1251245191

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Analysis of the Arabidopsis REM gene family predicts functions during flower development
Annals of Botany, . V. 114. No. 7. P. 15071515 (9).
Background and AimsThe REM (Reproductive Meristem) gene family of Arabidopsis thaliana is part of the B3 DNA-binding domain superfamily. Despite the fact that several groups have worked on the REM genes for many years, little is known about the function of this transcription factor family. This study aims to identify a set of REM genes involved in flower development and to characterize their function.MethodsIn order to provide an overview of the REM gene family, a detailed expression analysis for all REM genes of A. thaliana was performed and combined with a meta-analysis of ChIP-sequencing and microarray experiments.Key ResultsTwo sets of phylogenetically closely related REM genes, namely REM23, REM24 and REM25, and REM34, REM35 and REM36, were identified as possibly being involved in the early stages of flower development. Single- and double-mutant combinations were analysed for these genes, and no phenotypic effects were detected during flower development.ConclusionsThe data suggest that the REM34, REM35 and REM36 group is the most interesting one, as REM34 is co-expressed with the floral meristem identity (FMI) genes, they are bound by AP1, SVP, AP3 and PI, and they are expressed in the floral meristem and during the earliest stages of flower development. However, it appears that high levels of functional redundancy may conceal the exact function of these transcription factor genes.
Analysis of the Arabidopsis REM gene family predicts functions during flower development
Mantegazza O., Gregis V., Mendes M.A., Morandini P., Alves-Ferreira M., Patreze C.M., Nardeli S.M., Kater M.M., Colombo L.
Annals of Botany, 2014. V. 114. No. 7. P. 1507–1515 (9).
Background and AimsThe REM (Reproductive Meristem) gene family of Arabidopsis thaliana is part of the B3 DNA-binding domain superfamily. Despite the fact that several groups have worked on the REM genes for many years, little is known about the function of this transcription factor family. This study aims to identify a set of REM genes involved in flower development and to characterize their function.MethodsIn order to provide an overview of the REM gene family, a detailed expression analysis for all REM genes of A. thaliana was performed and combined with a meta-analysis of ChIP-sequencing and microarray experiments.Key ResultsTwo sets of phylogenetically closely related REM genes, namely REM23, REM24 and REM25, and REM34, REM35 and REM36, were identified as possibly being involved in the early stages of flower development. Single- and double-mutant combinations were analysed for these genes, and no phenotypic effects were detected during flower development.ConclusionsThe data suggest that the REM34, REM35 and REM36 group is the most interesting one, as REM34 is co-expressed with the floral meristem identity (FMI) genes, they are bound by AP1, SVP, AP3 and PI, and they are expressed in the floral meristem and during the earliest stages of flower development. However, it appears that high levels of functional redundancy may conceal the exact function of these transcription factor genes.
AID: 1251245191
DOI: 10.1093/aob/mcu124