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Marker-assisted breeding of Chinese elite rice cultivar 9311 for disease resistance to rice blast and bacterial blight and tolerance to submergence
Authors:Yanchang Luo  Tingchen Ma  Aifang Zhang  Kar Hui Ong  Zhixiang Luo  Zefu Li  Jianbo Yang  Zhongchao Yin
Affiliation:1.Temasek Life Sciences Laboratory, 1 Research Link,National University of Singapore,Singapore,Republic of Singapore;2.Key Laboratory of Rice Genetics and Breeding, Rice Research Institute,Anhui Academy of Agricultural Sciences,Hefei,China;3.Plant Protection Research Institute,Anhui Academy of Agricultural Sciences,Hefei,China;4.Department of Biological Sciences,National University of Singapore,Singapore,Republic of Singapore
Abstract:Rice (Oryza sativa L.) is the staple food crop for more than half of the world’s population. The development of hybrid rice is a practical approach to increase rice production. However, rice production was frequently affected by biotic and abiotic stresses. Rice blast and bacterial blight are two major diseases in rice growing regions. Rice plantation is also frequently affected by short-term submergence or seasonal floods in wet seasons and drought in dry seasons. The utilization of natural disease resistance (R) genes and stress tolerance genes in rice breeding is the most economic and efficient way to combat or adapt to these biotic and abiotic stresses. Rice cultivar 9311 is widely planted rice variety, either as inbred rice or the paternal line of two-line hybrid rice. Here, we report the pyramiding of rice blast R gene Pi9, bacterial blight R genes Xa21 and Xa27, and submergence tolerance gene Sub1A in 9311 genetic background through backcrossing and marker-assisted selection. The improved rice line, designated as 49311, theoretically possesses 99.2% genetic background of 9311. 49311 and its hybrid rice, GZ63S/49311, conferred disease resistance to rice blast and bacterial blight and showed tolerance to submergence for over 18 days without significant loss of viability. 49311 and its hybrids had similar agronomic traits and grain quality to 9311 and the control hybrid rice, respectively. The development of 49311 provides an improved paternal line for two-line hybrid rice production with disease resistance to rice blast and bacterial blight and tolerance to submergence.
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