Identification of Novel QTLs for BPH Tolerance in Rice Using Resistant Donor BM 71

Abstract

Rice is the most widely grown crop in the world, feeding half of the world’s population. Brown plant hopper (BPH) is a considerable risk to rice fields carrying 20-90% yield losses. Hopper burn can be effectively managed by the recognition and use of BPH genes. Marker based genetic analysis of 136 RILcollected from a high yielding susceptible variety, MTU 3626 and BM 71, a BPH donor developed at RARS, identified 3 minor novel QTLs viz; qmbph2.1,qmbph4.1 and qmbph12.1 on chromosomes 2, 4 and 12 and two other QTLson chromosome 5 and 7, namelyqmbph5.1 and qmbph7.1. The phenotyping of RIL’s revealed that ten RIL’s (2711 – 31, 2711 – 37, 2711 – 50, 2711 – 69, 2711 – 84, 2711 – 88, 2711 – 94, 2711 – 100, 2711 – 168 and 2711 – 191) recorded yields comparable to checks, Swarna and Pushyami along with BPH score similar to donor. The BPH resistance lines recognised will be further evaluated, and the confirmed lines can be employed in rice breeding programs.

References

1. Food and Agricultural organization. FAO STAT database FAO, WWW.Faostat.Org. 2021
2. Agricultural Statistics at a Glance. Government of India, Ministry of Agriculture & Farmers Welfare Department of Agriculture & Farmers Welfare Directorate of Economics & Statistics. New Delhi. 2021
3. Kulshreshtha JP, Anjaneyulu A, Padmanabhan SY. A disastrous brown plant hopper attack in Kerala. Indian Farming.1974;24(9):5-7
4. Alam SN, Cohen MB.Detection and analysis of QTLs for resistance to the brown plant hopper, Nilaparvatalugens, in a doubled-haploid rice population. Theoretical and Applied Genetics.1998;97(8):1370-1379. https://doi.org/10.1007/s001220051031
5. Renganayaki K, Fritz AK, Sadasivam S, Pammi S, Harrington SE, McCouch SR, Kumar SM et al. Mapping and progress toward map-based cloning of brown plant hopper biotype-4 resistance gene introgressed from Oryzaofficinalis into cultivated rice (Oryzasativa). Crop Science. 2002;42(6):2112-2117
6. Li Z, Xue Y, Zhou H et al. High-resolution mapping and breeding application of a novel brown planthopper resistance gene derived from wild rice (Oryza. rufipogonGriff). Rice. 2019;12(1):41. DOI: 10.1186/s12284-019-0289-7.
7. Yang M, Cheng L, Yan L et al. Mapping and characterization of a quantitative trait locus resistance to the brown planthopper in the rice variety IR64. Hereditas. 2019;156:22. https://doi.org/10.1186/s41065-019-0098-4.
8. Yuexiong Z, Gang QIN, Qianqian MA et al. Identification of a major resistance locus Bph35 to brown planthopper in rice (Oryzasativa L.). Rice Science. 2020;27(3):237-245. DOI:10.1016/j.rsci.2020.04.006.
9. Du B, Zhang W, Liu B et al. Identification and characterization of Bph14, a gene conferring resistance to brown planthopper in rice. Proceedings of the National Academy of Sciences USA. 2009;106:22163-22168
10. Tamura Y, Hattori M, Yoshioka H et al. Map-based cloning and characterization of a brown planthopper resistance gene BPH26 from Oryzasativa L sspindica cultivar ADR52. Science Reports. 2014;4:5872. DOI:10.1038/srep05872.
11. Liu Y, Wu H, Chen H et al. A gene cluster encoding lectin receptor kinases confers broad-spectrum and durable insect resistance in rice. Nature Biotechnology. 2015;33:301-307. https://doi.org/10.1038/nbt.3069
12. Wang Y, Cao L, Zhang Y et al. Map-based cloning and characterization of BPH29, a B3 domain-containing recessive gene conferring brown planthopper resistance in rice. Journal of Experimental Botany. 2015;66:6035–6045. DOI: 10.1093/jxb/erv318.
