Genetics, Quantitative trait locus, Single-nucleotide polymorphism, Genetic variation and Linkage disequilibrium are his primary areas of study. His Genetics study combines topics from a wide range of disciplines, such as Germplasm and Plant breeding. Jianbing Yan interconnects Association mapping, Genetic linkage, Genetic association and Gene mapping in the investigation of issues within Quantitative trait locus.
His studies examine the connections between Association mapping and genetics, as well as such issues in Minor allele frequency, with regards to Nested association mapping and Principal component analysis. His biological study deals with issues like Genetic diversity, which deal with fields such as Allele frequency. Jianbing Yan works mostly in the field of Genetic variation, limiting it down to concerns involving Allele and, occasionally, Botany.
His primary areas of study are Genetics, Quantitative trait locus, Gene, Genome and Single-nucleotide polymorphism. In his research on the topic of Genetics, Allele frequency is strongly related with Genetic diversity. Jianbing Yan has researched Quantitative trait locus in several fields, including Genetic linkage, Inbred strain, Gene mapping and Candidate gene.
Within one scientific family, Jianbing Yan focuses on topics pertaining to Botany under Gene, and may sometimes address concerns connected to Horticulture. While the research belongs to areas of Genetic variation, Jianbing Yan spends his time largely on the problem of Plant breeding, intersecting his research to questions surrounding Germplasm and Genetic variability. His Association mapping research includes themes of Minor allele frequency and Linkage disequilibrium.
Jianbing Yan focuses on Gene, Genome, Quantitative trait locus, Computational biology and Genetics. In his work, Single-nucleotide polymorphism is strongly intertwined with Candidate gene, which is a subfield of Quantitative trait locus. His study on Association mapping is often connected to F-box protein as part of broader study in Single-nucleotide polymorphism.
His research integrates issues of Selection and Hybrid in his study of Genetics. His work deals with themes such as Epistasis, Genome-wide association study and Inbred strain, which intersect with Genetic architecture. His Genetic variation research is multidisciplinary, incorporating perspectives in Genetic marker and Phenotype.
Jianbing Yan mainly focuses on Gene, Computational biology, Genome, Genetics and Genetic variation. His work on Genome is being expanded to include thematically relevant topics such as Quantitative trait locus. His Quantitative trait locus research incorporates elements of Evolutionary biology and Candidate gene.
As part of his studies on Genetics, Jianbing Yan frequently links adjacent subjects like Hybrid. His Genetic variation research is multidisciplinary, incorporating elements of Cell wall, Botany, Monolignol, Genetic marker and Secondary metabolism. Jianbing Yan focuses mostly in the field of Genome-wide association study, narrowing it down to matters related to Lipid biosynthesis and, in some cases, Single-nucleotide polymorphism and Allele.
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Natural Genetic Variation in Lycopene Epsilon Cyclase Tapped for Maize Biofortification
Carlos E. Harjes;Torbert R. Rocheford;Ling Bai;Thomas P. Brutnell.
Prediction of Genetic Values of Quantitative Traits in Plant Breeding Using Pedigree and Molecular Markers
José Crossa;Gustavo De Los Campos;Gustavo De Los Campos;Paulino Pérez;Daniel Gianola.
Genome-wide association study dissects the genetic architecture of oil biosynthesis in maize kernels
Hui Li;Zhiyu Peng;Xiaohong Yang;Weidong Wang.
Nature Genetics (2013)
Rare genetic variation at Zea mays crtRB1 increases β-carotene in maize grain
Jianbing Yan;Catherine Bermudez Kandianis;Carlos E. Harjes;Ling Bai.
Nature Genetics (2010)
Genetic characterization and linkage disequilibrium estimation of a global maize collection using SNP markers
Jianbing Yan;Jianbing Yan;Trushar Shah;Marilyn L. Warburton;Edward S. Buckler;Edward S. Buckler.
PLOS ONE (2009)
Association Mapping for Enhancing Maize (Zea mays L.) Genetic Improvement
Jianbing Yan;Jianbing Yan;Marilyn Warburton;Jonathan Crouch.
Crop Science (2011)
Metabolome-based genome-wide association study of maize kernel leads to novel biochemical insights
Weiwei Wen;Dong Li;Xiang Li;Yanqiang Gao.
Nature Communications (2014)
High-throughput SNP genotyping with the GoldenGate assay in maize
Jianbing Yan;Jianbing Yan;Xiaohong Yang;Trushar Shah;Héctor Sánchez-Villeda.
Molecular Breeding (2010)
Molecular characterization of global maize breeding germplasm based on genome-wide single nucleotide polymorphisms.
Yanli Lu;Yanli Lu;Jianbing Yan;Claudia T. Guimarães;Suketoshi Taba.
Theoretical and Applied Genetics (2009)
CACTA-like transposable element in ZmCCT attenuated photoperiod sensitivity and accelerated the postdomestication spread of maize.
Qin Yang;Zhi Li;Wenqiang Li;Lixia Ku.
Proceedings of the National Academy of Sciences of the United States of America (2013)
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