Isolation and characterization of the C-class MADS-box gene from the distylous pseudo-cereal Fagopyrum esculentum

In the model species Arabidopsis thaliana , the floral homeotic C-class gene AGAMOUS (AG) specifies reproductive organ (stamen and carpels) identity and floral meristem determinacy. Gene function analyses in other core eudicots species reveal functional conservation, subfunctionalization and functio...

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Bibliographic Details
Published in:Journal of plant biology = Singmul Hakhoe chi 2017, 60(2), , pp.189-198
Main Authors: Li, Lai-Yun, Fang, Zheng-Wu, Li, Xiao-Fang, Liu, Zhi-Xiong
Format: Article
Language:English
Subjects:
AG gene
Amino acid sequence
Amino acids
Angiosperms
Biomedical and Life Sciences
Buckwheat
Carpels
Cell size
Ectopic expression
Fagopyrum esculentum
Flowering
Flowers
Flowers & plants
Genes
Life Sciences
MADS box proteins
Meiosis
Meristems
Nucleotide sequence
Original Article
Phylogenetics
Phylogeny
Plant Breeding/Biotechnology
Plant Ecology
Plant Genetics and Genomics
Plant reproductive structures
Plant Sciences
Plant Systematics/Taxonomy/Biogeography
Proteins
Reproductive organs
Sepals
Stamens
생물학
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Summary:In the model species Arabidopsis thaliana , the floral homeotic C-class gene AGAMOUS (AG) specifies reproductive organ (stamen and carpels) identity and floral meristem determinacy. Gene function analyses in other core eudicots species reveal functional conservation, subfunctionalization and function switch of the C-lineage in this clade. To identify the possible roles of AG -like genes in regulating floral development in distylous species with dimorphic flowers (pin and thrum) and the C function evolution, we isolated and identified an AG ortholog from Fagopyrum esculentum (buckwheat, Family Polygonaceae), an early diverging species of core eudicots preceding the rosids-asterids split. Protein sequence alignment and phylogenetic analysis grouped FaesAG into the euAG lineage. Expression analysis suggested that FaesAG expressed exclusively in developing stamens and gynoecium of pin and thrum flowers. Moreover, FaesAG expression reached a high level in both pin and thrum flowers at the time when the stamens were undergoing rapidly increased in size and microspore mother cells were in meiosis. FaesAG was able to substitute for the endogenous AG gene in specifying stamen and carpel identity and in an Arabidopsis ag-1 mutant. Ectopic expression of FaesAG led to very early flowering, and produced a misshapen inflorescence and abnormal flowers in which sepals had converted into carpels and petals were converted to stamens. Our results confirmed establishment of the complete C-function of the AG orthologous gene preceding the rosids-asterids split, despite the distinct floral traits present in early- and late-diverging lineages of core eudicot angiosperms.
ISSN:1226-9239
1867-0725
DOI:10.1007/s12374-016-0488-3