13. Ji H, Kim SR, Kim YH et al. Map-based cloning and characterization of the BPH18 gene from wild rice conferring resistance to brown plantchopper(BPH) insect pest. Science Reports. 2016;6:1-13. DOI: 10.1038/srep34376
14. Ren X, Wang X, Yuan H, Weng Q, Zhu L, He G. Mapping quantitative trait loci and expressed sequence tags related to brown planthopper resistance in rice. Plant Breeding. 2004;123:342-8.
15. Zhao Y, Huang J, Wang Z et al. Allelic diversity in an NLR gene BPH9 enables rice to combat planthopper variation. Proceedings of the National Academy of Sciences USA.2016;113:12850-1
16. Guo JP, Xu CX, Wu D et al.Bph6 encodes an exocystlocalized protein and confers broad resistance to planthoppers in rice. Nature Genetics.2018;50:297-306. https://doi.org/10.1038/s41588-018-0039-6
17. Balachiranjeevi CH, Prahalada GD, Mahender A, JamaloddinMd, Sevilla MAL, Mafori-Nazarea CM, Vinarao R et al. Identification of a novel locus, BPH38(t), conferring resistance to brown planthopper (NilparvathalugensStal.) using early backcross population in rice (Oryzasativa L.). Euphytica. 2019;215:185. DOI:10.1007/s10681-019-2506-2.
18. Naik SB, Divya D, Sahu N et al. A new gene Bph33(t) conferring resistance to brown planthopper (BPH), Nilaparvatalugens (Stal) in rice line RP2068-18-3-5. Euphytica. 2018;214:53. https://doi.org/10.1007/s10681-018-2131-5
19. IRRI (International Rice Research Institute). Standard Evaluation System for Rice (SES). 5th edition. Los Banos (Philippines); 2014.
20. Prahalada GD, ShivakumarN, Lohithaswa HC et al. Identification and fine mapping of a new gene, BPH31 conferring resistance to brown planthopper biotype 4 of India to improve rice, Oryzasativa L. Rice. 2017;10(1):41. DOI: 10.1186/s12284-017-0178-x
21. Lakshmi MS, Suneetha Y, Srinivas T. Genetic variability, correlation and path analysis for grain yield and yield components in rice genotypes. Journal of Pharmacognosy and Phytochemistry. 2021;10(1):1369-1372
22. Cheema KK, Bains NS, Mangat GS, Das A, Vikal Y, Brar DS. Development of high yielding IR64×Oryza rufipogon(Griff.) introgression lines and identification of introgressedallein chromosome segments using markers.Euphytica. 2008;160:1–9
23. Santhanalakshmi S, Saikumar S, Rao S, SaiHarini A, Khera P, Shashidhar HE et al. Mapping genetic locus linked to brown plant hopper resistance in rice (Oryzasativa L.). International Journal of Plant Breeding and Genetics.2010;4(1):13-22. DOI:10.3923/IJPBG.2010.13.22
24. Liu GQ, Yan HH, Fu Q, Qian Q, Zhang ZT, Zhai WX et al. Mapping of a new gene for brown planthopper resistance in cultivated rice introgression from Oryzaeichingeri. Chinese Science Buletin. 2001;46(17):1459-1462
25. Ren J, Gao F, Wu X et al.Bph32, a novel gene encoding an unknown SCR domain-containing protein, confers resistance against the brown planthopper in rice. Science Reports. 2016;6:1–14. https://doi.org/10.1038/srep37645
26. Rahman ML, Jiang W, Chu SH et al. High-resolution mapping of two rice brown planthopper resistance genes, Bph20(t) and Bph21(t), originating from Oryzaminuta. Theoretical and Applied Genetics. 2009;119:1237-1246. DOI: 10.1007/s00122-009-1125-z
