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Study of floral development and root growth kinetics in transgenic plants with altered levels of NtRH35 (NtDDX35) expression

Grant number: 23/12687-2
Support Opportunities:Scholarships in Brazil - Support Program for Fixating Young Doctors
Effective date (Start): August 01, 2023
Effective date (End): June 30, 2025
Field of knowledge:Biological Sciences - Genetics - Plant Genetics
Acordo de Cooperação: CNPq
Principal Investigator:Maria Helena de Souza Goldman
Grantee:Fernanda Mayara Nogueira
Host Institution: Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto (FFCLRP). Universidade de São Paulo (USP). Ribeirão Preto , SP, Brazil
Associated research grant:23/02900-0 - Evaluating the kinetics of root growth and floral development in transgenic plants with altered levels of NtRH35 (NtDDX35) expression, AP.R

Abstract

Previous work by our group (FAPESP 16/20486-3) identified a new protein, not yet characterized in plants, as an interaction partner of SCI1 (Stigma/style Cell-cycle Inhibitor 1) in Nicotiana tabacum. This protein is similar to RNA helicases of the DEAD-box type and was named NtDDX35 or NtRH35. To study the function of the NtRH35 coding gene, which is expressed in all plant organs, transgenic plants were produced with overexpression of this gene (NtRH35-OE), as well as its silencing via RNAi (NtRH35-Ri) (Pinoti, 2021 ). In preliminary analyses, contrasting phenotypes were observed regarding the growth and vegetative and floral development of transgenic plants in relation to control plants (WT). Plants with NtRH35 silencing are shorter than the wild-type (WT) genotype and have difficulty completing floral development. Overexpression plants have height, stem thickness, as well as apparently larger organs. These contrasting phenotypes in the NtRH35 transgenics suggest a role in controlling cell division and/or expansion. In order to understand which mechanisms lead to these phenotypes, in this project we aim to evaluate cell cycle kinetics and acquire absolute measurements of cell size and volume, which will be taken during root growth. Additionally, we will evaluate the floral development in different lines of transgenic plants with altered levels of NtRH35 expression. To achieve these goals, modern bioimaging techniques will be used, such as 5-ethynyl-2 deoxyuridine (EdU) labeling combined with two-photon microscopy, in addition to transmitted light microscopy analyses.

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