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Advisor(s)
Abstract(s)
Alternative oxidase (AOX) protein is located in the inner mitochondrial membrane and
is encoded in the nuclear genome being involved in plant response upon a diversity
of environmental stresses and also in normal plant growth and development. Here we
report the characterization of the AOX gene family of Hypericum perforatum L. Two AOX
genes were identified, both with a structure of four exons (HpAOX1, acc. KU674355
and HpAOX2, acc. KU674356). High variability was found at the N-terminal region of the
protein coincident with the high variability identified at the mitochondrial transit peptide.
In silico analysis of regulatory elements located at intronic regions identified putative
sequences coding for miRNA precursors and trace elements of a transposon. Simple
sequence repeats were also identified. Additionally, the mRNA levels for the HpAOX1
and HpAOX2, along with the ones for the HpGAPA (glyceraldehyde-3-phosphate
dehydrogenase A subunit) and the HpCAT1 (catalase 1), were evaluated during the
post-germinative development. Gene expression analysis was performed by RT-qPCR
with accurate data normalization, pointing out HpHYP1 (chamba phenolic oxidative
coupling protein 1) and HpH2A (histone 2A) as the most suitable reference genes
(RGs) according to GeNorm algorithm. The HpAOX2 transcript demonstrated larger
stability during the process with a slight down-regulation in its expression. Contrarily,
HpAOX1 and HpGAPA (the corresponding protein is homolog to the chloroplast isoform
involved in the photosynthetic carbon assimilation in other plant species) transcripts
showed a marked increase, with a similar expression pattern between them, during
the post-germinative development. On the other hand, the HpCAT1 (the corresponding
protein is homolog to the major H2O2-scavenging enzyme in other plant species)
transcripts showed an opposite behavior with a down-regulation during the process.
In summary, our findings, although preliminary, highlight the importance to investigate in
more detail the participation of AOX genes during the post-germinative development in
H. perforatum, in order to explore their functional role in optimizing photosynthesis and
in the control of reactive oxygen species (ROS) levels during the process.
Description
Keywords
Cyanide-resistant pathway St. John’s Wort Plant development Gene expression Transposable elements miRNAs Alternative oxidase Post-germination . Escola Superior de Tecnologias e Gestão
Citation
Velada, I., Cardoso, H. G., Ragonezi, C., Nogales, A., Ferreira, A., Valadas, V., & Arnholdt-Schmitt, B. (2016). Alternative oxidase gene family in Hypericum perforatum L.: characterization and expression at the post-germinative phase. Frontiers in Plant Science, 7, 1043.
Publisher
Frontiers Media