rice genomes project . 2014 . The 3,000 rice genomes project . GigaScience 3 : 7 .The 3,000 Rice Genomes Project The 3,000 Rice Genomes Project. GigaScience. 2014; 3 :7. doi: 10.1186/2047-217X-3-7. [ Cross Ref ]The 3000 Rice Genomes Project ( 2014 ) The 3,000 rice genomes ...
the ‘3,000 Rice Genomes Project’, published inNaturein 2018, analysed the genetic variation, population structure and diversity among 3,010 diverse Asian cultivated rice, covering 92% of rice genes, and obtained 32 million high-quality single nucleotide polymorphisms (...
Scientists are also targeting the genetic basis for other crucial aspects of rice production. “There are three key elements in grain yield: panicle size, grain number and grain size,” says Jiayang Li, CAAS project director and a driving force behind the 3,000 Rice Genomes Project. “A rice...
resulting in heavy yield losses (Zhang2009). Hence, it is imperative to exploit genetic resources and discover genes conferring resistance to representativeXoostrains from China. In this study, a diverse rice panel of 340 accessions from the 3000 Rice Genomes Project (3 K RGP) (Wang et al....
A draft sequence of the rice genome (Oryza sativa L. ssp. indica) Science, 296 (2002), pp. 79-92 View in ScopusGoogle Scholar 7 J.Y. Li, J. Wang, R.S. Zeigler The 3,000 rice genomes project: new opportunities and challenges for future rice research Gigascience, 3 (2014), p. ...
These findings suggest that the OsMPT3 gene modulates phosphate transport and energy supply for ATP synthesis and triggers changes in accumulation of ions and metabolites participating in osmotic regulation in rice under salt stress, thus increasing rice salt tolerance. This study demonstrates the ...
We employed a transposon display (TD) method to analyze the methylation environments in the genomes. The 12 TE families, consisting of four class I elements, seven class II elements, and one element of a different class, were differentially distributed in the rice chromosomes: some elements were...
As a major food crop and model organism, rice has been mostly studied with the largest number of functionally characterized genes among all crops. We previously built the funRiceGenes database including ~ 2800 functionally characterized rice genes and
The final assembly of the perennial ryegrass mitochondrial genome resulted in a single circular molecule of 678,580 bp with an average G+C content of 44.1% (Figure 1, Table 3). The G+C content is very similar to that of other sequenced plant mitochondrial genomes such as rice (Oryza sativ...
Rice is a staple crop for half the world’s population, which is expected to grow by 3 billion over the next 30 years. It is also a key model for studying the genomics of agroecosystems. This dual role places rice at the centre of an enormous challenge facing agriculture: how to leverag...