Molecular cloning, characterization and expression analysis of a heat shock protein 10 (Hsp10) from Pennisetum glaucum (L.), a C4 cereal plant from the semi-arid tropics
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Rahul B. Nitnavare, Richa K. Yeshvekar, Kiran Sharma, Vincent Vadez, Malireddy K. Reddy, P. Sudhakar Reddy. (20/5/2016). Molecular cloning, characterization and expression analysis of a heat shock protein 10 (Hsp10) from Pennisetum glaucum (L. ), a C4 cereal plant from the semi-arid tropics. Molecular Biology Reports, 43 (8), pp. 861-870.
Abstract
Heat shock proteins (Hsp10) belong to the
ubiquitous family of heat-shock molecular chaperones
found in the organelles of both prokaryotes and eukaryotes.
Chaperonins assist the folding of nascent and stressdestabilized
proteins. A cDNA clone encoding a 10 kDa
Hsp was isolated from pearl millet, Pennisetum glaucum
(L.) by screening a heat stress cDNA library. The fulllength
PgHsp10 cDNA consisted of 297 bp open reading frame
(ORF) encoding a 98 amino acid polypeptide with a predicted
molecular mass of 10.61 kDa and an estimated
isoelectric point (pI) of 7.95. PgHsp10 shares 70–98 %
sequence identity with other plant homologs. Phylogenetic
analysis revealed that PgHsp10 is evolutionarily close to
the maize Hsp10 homolog. The predicted 3D model confirmed
a conserved eight-stranded ß-barrel with active site
between the ß-barrel comprising of eight-strands, with
conserved domain VLLPEYGG sandwiched between two
ß-sheets. The gene consisted of 3 exons and 2 introns,
while the position and phasing of these introns were conserved
similar to other plant Hsp10 family genes. In silico
analysis of the promoter region of PgHsp10 presented
several distinct set of cis-elements and transcription factor
binding sites. Quantitative RT-PCR analysis showed that
PgHsp10 gene was differentially expressed in response to
abiotic stresses with the highest level of expression under heat stress conditions. Results of this study provide useful
information regarding the role of chaperonins in stress
regulation and generated leads for further elucidation of
their function in plant stress tolerance
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Vadez, Vincent https://orcid.org/0000-0003-2014-0281