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Zengxiang Pan

Showing results (11-20 of 68) with videos related to

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Journal of Cellular Physiology|May 17, 2022
TGFBR2 is a novel substrate and indirect transcription target of deubiquitylase USP9X in granulosa cellsLiu Yang, Siqi Wang, Zengxiang Pan, et al.
Journal of Cellular Physiology|September 7, 2019
TGF-β/SMAD4 signaling pathway activates the HAS2-HA system to regulate granulosa cell stateXinyu Li, Xing Du, Wang Yao, et al.
Animal Reproduction Science|July 5, 2011
Comparative analysis on mRNA expression level and methylation status of DAZL gene between cattle-yaks and their parentsZhenshan Liu, Qifa Li, Zengxiang Pan, et al.
Journal of Animal Science and Biotechnology|October 7, 2021
NORHA, a novel follicular atresia-related lncRNA, promotes porcine granulosa cell apoptosis via the miR-183-96-182 cluster and FoxO1 axisWang Yao, Zengxiang Pan, Xing Du, et al.
Gene|July 4, 2019
MiR-126* is a novel functional target of transcription factor SMAD4 in ovarian granulosa cellsQiqi Li, Xing Du, Lu Liu, et al.
Molecular Biology Reports|October 12, 2012
Expression profiles of key candidate genes involved in steroidogenesis during follicular atresia in the pig ovaryZengxiang Pan, Jinbi Zhang, Fei Lin, et al.
Cell Death Discovery|September 19, 2021
miR-2337 induces TGF-β1 production in granulosa cells by acting as an endogenous small activating RNALingfang Wang, Xing Du, Qiqi Li, et al.
International Journal of Molecular Sciences|September 10, 2021
circRNA-Mediated Inhibin-Activin Balance Regulation in Ovarian Granulosa Cell Apoptosis and Follicular AtresiaMengnan Ma, Huiming Wang, Yi Zhang, et al.
Molecular Reproduction and Development|February 27, 2019
Detection of the effects and potential interactions of FSH, VEGFA, and 2-methoxyestradiol in follicular angiogenesis, growth, and atresia in mouse ovariesJinbi Zhang, Jun Zhang, Beibei Gao, et al.
Cells|April 3, 2019
miR-1306 Mediates the Feedback Regulation of the TGF-β/SMAD Signaling Pathway in Granulosa CellsLiu Yang, Xing Du, Lu Liu, et al.
Pageof 7

Showing results (11-20 of 68) with videos related to

Sort By:
Pageof 7
Journal of Cellular Physiology|May 17, 2022
TGFBR2 is a novel substrate and indirect transcription target of deubiquitylase USP9X in granulosa cellsLiu Yang, Siqi Wang, Zengxiang Pan, et al.
Journal of Cellular Physiology|September 7, 2019
TGF-β/SMAD4 signaling pathway activates the HAS2-HA system to regulate granulosa cell stateXinyu Li, Xing Du, Wang Yao, et al.
Animal Reproduction Science|July 5, 2011
Comparative analysis on mRNA expression level and methylation status of DAZL gene between cattle-yaks and their parentsZhenshan Liu, Qifa Li, Zengxiang Pan, et al.
Journal of Animal Science and Biotechnology|October 7, 2021
NORHA, a novel follicular atresia-related lncRNA, promotes porcine granulosa cell apoptosis via the miR-183-96-182 cluster and FoxO1 axisWang Yao, Zengxiang Pan, Xing Du, et al.
Gene|July 4, 2019
MiR-126* is a novel functional target of transcription factor SMAD4 in ovarian granulosa cellsQiqi Li, Xing Du, Lu Liu, et al.
Molecular Biology Reports|October 12, 2012
Expression profiles of key candidate genes involved in steroidogenesis during follicular atresia in the pig ovaryZengxiang Pan, Jinbi Zhang, Fei Lin, et al.
Cell Death Discovery|September 19, 2021
miR-2337 induces TGF-β1 production in granulosa cells by acting as an endogenous small activating RNALingfang Wang, Xing Du, Qiqi Li, et al.
International Journal of Molecular Sciences|September 10, 2021
circRNA-Mediated Inhibin-Activin Balance Regulation in Ovarian Granulosa Cell Apoptosis and Follicular AtresiaMengnan Ma, Huiming Wang, Yi Zhang, et al.
Molecular Reproduction and Development|February 27, 2019
Detection of the effects and potential interactions of FSH, VEGFA, and 2-methoxyestradiol in follicular angiogenesis, growth, and atresia in mouse ovariesJinbi Zhang, Jun Zhang, Beibei Gao, et al.
Cells|April 3, 2019
miR-1306 Mediates the Feedback Regulation of the TGF-β/SMAD Signaling Pathway in Granulosa CellsLiu Yang, Xing Du, Lu Liu, et al.
Pageof 7