationship to insecticidal cyclopeptide alkaloids, the vignatic acids, in mungbean (Vigna radiata L. Wilczek)[J]. Molecular and general genetics, 1998, 258(4): 378-384.
[39]	MIYAGI M, HUMPHRY M, MA Z Y, et al.Construction of bacterial artificial chromosome libraries and their application in developing PCR-based markers closely linked to a major locus conditioning bruchid resistance in mungbean (Vigna radiata L. Wilczek)[J]. Theoretical and applied genetics, 2004, 110(1): 151-156.
[40]	梅丽, 王素华, 王丽侠, 等. 重组近交系群体定位绿豆抗绿豆象基因[J]. 作物学报, 2007, 33(10): 1601-1605.
[41]	吴传书. 绿豆SSR 标记的开发及高密度分子遗传连锁图谱的构建[D]. 兰州:甘肃农业大学, 2014.
[42]	孙蕾, 程须珍, 王素华, 等. 栽培绿豆V2709抗豆象特性遗传及基因初步定位[J]. 中国农业科学, 2008, 41(5): 1291-1296.
[43]	LIN W J, KO C Y, LIU M S, et al.Transcriptomic and proteomic research to explore bruchid-resistant genes in mungbean isogenic lines[J]. Journal of agricultural and food chemistry, 2016, 64(34): 6648-6658.
[44]	CHOTECHUNG S, SOMTA P, CHEN J, et al.A gene encoding a polygalacturonase-inhibiting protein (PGIP) is a candidate gene for bruchid (Coleoptera: bruchidae) resistance in mungbean (Vigna radiata)[J]. Theoretical and applied genetics, 2016, 129(9): 1673-1683.
[45]	KAEWWONGWAL A, CHEN J, SOMTA P, et al.Novel alleles of two tightly linked genes encoding polygalacturonase-inhibiting proteins (VrPGIP1 and VrPGIP2) associated with the Br locus that confer bruchid(Callosobruchus spp.) resistance to mungbean, 2017(8): 1692.
[46]	刘长友, 苏秋竹, 范保杰, 等. 栽培绿豆V1128抗豆象基因定位[J]. 作物学报, 2018, 44(12):137-143.
[47]	CHEN H M, LIU C A, KUO C G, et al.Development of a molecular marker for a bruchid (Callosobruchus chinensis L.) resistance gene in mungbean[J]. Euphytica, 2007, 157(1-2): 113-122.