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College of Forestry
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Development of an efficient root transgenic system for pigeon pea and its application to other important economically plants.
Plant biotechnology journal 09, 2019 | Pubmed ID: 30803117
Time Series RNA-seq in Pigeonpea Revealed the Core Genes in Metabolic Pathways under Aluminum Stress.
Genes 04, 2020 | Pubmed ID: 32244575
CDPK6 phosphorylates and stabilizes MYB30 to promote hyperoside biosynthesis that prolongs the duration of full-blooming in okra.
Journal of experimental botany 07, 2020 | Pubmed ID: 32249299
Multidimensional analysis of actin depolymerising factor family in pigeon pea under different environmental stress revealed specific response genes in each subgroup.
Functional plant biology : FPB 01, 2021 | Pubmed ID: 32970987
The functional analysis of ABCG transporters in the adaptation of pigeon pea () to abiotic stresses.
PeerJ , 2021 | Pubmed ID: 33552725
The pigeon pea CcCIPK14-CcCBL1 pair positively modulates drought tolerance by enhancing flavonoid biosynthesis.
The Plant journal : for cell and molecular biology Jun, 2021 | Pubmed ID: 33733535
Hyperoside regulates its own biosynthesis via MYB30 in promoting reproductive development and seed set in okra.
Plant physiology 04, 2021 | Pubmed ID: 33743011
Hyperoside promotes pollen tube growth by regulating the depolymerization effect of actin-depolymerizing factor 1 on microfilaments in okra.
Horticulture research Jul, 2021 | Pubmed ID: 34193835
Beijing Forestry University
Tengyue Liu*,1,
Zhihua Song*,1,
Tingting Du1,
Wanlong Yang1,
Ting Chen1,
Ying Han1,
Biying Dong1,
Hongyan Cao1,
Lili Niu1,2,
Rohul Amin1,
Haojie jin1,
Qing Yang1,2,
Dong Meng1,2,
Yujie Fu1,2
1College of Forestry, Beijing Forestry University,
2Beijing Advanced Innovation Center for Tree Breeding by Molecular Design, Beijing Forestry University
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