Sains Malaysiana 51(3)(2022): 695-706

http://doi.org/10.17576/jsm-2022-5103-05

 

Selection of Sub1 Locus for Submergence-Tolerant Introgression in a Backcrossing of South Sumatra Rice based on SSR Markers

(Pemilihan Lokus Sub1 untuk Introgresi Ketahanan Penenggelaman dalam Kacukan Balik Padi Sumatera Selatan berasaskan Penanda SSR)

 

FIKRI ADRIANSYAH1, MERY HASMEDA2,*, RUJITO AGUS SUWIGNYO2, ENTIS SUTISNA HALIMI2, FATIMAH3, IMAM WIBISONO4 & UPIT SARIMANA5

 

1Graduate Student, Department of Crop Science, Faculty of Agriculture, Universitas Sriwijaya, Palembang, 30139, Indonesia

  2Department of Crop Science, Faculty of Agriculture, Universitas Sriwijaya, Palembang, 30139, Indonesia

  3Indonesian Center for Agricultural Biotechnology and Genetic Resources Research and Development (ICABIOGRAD), Tentara Pelajar 3A Cimanggu, Bogor, West Java, 16111, Indonesia

  4Seed Supervision and Certification Center of South Sumatera Province, BPSB TPH South Sumatra Province, Indonesia

  5Department of Research & Development, PT Sampoerna Agro Tbk, Palembang, 30127, Indonesia

 

Diserahkan: 14 Februari 2021/Diterima: 6 Ogos 2021

 

Abstract

The development of a new submergence-tolerant variety is one ideal solution to reduce submergence stress impact caused by the unpredictable occurrence of flooding in the South Sumatra riparian wetland rice cultivation area. The Sub1 gene for submergence tolerance was introgressed into South Sumatra riparian wetland rice from the donor parent FR13A using marker-assisted backcrossing. This study involves a backcrossing between Pelita Rampak and BC1F1 Pelita Rampak, FR13A-derived Sub1 breeding lines. The main objective of this study was to introgress the Sub1 gene in BC2F1 using marker-assisted selection (MAS). The introgression of the Sub1 gene in the backcrossed lines was confirmed by the tightly linked markers RM219 and RM23915. The segregation ratio of RM219 was a good fit to the expected 1:1 Mendelian single-gene model (DF = 1.0, p ≤ 0.05). In the background study, out of 237 SSR markers unlinked to the target loci, 84 were found to be polymorphic between the two parents and were used for background selection among the selected progeny. Recurrent parent genome recovery in the backcrossed lines ranged from 57.1% to 72.6%. Improvements in the tiller number, percentage of filled grain, productive tiller number and percentage of tiller number were found on these backcrossed lines. The five best backcrossed lines were selected based on SSR markers, submergence tolerance, phenotypic study and agronomic performance.

 

Keywords: Backcrossing; rice; SSR markers; Sub1 gene; submergence

 

Abstrak

Pembangunan varieti baru yang toleran terhadap penenggelaman adalah salah satu penyelesaian yang ideal untuk mengurangkan kesan tekanan banjir yang tidak dapat dijangkakan di kawasan penanaman padi di lembah Sumatera Selatan. Gen Sub1 untuk toleransi penenggelaman telah diintrogresikan kepada padi lembah Sumatera Selatan daripada induk penderma FR13A menggunakan Kacukan Balik Berbantukan Penanda. Kajian ini melibatkan kacukan balik antara Pelita Rampak dan BC1F1 Pelita Rampak, titisan biak baka Sub1 yang berasal daripada FR13A. Objektif utama kajian ini adalah untuk memasukkan gen Sub1 kepada BC2F1 menggunakan Pemilihan Berbantukan Penanda (MAS). Introgresi gen Sub1 dalam titisan kacukan balik telah disahkan oleh penanda yang berkait rapat iaitu RM219 dan RM23915. Nisbah segregasi RM219 adalah bersesuaian dengan model gen tunggal Mendelian 1:1 yang dijangkakan (DF = 1.0, p≤0.05). Dalam kajian latar belakang, daripada 237 penanda SSR yang tidak berkaitan dengan lokasi sasaran, 84 didapati polimorfik antara dua induk dan digunakan untuk pemilihan latar belakang antara progeni terpilih. Pemulihan genom induk yang berulang dalam titisan kacukan balik berada antara julat 57.1-72.6%. Peningkatan bilangan tiler, peratusan butiran terisi, bilangan tiler produktif dan peratusan bilangan tiler dapat dilihat pada titisan kacukan balik. Lima titisan kacukan balik terbaik telah dipilih berdasarkan penanda SSR, toleransi penenggelaman, kajian fenotip dan prestasi agronomi.

