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Overarching goal of my research group is to understand the mechanistic basis of growth adaptation in plants. We are using two experimental models to study growth adaptation. In the first project, we are using annual growth cycles in perennial plants as a model to understand how plants use environmental cues such as photoperiod and temperature to control the timing of seasonal growth transitions in hybrid aspen. In second project, we are using apical hook (a structure that forms by bending of hypocotyl as seedling emerges from soil) as a model to understand how mechanical cues regulate differential growth to facilitate tissue bending in Arabidopsis thaliana. We use genetical, cell biological and biophysical approaches combined with mathematical modelling in our work.
Perennial plants, such as trees, must adapt to a changing environment in order to survive the major changes that the change between seasons entails. These plants have developed sophisticated mechanisms that detect fluctuations in the surrounding environment and can adapt growth and development depending on various external factors.
In my research group, one of the projects is focused on understanding how perennial plants at a molecular level synchronize growth with favorable external conditions. For this project we use hybrid asp which is a model plant in tree research.
Another project we are working on is to understand how extension/extent is regulated in plants. The elongation process is more problematic for plant cells compared to other cell types because the plant cell is surrounded by a rigid cell wall that must be restructured if the cell is to elonger. Ongoing research in my group aims to identify key components in the processes that lead to modification of the cell wall and elongation in the model plant Arabidopsis.
Perennial plants, such as trees, must adapt to a changing environment in order to survive the major changes that the change between seasons entails. These plants have developed sophisticated mechanisms that detect fluctuations in the surrounding environment and can adapt growth and development depending on various external factors.
In my research group, one of the projects is focused on understanding how perennial plants at a molecular level synchronize growth with favorable external conditions. For this project we use hybrid asp which is a model plant in tree research.
Another project we are working on is to understand how extension/extent is regulated in plants. The elongation process is more problematic for plant cells compared to other cell types because the plant cell is surrounded by a rigid cell wall that must be restructured if the cell is to elonger. Ongoing research in my group aims to identify key components in the processes that lead to modification of the cell wall and elongation in the model plant Arabidopsis.
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PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICAno. 15 (2024)
Proceedings of the National Academy of Sciencesno. 15 (2024)
Proceedings of the National Academy of Sciences of the United States of Americano. 15 (2024): e2321759121-e2321759121
Qinsong Yang,Jinjin Li,Yan Wang, Zefu Wang,Ziqi Pei,Nathaniel R. Street,Rishikesh P. Bhalerao, Zhaowei Yu,Yuhao Gao,Junbei Ni,Yang Jiao, Minghui Sun,
NEW PHYTOLOGIST (2024)
Jihua Ding, Kejing Wang, Shashank Pandey,Mariano Perales,Isabel Allona, Md Rezaul Islam Khan,Victor B Busov,Rishikesh P Bhalerao
Qinsong Yang,Jinjin Li,Yan Wang, Zefu Wang,Ziqi Pei,Nathaniel R Street,Rishikesh P Bhalerao, Zhaowei Yu,Yuhao Gao,Junbei Ni,Yang Jiao, Minghui Sun,
The New phytologistno. 6 (2024): 2702-2718
Gwendolyn V Davis, Tatiana de Souza Moraes, Swanand Khanapurkar, Hannah Dromiack,Zaki Ahmad,Emmanuelle M Bayer,Rishikesh P Bhalerao,Sara I Walker,George W Bassel
Trends in plant science (2023)
Molecular plantno. 8 (2023): 1246-1248
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