Publications by authors named "Adriana E Caragea"
Article Synopsis
- The auxin signal transduction pathway is governed by the interaction of Auxin Response Factors (ARFs) and their repressors, the Aux/IAAs, which control auxin-responsive genes.
- A new genetic tool has been developed to study ARF function by creating a truncated version of MONOPTEROS (MP), named MPΔ, that lacks domains for repression by Aux/IAAs.
- The study highlights genetic interactions between MP and Aux/IAAs and further explores MP's role in vascular patterning, also noting the potential uses of truncated ARFs as analytical tools.
Combinatorial interactions of AUXIN RESPONSE FACTORs (ARFs) and auxin/indole acetic acid (Aux/IAA) proteins through their common domains III and IV regulate auxin responses, but insight into the functions of individual proteins is still limited. As a new tool to explore this regulatory network, we generated a gain-of-function ARF genotype by eliminating domains III and IV from the functionally well-characterized ARF MONOPTEROS(MP)/ARF5. This truncated version of MP, termed MPΔ, conferred complementing MP activity, but also displayed a number of semi-dominant traits affecting auxin signaling and organ patterning.
View Article and Find Full Text PDFSince the hallmark discovery of Aequorea victoria's Green Fluorescent Protein (GFP) and its adaptation for efficient use in plants, fluorescent protein tags marking expression profiles or genuine proteins of interest have been used to recognize plant tissues and cell types, to monitor dynamic cell fate selection processes, and to obtain cell type-specific transcriptomes. Fluorescent tagging enabled visualization in living tissues and the precise recordings of dynamic expression pattern changes. The resulting accurate recording of cell fate acquisition kinetics in space and time has strongly stimulated mathematical modeling of self-organizing feedback mechanisms.
View Article and Find Full Text PDF