A bZIP type transcription factor from Picrorhiza kurrooa modulates the expression of terpenoid biosynthesis genes in Nicotiana benthamiana

A bZIP type transcription factor from Picrorhiza kurrooa modulates the expression of terpenoid biosynthesis genes in Nicotiana benthamiana

•A bZIP transcription factor was cloned and characterized from P. kurrooa, a medicinally important endangered herb.•Expression of PkbZIP in different tissues, under continuous light conditions and at 15 °C showed a positive correlation with picroside content.•EMSA suggested in vitro binding of PkbZI...

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Bibliographic Details
Published in:South African journal of botany Vol. 169; pp. 210 - 218
Main Authors: Sharma, Tanvi, Suri, Anantika, Kawoosa, Tabasum, Kumar, Arun
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2024
Subjects:
bZIP
Gene expression
Light
Picroside
Promoter
Transcription factor
TFs
hmgr
mvk
pmvk
MS
amsl
Gene expression
Promoter
bZIP
Light
EMSA
MVA
MEP
ipp1
mvdd
Pk
Transcription factor
dxs
Picroside
dxr
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Summary:•A bZIP transcription factor was cloned and characterized from P. kurrooa, a medicinally important endangered herb.•Expression of PkbZIP in different tissues, under continuous light conditions and at 15 °C showed a positive correlation with picroside content.•EMSA suggested in vitro binding of PkbZIP to ACGT motifs in promoter region of regulatory genes, Pkhmgr and Pkdxs, respectively, of picroside biosynthesis pathway.•Transient overexpression in Nicotiana benthamiana suggested in planta functionality of PkbZIP. bZIP family of transcription factors are DNA-binding proteins which bind ACGT motifs in the upstream promoter region of genes. bZIP proteins play significant roles in regulation of plant growth, secondary metabolism, development, defense and response to various abiotic and biotic stresses. Up to now, there is no report on molecular and functional characterization of bZIP transcription factors in Picrorhiza kurrooa, a medicinally important endangered herb of north western Himalayan region. The species is widely used in several commercially available drug formulations like livomap, livocare and livplus for treatment of liver disorders. The medicinal properties of P. kurrooa are due to bioactive picrosides, synthesized by isoprenoid pathway. The promoters of regulatory genes viz., Pkdxs and Pkhmgr of picroside biosynthesis pathway have been reported to contain ACGT cis-acting elements (bzip motifs) at different locations. In this study, the functionality of ACGT motifs was confirmed by electrophoretic mobility shift assay (EMSA). Full length PkbZIP gene was cloned through RACE method. In silico analysis revealed PkbZIP contained a conserved signature bZIP domain (N-x7-R/K-x9-L-x6-L-x6-L). Transcriptional activation and subcellular localization assay confirmed nuclear localization of PkbZIP. EMSA with purified PkbZIP confirmed in vitro binding of PkbZIP to ACGT elements in Pkdxs and Pkhmgr promoters. The expression pattern of PkbZIP positively correlated with the picroside (active medicinal component of the plant) content in different tissues, at 15 °C and under light conditions. Transient overexpression in Nicotiana benthamiana suggested a role of PkbZIP in terpenoid biosynthesis. PkbZIP might prove as potential candidate gene to be used in genetic engineering program for enhancing the picroside content in P. kurrooa.
ISSN:0254-6299
1727-9321
DOI:10.1016/j.sajb.2024.04.036