A transgenic approach to testing functional divergence of stress-responsive GROWTH REGULATORY FACTOR genes across flowering plants
Rowlands, Haley
Rowlands, Haley
Citations
Altmetric:
License
License
Abstract
There is great interest in discovering genes involved in the control of flowering time such that crops can be modified to increase yield and keep pace with climate change. In the model temperate grass (Poaceae) Brachypodium distachyon, GROWTH REGULATORY FACTOR 14h (BdGF14h) has recently been discovered to control flowering time under drought conditions. The distantly related temperate species Arabidopsis thaliana (mustard family, Brassicaceae) has three copies of this gene (AtGRF9-11), but instead of being affected in flowering time, grf9 mutants in particular are unable to elongate their roots to the same extent as wild type plants during drought. To determine if these different phenotypes are due to evolution within the coding regions of BdGF14h versus AtGRF9-11, or alternatively due to the different genetic contexts of grasses and mustards, I intend to construct and compare the phenotypes of A. thaliana gf9 mutants expressing AtGRF9, AtGRF10, or BdGF14h.
Description
Date
2020-01-01
Student Status
Undergraduate
Journal Title
Journal ISSN
Volume Title
Type of presentation
Poster Presentation
Collections
Research Projects
Organizational Units
Journal Issue
Citation
DOI
Advisor(s)
Department
Program/Major
Plant Biology
College/School
College of Agriculture and Life Sciences
Organization
item.page.researchcategory
Biological Sciences