Rice functional genomics is a scientific approach that seeks to identify and define the function of rice genes, and uncover when and how genes work together to produce phenotypic traits. Rapid progress in rice genome sequencing has facilitated research in rice functional genomics in China. The Ministry of Science and Technology of China has funded two major rice functional genomics research programmes for building up the infrastructures of the functional genomics study such as developing rice functional genomics tools and resources. The programmes were also aimed at cloning and functional analyses of a number of genes controlling important agronomic traits from rice. National and international collaborations on rice functional genomics stud...
Rice has been a model monocot for functional genomics research due to its small genome size (430 Mb)...
This volume presents recent research achievements concerning the molecular genetic basis of agronomi...
Rice is one of the pillars of world-wide food security. Improvement in its yield is necessary to mit...
To discover genes essential for rice genetic improvement, the Ministry of Science and Technology of ...
has focused on developing rice functional genomics tools and resources to identify genes of agronomi...
The China Rice Functional Genomics Program (CRFGP) was initiated in 1999 by the Ministry of Science ...
Rice functional genomic research at the post-genomic era has been accelerated by the developmental o...
Through thousands of years of evolution and cultivation, tremendously rich genetic diversity has bee...
With the completion of genomic sequencing of rice, rice has been firmly established as a model organ...
Rice is an important crop and major model plant for monocot functional genomics studies. With the es...
[[abstract]]Prof. Yu produced more then 60,000 mutated plants used by T-DNA insertion rice NT-67. On...
A review of the present and future of rice genomics is presented. Rice is a model species for cereal...
Rice (Oryza sativa L.) is the leading genomics system among the crop plants. The sequence of the ric...
The newly updated database is already available online and ready to be used by the scientific commun...
The last decade has made cultivated rice of asian origin (Oryza sativa L.) the model cereal crop for...
Rice has been a model monocot for functional genomics research due to its small genome size (430 Mb)...
This volume presents recent research achievements concerning the molecular genetic basis of agronomi...
Rice is one of the pillars of world-wide food security. Improvement in its yield is necessary to mit...
To discover genes essential for rice genetic improvement, the Ministry of Science and Technology of ...
has focused on developing rice functional genomics tools and resources to identify genes of agronomi...
The China Rice Functional Genomics Program (CRFGP) was initiated in 1999 by the Ministry of Science ...
Rice functional genomic research at the post-genomic era has been accelerated by the developmental o...
Through thousands of years of evolution and cultivation, tremendously rich genetic diversity has bee...
With the completion of genomic sequencing of rice, rice has been firmly established as a model organ...
Rice is an important crop and major model plant for monocot functional genomics studies. With the es...
[[abstract]]Prof. Yu produced more then 60,000 mutated plants used by T-DNA insertion rice NT-67. On...
A review of the present and future of rice genomics is presented. Rice is a model species for cereal...
Rice (Oryza sativa L.) is the leading genomics system among the crop plants. The sequence of the ric...
The newly updated database is already available online and ready to be used by the scientific commun...
The last decade has made cultivated rice of asian origin (Oryza sativa L.) the model cereal crop for...
Rice has been a model monocot for functional genomics research due to its small genome size (430 Mb)...
This volume presents recent research achievements concerning the molecular genetic basis of agronomi...
Rice is one of the pillars of world-wide food security. Improvement in its yield is necessary to mit...