27. Jena KK, Jeung JU, Lee JH et al. High-resolution mapping of a new brown planthopper (BPH) resistance gene, Bph18(t), and marker-assisted selection for BPH resistance in rice (Oryzasativa L.). Theoretical and Applied Genetics. 2006;112(2):288-297. DOI: 10.1007/s00122-005-0127-8
28. Liu Y, Su C, Jiang L, He J, Wu H, Peng C, Wan J.The distribution and identification of brown planthopper resistance genes in rice. Hereditas. 2009;146:67-73. https://doi.org/10.1111/j.1601-5223.2009.02088.x
29. Qiu YF, Cheng L, Liu F, Li RB.Identification of a new locus conferring antixenosis to the brown plant hopper in rice cultivar Swarnalata (Oryzasativa L.). Genetics and Molecular Research. 2013;12:3201-3211. DOI: 10.4238/2013.August.29.4
30. Yang H, Ren X, Weng Q, Zhu L and He G. Molecular mapping and genetic analysis of a rice brown plant hopper (NilaparvatalugensStal) resistance gene. Hereditas. 2002; 136 (1): 39-43
31. Yang, H, You A, Yang Z, Zhang F, He R, Zhu L et al. High-resolution genetic mapping at the Bph15 locus for brown plant hopper resistance in rice (OryzasativaL.). Theoretical and Applied Genetics. 2004;110:182-19. DOI: 10.1007/s00122-004-1844-0
32. Hirabayashi H. Identification of brown plant hopper resistance gene derived from Oryzaofficinalis using molecular markers in rice. Breeding Science.1998;48(1):82
33. Su LH, Su CC, Wang CM, Zhai HQ, Wan JM. Mapping of a major resistance gene to the brown plant hopper in the rice cultivar Rathu Heenati. Breeding Sci 2005;55(4):391-396.
34. Huang Z, He G, Shu LH, Li X, Zhang Q. Identification and mapping of two brown plant hopper resistance genes in rice. Theoretical and Applied Genetics. 2001;102(6-7):929-934. https://doi.org/10.1007/s001220000455
35. Kim SM, Sohn JK. Identification of a rice gene (Bph 1) conferring resistance to brown plant hopper (NilaparvatalugensStal) using STS markers. Molecules and Cells. 2005;20(1):30-34.
36. Sun L, Liu Y, Jiang L, Su C, Wang C, Zhai H, Wan J. Identification of quantitative trait loci associated with resistance to brown plant hopper in the indica rice cultivar Col. 5 Thailand. Hereditas. 2007;144(2):48-52
37. Su CC, Zhai HQ, Wang CM, Sun LH, Wan JM. SSR mapping of brown planthopper resistance gene Bph9 in Kaharamana, an indica rice (Oryzasativa L.). ActaGeneticaSinica. 2006;33:262-8. DOI: 10.1016/S0379-4172(06)60049-8
38. Nguyen HT, Babu RC, Blum A. Breeding for drought resistance in rice: physiology and molecular genetics considerations. Crop Science. 1997;37(5):1426-1434. DOI:10.2135/cropsci1997.0011183X003700050002x
39. Chen JW, Wang L, Pang XF, Pan QH. Genetic analysis and fine mapping of a rice brown plant hopper (NilaparvatalugensStal) resistance gene bph19 (t). Molecular Genetics and Genomics.2006;275(4):321-329. DOI: 10.1007/s00438-005-0088-2
40. Yara A, Phi CN, Matsumura M, Yoshimura A, Yasui H. Development of near-isogenic lines for BPH25 (t) and BPH26 (t), which confer resistance to the brown plant hopper, Nilaparvatalugens (Stal.) inindica rice ‘ADR52’. Breeding Science. 2010;60(5):639-647. DOI:10.1270/jsbbs.60.639