 

Kata kunci: Gen Sub1; kacukan balik; padi; penanda SSR; penenggelaman

 

RUJUKAN

Acquaah, G. 2007. Principles of Plant Genetics Breeding. Oxford, UK: Blackwell Publishing.

Ahmed, F., Rafii, M.Y., Ismail, M.R., Juraimi, A.S., Rahim, H.A. & Tanweer, F.A. 2016. Recurrent parent genome recovery in different populations with the introgression of Sub1 gene from a cross between MR219 and Swarna-Sub1. Euphytica 207(3): 605-618.

Basavaraj, S.H., Singh, V.K., Singh, A., Singh, A., Singh, A., Anand, D., Yadav, S, Ellur, R.K., Singh, D., Krishnan, S.G., Nagarajan, M., Mohapatra, T., Prabhu, K.V. & Singh, A.K. 2010. Marker-assisted improvement of bacterial blight resistance in parental lines of Pusa RH10, a superfine grain aromatic rice hybrid. Molecular Breeding 26(2): 293-305.

BPS. 2015. South Sumatera Agricultural Statistics. http:// sumsel.bps.go.id/index.php/linkTabelStatis/49. Accessed on 08 February 21.

Collard, B.C.Y. & Mackill, D.J. 2008. Marker-assisted selection: an approach for precision plant breeding in the twenty-first century. Philosophical Transactions of the Royal Society 363(1491): 557-572.

Collard, B.C.Y., Jahufer, M.Z., Brouwer, J. & Pang, E.C.K. 2005. An introduction to markers, quantitative trait loci (QTL) mapping and marker-assisted selection for crop improvement: The basic concepts. Euphytica 142(1-2): 169-196.

Cuc, L.M., Huyen, L.T.N., Hien, P.T.M., Hang, V.T.T., Dam, N.Q., Mui, P.T., Quang, V.D., Ismail, A. & Ham, L.H. 2012. Application of marker assisted backcrossing to introgress the submergence tolerance QTL SUB1 into the Vietnam Elite. American Journal of Plant Science 3(4): 528-536.

Dellaporta, S.L., Wood, J. & Hicks, J.B. 1983. A plant DNA minipreparation: Version II. Plant Molecular Biology Reporter 1(4): 19-21.

Frisch, M. & Melchinger, A.E. 2005. Selection theory for marker-assisted backcrossing. Genetics 170(2): 909-917.

Fukao, T. & Bailey-Serres, J. 2008. Ethylene - A key regulator of submergence responses in rice. Plant Science 175: 43-51.

Gusmiatun, Suwignyo, R.A., Wijaya, A. & Hasmeda, M. 2015. Peningkatan toleransi rendaman padi lokal rawa lebak dengan introgresi gen Sub1. Jurnal Agronomi Indonesia 43(2): 99-104.

Hasan, M.M., Rafii, M.Y., Ismail, M.R., Mahmood, M., Alam, M.A. & Rahim, H.A. 2016. Introgression of blast resistance genes into the elite rice variety MR263 through marker‐assisted backcrossing. Journal of the Science of Food and Agriculture 96(4): 1297-1305.

Hasmeda, M., Suwignyo, R.A., Wibisono, I. & Hamidson, H. 2017. Analysis of submergence tolerant gene (Sub-1) on BC2F1 population, backcross of selected swamp rice genotipe using molecular marker. Journal of Advanced Agricultural Technologies 4(4): 350-353.

