Not exact matches
Three
research institutions — the Chinese Academy of Agricultural Sciences (CAAS), the Beijing Genomics Institute (BGI) Shenzhen, and IRRI — collaborated to sequence the
genomes of 3,024
rice varieties and lines housed in the IRRI (82 %) and the CAAS (18 %) genebanks.
The 3000
Rice Genomes Project, a collaboration between the Chinese Academy of Agricultural Sciences, the International Rice Research Institute, and BGI, provides a massive rice genomic sequence resource for worldwide
Rice Genomes Project, a collaboration between the Chinese Academy of Agricultural Sciences, the International
Rice Research Institute, and BGI, provides a massive rice genomic sequence resource for worldwide
Rice Research Institute, and BGI, provides a massive
rice genomic sequence resource for worldwide
rice genomic sequence resource for worldwide use.
The completed sequencing of the seven wild
rice varieties is a significant progress to drive further genome evolution and domestication,» explained Dr. Rod Wing, leader of the International Oryza Map Alignment Project (IOMAP), an AXA Chair holder at the International Rice Research Institute, Professor at the University of Arizona, and one of the lead scientists in the st
rice varieties is a significant progress to drive further
genome evolution and domestication,» explained Dr. Rod Wing, leader of the International Oryza Map Alignment Project (IOMAP), an AXA Chair holder at the International
Rice Research Institute, Professor at the University of Arizona, and one of the lead scientists in the st
Rice Research Institute, Professor at the University of Arizona, and one of the lead scientists in the study.
The 3,000
Rice Genomes Project (3K RGP) is a collaborative, international research program that has sequenced 3,024 rice varieties from 89 countr
Rice Genomes Project (3K RGP) is a collaborative, international
research program that has sequenced 3,024
rice varieties from 89 countr
rice varieties from 89 countries.
Working with the Japanese National Institute of Agricultural
Research's
Rice Genome Programme in Tsukuba, Moore looked for genes shared between rice and wheat, and discovered that although wheat and rice diverged some 60 million years ago, the order of the genes in the two species is essentially the same, even though the genes are much farther apart in wh
Rice Genome Programme in Tsukuba, Moore looked for genes shared between
rice and wheat, and discovered that although wheat and rice diverged some 60 million years ago, the order of the genes in the two species is essentially the same, even though the genes are much farther apart in wh
rice and wheat, and discovered that although wheat and
rice diverged some 60 million years ago, the order of the genes in the two species is essentially the same, even though the genes are much farther apart in wh
rice diverged some 60 million years ago, the order of the genes in the two species is essentially the same, even though the genes are much farther apart in wheat.
His
research interest focuses on 1) development and application of TALEN and CRISPR technologies for targeted
genome editing in plant species, and 2) molecular mechanism of plant / microbe interactions and crop disease resistance engineering by using the bacterial blight of
rice as a model.
In 2017, we welcome aboard a new project partner to sequence and
research more
genomes for Passenger Pigeon de-extinction, the Center for
Genome Architecture at
Rice University's Baylor College of Medicine.
Three
research institutions — the Chinese Academy of Agricultural Sciences (CAAS), the Beijing Genomics Institute (BGI) Shenzhen, and IRRI — collaborated to sequence the
genomes of 3,024
rice varieties and lines housed in the IRRI (82 %) and the CAAS (18 %) genebanks.