Luis Matías-Hernández1, Andrea E Aguilar-Jaramillo1, Esther Marín-González1, Paula Suárez-López2, Soraya Pelaz3. 1. Centre for Research in Agricultural Genomics, CSIC-IRTA-UAB-UB, Campus UAB, 08193 Bellaterra, Spain. 2. Centre for Research in Agricultural Genomics, CSIC-IRTA-UAB-UB, Campus UAB, 08193 Bellaterra, Spain paula.suarez@cragenomica.es soraya.pelaz@cragenomica.es. 3. Centre for Research in Agricultural Genomics, CSIC-IRTA-UAB-UB, Campus UAB, 08193 Bellaterra, Spain ICREA (Institució Catalana de Recerca i Estudis Avançats), Barcelona, Spain paula.suarez@cragenomica.es soraya.pelaz@cragenomica.es.
Abstract
BACKGROUND: Transcription factors of the RAV (RELATED TO ABI3 AND VP1) family are plant-specific and possess two DNA-binding domains. In Arabidopsis thaliana, the family comprises six members, including TEMPRANILLO 1 (TEM1) and TEM2. Arabidopsis RAV1 and TEM1 have been shown to bind bipartite DNA sequences, with the consensus motif C(A/C/G)ACA(N)2-8(C/A/T)ACCTG. Through direct binding to DNA, RAV proteins act as transcriptional repressors, probably in complexes with other co-repressors. SCOPE AND CONCLUSIONS: In this review, a summary is given of current knowledge of the regulation and function of RAV genes in diverse plant species, paying particular attention to their roles in the control of flowering in arabidopsis. TEM1 and TEM2 delay flowering by repressing the production of two florigenic molecules, FLOWERING LOCUS T (FT) and gibberellins. In this way, TEM1 and TEM2 prevent precocious flowering and postpone floral induction until the plant has accumulated enough reserves or has reached a growth stage that ensures survival of the progeny. Recent results indicate that TEM1 and TEM2 are regulated by genes acting in several flowering pathways, suggesting that TEMs may integrate information from diverse pathways. However, flowering is not the only process controlled by RAV proteins. Family members are involved in other aspects of plant development, such as bud outgrowth in trees and leaf senescence, and possibly in general growth regulation. In addition, they respond to pathogen infections and abiotic stresses, including cold, dehydration, high salinity and osmotic stress.
BACKGROUND: Transcription factors of the RAV (RELATED TO ABI3 AND VP1) family are plant-specific and possess two DNA-binding domains. In Arabidopsis thaliana, the family comprises six members, including TEMPRANILLO 1 (TEM1) and TEM2. ArabidopsisRAV1 and TEM1 have been shown to bind bipartite DNA sequences, with the consensus motif C(A/C/G)ACA(N)2-8(C/A/T)ACCTG. Through direct binding to DNA, RAV proteins act as transcriptional repressors, probably in complexes with other co-repressors. SCOPE AND CONCLUSIONS: In this review, a summary is given of current knowledge of the regulation and function of RAV genes in diverse plant species, paying particular attention to their roles in the control of flowering in arabidopsis. TEM1 and TEM2 delay flowering by repressing the production of two florigenic molecules, FLOWERING LOCUS T (FT) and gibberellins. In this way, TEM1 and TEM2 prevent precocious flowering and postpone floral induction until the plant has accumulated enough reserves or has reached a growth stage that ensures survival of the progeny. Recent results indicate that TEM1 and TEM2 are regulated by genes acting in several flowering pathways, suggesting that TEMs may integrate information from diverse pathways. However, flowering is not the only process controlled by RAV proteins. Family members are involved in other aspects of plant development, such as bud outgrowth in trees and leaf senescence, and possibly in general growth regulation. In addition, they respond to pathogen infections and abiotic stresses, including cold, dehydration, high salinity and osmotic stress.
Authors: Weiwei Deng; Hua Ying; Chris A Helliwell; Jennifer M Taylor; W James Peacock; Elizabeth S Dennis Journal: Proc Natl Acad Sci U S A Date: 2011-04-04 Impact factor: 11.205
Authors: Michela Osnato; Luis Matias-Hernandez; Andrea Elizabeth Aguilar-Jaramillo; Martin M Kater; Soraya Pelaz Journal: Plant Physiol Date: 2020-06-18 Impact factor: 8.340
Authors: Zhaojiang Zuo; Sarathi M Weraduwage; Alexandra T Lantz; Lydia M Sanchez; Sean E Weise; Jie Wang; Kevin L Childs; Thomas D Sharkey Journal: Plant Physiol Date: 2019-02-13 Impact factor: 8.340
Authors: Luis Matías-Hernández; Andrea E Aguilar-Jaramillo; Michela Osnato; Roy Weinstain; Eilon Shani; Paula Suárez-López; Soraya Pelaz Journal: Plant Physiol Date: 2016-01-22 Impact factor: 8.340