Hospital, F. 2001. Size of donor chromosome segments around introgressed loci and reduction of linkage drag in marker-assisted backcross programs. Genetics 158(3): 1363-1379.

Iftekharuddaula, K.M., Ahmed, H.U., Ghosal, S., Moni, Z.R., Amin, A. & Ali, M.S. 2015. Development of new submergence tolerant rice variety for Bangladesh using marker-assisted backcrossing. Rice Science 22(1): 16-26.

Iftekharuddaula, K.M., Newaz, M.A., Salam, M.A., Ahmed, H.U., Mahbub, M.A.A., Septiningsih, E.M., Collard, B.C.Y., Sanchez, D.L., Pamplona, A.M. & Mackill, D.J. 2011. Rapid and high-precision marker assisted backcrossing to introgress the SUB1 QTL into BR11, the rainfed lowland rice mega variety of Bangladesh. Euphytica 178(1): 83-97.

Irmawati, Eehara, H., Suwignyo, R.A. & Sakagami, J.I. 2015. Swamp rice cultivation in South Sumatra, Indonesia: An overview. Tropical Agriculture and Development 59(1): 35-39.

IRRI. 2013. Standard Evaluation System for Rice. Manila, Philippines: International Rice Research Institute.

Joho, Y., Omasa, K., Kawano, N. & Sakagami, J.I. 2008. Growth responses of seedlings in Oryza glaberrima Steud. to short-term submergence in Guinea, West Africa. Japan Agricultural Research Quarterly 42(3): 157-162.

Khanh, D. 2013. Rapid and high-precision marker assisted backcrossing to introgress the SUB1 QTL into the Vietnamese elite rice variety. Journal of Plant Breeding and Crop Science 5(2): 26-33.

Lakitan, B., Hadi, B., Herlinda, S., Sinaga, E., Laily, I.W., Kartika, K., Lindiana, L., Yunindyawati, Y. & Meihana, M. 2018. Recognizing farmers’ practices and constraints for intensifying rice production at Riparian Wetlands in Indonesia. NJAS-Wageningen Journal of Life Science 85(1): 11.

Linh, L.H., Linh, T.H., Xuan, T.D., Ham, L.H., Ismail, A.M. & Khanh, T.D. 2012. Molecular breeding to improve salt tolerance of rice (Oryza sativa L.) in the Red River Delta of Vietnam. International Journal of Plant Genomics 2012: 949038.

Mackill, D.J. 2006. Breeding for resistance to abiotic stresses in rice: The value of quantitative trait loci. In Plant Breeding: Arnel R. Hallauer International Symposium, edited by Lamkey, K.R. & Lee, M. New York: Blackwell Publishing. pp. 201-212.

Miah, G., Rafii, M.Y., Ismail, M.R., Puteh, A.B., Rahim, H.A. & Latif, M.A. 2015. Recurrent parent genome recovery analysis in a marker-assisted backcrossing program of rice (Oryza sativa L.). Comptes Rendus Biologies 338(2): 83-94.

Mishra, S., Senadhira, D. & Manigbas, N. 1996. Genetics of submergence tolerance in rice (Oryza sativa L.). Field Crops Research 46(1): 177-181.

Mohanty, H.K. & Khush, G.S. 1985. Diallel analysis of submergence tolerance in rice, Oryza sativa L. Theoretical and Applied Genetics 70(5): 467-473.

Mohanty, H.K., Mallik, S. & Grover, A. 2000. Prospects of improving flooding tolerance in lowland rice varieties by conventional breeding and genetic engineering. Current Science 78(2): 132-137.

Mojulat, W.C., Yusop, M.R., Ismail, M.R., Juraimi, A.S., Harun, A.R., Ahmed, F., Tanweer, F.A. & Latif, MD.A. 2017. Analysis of simple sequence repeat markers linked to submergence tolerance on newly developed rice lines derived from MR263 × swarna-Sub1. Sains Malaysiana 46(4): 521-528.

Nandi, S., Subudhi, P.K., Senadrira, D., Maningbas, N.L., Sen-Mandi, S. & Huang, N. 1997. Mapping QTL for submergence tolerance in rice by AFLP analysis and selective genotyping. Molecular Genetics and Genomics 255(1): 1-8.

