Please use this identifier to cite or link to this item: http://223.31.159.10:8080/jspui/handle/123456789/294
Title: Four genes encoding MYB28, a major transcriptional regulator of aliphatic glucosinolate pathway, are differentially expressed in the allopolyploid Brassica juncea
Authors: Augustine, Rehna
Majee, Manoj
Gershenzon, Jonathan
Bisht, Naveen C.
Keywords: Brassica juncea
expression partitioning
glucosinolates
MYB28
transcription factor
Issue Date: 2013
Publisher: Oxford University Press
Citation: J. Exp. Bot., 64(16): 4907-4921
Abstract: Glucosinolates are Capparales-specific secondary metabolites that have immense potential in human health and agriculture. Unlike Arabidopsis thaliana, our knowledge about glucosinolate regulators in the Brassica crops is sparse. In the current study, four MYB28 homologues were identified (BjuMYB28-1,-2,-3,-4) from the polyploid Brassica juncea, and the effects of allopolyploidization on the divergence of gene sequence, structure, function, and expression were assessed. The deduced protein sequences of the four BjuMYB28 genes showed 76.1-83.1% identity with the Arabidopsis MYB28. Phylogenetic analysis revealed that the four BjuMYB28 proteins have evolved via the hybridization and duplication processes forming the B. juncea genome (AABB) from B. rapa (AA) and B. nigra (BB), while retaining high levels of sequence conservation. Mutant complementation and over-expression studies in A. thaliana showed that all four BjuMYB28 genes encode functional MYB28 proteins and resulted in similar aliphatic glucosinolate composition and content. Detailed expression analysis using qRT-PCR assays and promoter-GUS lines revealed that the BjuMYB28 genes have both tissue- and cell-specific expression partitioning in B. juncea. The two B-genome origin BjuMYB28 genes had more abundant transcripts during the early stages of plant development than the A-genome origin genes. However, with the onset of the reproductive phase, expression levels of all four BjuMYB28 increased significantly, which may be necessary for producing and maintaining high amounts of aliphatic glucosinolates during the later stages of plant development. Taken together, our results suggest that the four MYB28 genes are differentially expressed and regulated in B. juncea to play discrete though overlapping roles in controlling aliphatic glucosinolate biosynthesis.
Description: Accepted date: 25 July 2013
URI: http://172.16.0.77:8080/jspui/handle/123456789/294
ISSN: 0022-0957
Appears in Collections:Institutional Publications

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