Autor: Ye, Guoyou
- Natural variation of OsML1, a mitochondrial transcription termination factor, contributes to mesocotyl length variation in rice
- Identification of potential zinc deficiency responsive genes and regulatory pathways in rice by weighted gene co-expression network analysis
- OsNAC15 regulates tolerance to zinc deficiency and cadmium by binding to OsZIP7 and OsZIP10 in rice
- Genomic prediction using composite training sets is an effective method for exploiting germplasm conserved in rice gene banks
- Multi-trait genomic prediction models enhance the predictive ability of grain trace elements in rice
- Validation of genes affecting rice grain zinc content through candidate gene-based association analysis
Autor: He, Sang
- Natural variation of OsML1, a mitochondrial transcription termination factor, contributes to mesocotyl length variation in rice
- Identification of potential zinc deficiency responsive genes and regulatory pathways in rice by weighted gene co-expression network analysis
- Genomic prediction using composite training sets is an effective method for exploiting germplasm conserved in rice gene banks
- Multi-trait genomic prediction models enhance the predictive ability of grain trace elements in rice
Ejemplares similares: Natural variation of OsML1, a mitochondrial transcription termination factor, contributes to mesocotyl length variation in rice
- Validation of genes affecting rice mesocotyl length through candidate association analysis and identification of the superior haplotypes
- Genome-wide Association Study (GWAS) for mesocotyl elongation in rice (Oryza sativa L.) under multiple culture conditions
- Mesocotyl elongation, an essential trait for dry-seeded rice (Oryza sativa L.): a review of physiological and genetic basis
- Rapid identification of qtl for mesocotyl length in rice through combining QTL-seq and genome-wide association analysis
- Genomic prediction using composite training sets is an effective method for exploiting germplasm conserved in rice gene banks
- Scoring the Elongation Ability of Deep-Water Rice
Ejemplares similares: Identification of potential zinc deficiency responsive genes and regulatory pathways in rice by weighted gene co-expression network analysis
- Genomic prediction using composite training sets is an effective method for exploiting germplasm conserved in rice gene banks
- Validation of genes affecting rice grain zinc content through candidate gene-based association analysis
- Multi-trait genomic prediction models enhance the predictive ability of grain trace elements in rice
- In situ deletions reveal regulatory components for expression of an intracellular immune receptor gene and its co‐expressed genes in Arabidopsis
- OsNAC15 regulates tolerance to zinc deficiency and cadmium by binding to OsZIP7 and OsZIP10 in rice
- Mesocotyl elongation, an essential trait for dry-seeded rice (Oryza sativa L.): a review of physiological and genetic basis