Phenotyping of Breeding Populations in Complement with Molecular Markers to Select Submergence Tolerant Rice (Oryza sativa)
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Date
2013
Journal Title
Journal ISSN
Volume Title
Publisher
Uva Wellassa University of Sri Lanka
Abstract
Over 22 million hectares of lowland rain fed rice lands which occupy 18 % of global supply of
rice are vulnerable to flash flooding worldwide and severe in Asian countries such as India,
Bangladesh and Thailand. Most of these fields are cultivated with submergence tolerance
landraces FR13A and FR43B with poor yield of 2 Mt/ha (Neeraja et al., 2007). As reported by
the respective data sources, up to the end of January 2013, approximately 75,000 ha of paddy
lands have been affected due to flood condition prevailed throughout the season. Therefore rice
breeders should select the appropriate varieties for those areas with the higher yield. The study
was undertaken to improve submergence tolerance in popular Sri Lankan rice variety Bg360
through identifying submergence tolerant individuals in BC2F1 population of Bg360 / Swarna
Sub1 // Bg360 by phenotypic and molecular screening.
Methodology
This experiment was carried out in the field and laboratory at the Bio technology Division of
Rice Research and Development Institute, Batalagoda which is in the Low country Intermediate
Zone of Sri Lanka from May to October 2013. Two rice varieties namely Bg360 which is three
and half month, submergence susceptible rice variety popularly grown in Sri Lanka, and Swarna
sub1 which is a developed submergence tolerant rice variety grown in India and 526 seeds from
BC2F1 population of cross of Bg360 and Swarna sub1 were grown in nursery trays for 10 days
and submerged under 1 m height of water for 10 days. Number of survived plants were taken at
de-submergence and number of recovered plants were numerated 14 days after de-submergence.
Height difference was scored before and after submergence.
A rapid DNA extraction protocol modified by Rice Research and Development Institute
(RRDI), Bathalagoda was used for DNA extraction. Peatan a df DNA in she samples were
confirmed by using agarose gel (1%) electrophoresis with 50 mV for 45 minutes. RM 219
microsatellite (Table 1) was used to dbtaeoa polymorphism between Bg360 and Swarna sub1. In
PCR amplification, single preheat at 94 C, 35 cycles of denaturation at 94 C for 1 min, annealing at 59.1 C for 1 min and elongation for 72 C for 2 min and final extension at 72 C for
5 min were used for 15 µl of reaction volume which consist of 0.06 U Taq DNA Polymerase,
1X Buffer, 1.5 mM MgCl2, 0.1 nM dNTPs, 0.07 ϸmol forward and reverse Primers and 20 ng/µl
template DNA. Agarose gel (2%) was used in 0.5X TBE buffer for electrophoresis for 2 hours
under 50mV voltages to analyze the amplified DNA.
Description
Keywords
Agriculture, Export Agriculture, Molecular Biology, Molecular Technology, Crop Production, Rice Research Development