Neeraja, C.N., Maghirang-Rodriguez, R., Pamplona, A., Heuer, S., Collard, B.C.Y., Septiningsih, E.M., Vergara, G., Sanchez, D., Xu, K., Ismail, A.M. & Mackill, D.J. 2007. A marker-assisted backcross approach for developing submergence-tolerant rice cultivars. Theoretical and Applied Genetics 115(6): 767-776.

Rathnayake, N., Bentota, A., Dissanayake, D., Perera, K., Sooriyapathirana, S. & Jayasekera, G. 2013. DNA markers RM464A and RM219 haplotypes are effective in selecting Sub-1 locus for the introgression of submergence tolerance into new rice varieties. Ceylon Journal of Science (Biological Science) 41(2): 125-136.

Septiningsih, E.M., Hidayatun, N., Sanchez, D.L., Nugraha, Y., Carandang, J., Pamplona, A.M., Collard, B.C.Y., Ismail, A.M. & Mackill, D.J. 2014. Accelerating the development of new submergence tolerant rice varieties: The case of Ciherang-Sub1 and PSB Rc18-Sub1. Euphytica 202(2): 259-268.

Septiningsih, E.M., Pamplona, A.M., Sanchez, D.L., Neeraja, C.N., Vergara, G.V., Heuer, S., Ismail, A.M. & Mackill, D.J. 2009. Development of submergence-tolerant rice cultivars: The Sub1 locus and beyond. Annals of Botany 103(2): 151-160.

Siangliw, M., Toojinda, T., Tragoonrung, S. & Vanavichit, A. 2003. Thai Jasmine rice carrying QTLch9 (SubQTL) is submergence tolerant. Annals of Botany 91(2): 255-261.

Toojinda, T., Tragoonrung, S., Vanavichit, A., Siangliw, J.L., Pa-In, N., Jantaboon, J., Siangliw, M. & Fukai, S. 2005. Molecular breeding for rainfed lowland rice in the Mekong region. Plant Production Science 8(3): 330-333.

Toojinda, T., Siangliw, M., Tragoonrung, S. & Vanavichit, A. 2003. Molecular genetics of submergence tolerance in rice: QTL analysis of key traits. Annals of Botany 91(2): 243-253.

Van Berloo, R. 2008. GGT 2.0: Versatile software for visualization and analysis of genetic data. Journal of Heredity 99(2): 232-236.

Wassmann, R., Jagadish, S.V.K., Heuer, S., Ismail, A., Redona, E., Serraj, R., Singh, R.K., Howell, G., Pathak, H. & Sumfleth, K. 2009. Climate change affecting rice production. The physiological and agronomic basis for possible adaptation strategies. Advances in Agronomy 101: 59-122.

Xu, K. & Mackill, D.J. 1996. A major locus for submergence tolerance mapped on rice chromosome 9. Molecular Breeding 2(3): 219-224.

Xu, K., Xu, X., Fukao, T., Canlas, P., Maghirang-Rodriguez, R., Heuer, S., Ismail, A.M., Bailey-Serres, J., Ronald, P.C. & Mackill, D.J. 2006. Sub1A is an ethylene-response-factor-like gene that confers submergence tolerance to rice. Nature 442(7103): 705-708.

Xu, K., Deb, R. & Mackill, D.J. 2004. A microsatellite marker and a codominant PCR-based marker for marker-assisted selection of submergence tolerance in rice. Crop Science 44(1): 248-253.

Xu, K., Xu, X., Ronald, P.C. & Mackill, D.J. 2000. A high-resolution linkage map of the vicinity of the rice submergence tolerance locus Sub1. Molecular Genetics and Genomics 263(4): 681-689.

Yeh, F.C., Yang, R-C. & Boyle, T. 1999. POPGENE VERSION 1.31 Microsoft Window-based Freeware for Population Genetic.

 

*Pengarang untuk surat-menyurat; email: m_hasmeda@yahoo.com

 

 

   

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