Abstract:
Alternative splicing is widely observed in animals and plants. Intron retention in
transcripts and presence of 5ʹ and 3ʹ splice sites within these introns mediate alternate
splicing. This research work was intended to characterize the high affinity potassium
transporter (HKT) from barley in model system (tobacco and arabidopsis) and functional
complementation in yeast (Saccharomyces cervisceae) heterologous system. Relative
expression analysis detected different HvHKT2;1 isoforms in barley (Hordeum vulgare)
under both normal and high saline conditions. Besides barley, stable integration of
insertions corresponding to two introns, were also observed at the 3ʹ-end in kallar grass
(Leptochloa fusca). Transcript profiling of HvHKT2;1 in barley showed differential
splicing events, which were regulated by NaCl concentration in soil. Accumulation of
intron retaining transcripts was observed with abundance of short intron retaining HKT
isoforms. Conventional PCR detected different splice variants which were cloned and
sequenced.
Intron retaining full length cDNA (HvHKT2;1-i) was transformed in tobacco (Nicotiana
tabacum) and arabidopsis. Different HvHKT2;1 isoforms were detected in model plant
systems with abundance of short intron retaining transcripts. Furthermore, HKT transcript
analysis in both model plant systems showed similar results as observed in barley under
native promoter conditions. To functionally characterize HvHKT2;1-i, a wild type and
potassium uptake deficient mutant yeast strain (trk1, trk2) was used. Both, the wild type
and trk1, trk2 yeast expressing HvHKT2;1-i, showed growth activities on YPD (Yeast
Peptone Dextrose) solid medium. Growth sensitivities of both wild type and the trk1, trk2
yeast were observed on YPD solid medium containing hygromycin under similar
conditions. Addition of milimolar (mM) concentrations of KCl and NaCl in hygromycin
supplemented YPD solid resulted in growth recovery of trk1, trk2 yeast expressing
HvHKT2;1-i suggesting the presence of functional transcripts in the pool of intron
retaining transcripts. It is also clear from yeast functional analysis that HvHKT2;1-i
cDNA with introns still enabled the trk1, trk2 yeast to complement K+/Na+ phenotype
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while maintaining the high affinity K+ transport function. Expression analysis from
barley, putative transgenic Arabidopsis, transgenic tobacco and the trk1, trk2 yeast
mutant expressing HvHKT2;1-i, showed alternate splicing, intron retention and
differential splicing events. Changes in HKT transcript patterns in response to varying K+
and Na+ concentrations, in both heterologous and plant system, suggest a role of these
ions in regulation of HKT expression under salt stress. Nicotiana benthamiana plants
were used for transient expression of HvHKT2;1-i. Confocal studies detected GFP signals
on plasma membrane suggesting the presence of functional HvHKT2;1 fusion protein and
hence, the evidence of properly spliced transcripts.