研究领域为玉米分子遗传学,致力于挖掘调控玉米产量、品质及逆境响应的关键基因,阐明其生物学功能,培育高产、优质和耐逆玉米新种质。
(1) Phosphoglycerate dehydrogenase is required for kernel development and defines a predominant serine synthesis pathway in maize.The Plant Cell.2025,37 (6):koaf126
(2) Identification of the karyopherin superfamily in maize and its functional cues in plant development.International Journal of Molecular Sciences.2022,23 (22):14103
(3) The FUSED LEAVES1-ADHERENT1 regulatory module is required for maize cuticle development and organ separation.New Phytologist.2020,229 (1)
(4) Long-read sequencing reveals genomic structural variations that underlie creation of quality protein maize.Nature Communications.2020,11
(5) NAC-type transcription factors regulate accumulation of starch and protein in maize seeds.Proceedings of the National Academy of Sciences of the United States of America.2019,116 (23):11223-11228
(6) Candidate gene identification of existing or induced mutations with pipelines applicable to large genomes.Plant Journal.2019,97 (4):673-682
(7) Auxin polar transport flanking incipient primordium initiates leaf adaxial-abaxial polarity patterning.Journal of Integrative Plant Biology.2018,60 (6):455-464
(8) Model for the role of auxin polar transport in patterning of the leaf adaxial–abaxial axis.Plant Journal.2017,92 (3):469-480
(9) Analysis of tandem gene copies in maize chromosomal regions reconstructed from long sequence reads.Proceedings of the National Academy of Sciences of the United States of America.2016,113 (29):7949-7956
(10) SLIDE, the protein interacting domain of imitation switch remodelers, binds DDT-domain proteins of different subfamilies in chromatin remodeling complexes.Journal of Integrative Plant Biology.2013,55 (10):928-937
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1.生命科学学院 植物学、遗传学 2025
