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Small RNAs – The Big Players in Developing Salt-Resistant Plants
of 22 nt siRNAs lead translational slowdown and growth inhibition under
certain stress conditions. However, the mechanism of 22 nt siRNAs in the
execution of translational repression and transitive RNA interference are
still under research that mediate translational repression and transitive RNA
interference are still under research.
9.4 OTHER TYPES OF SMALL RNA
In addition to these sRNAs, several classes of small RNAs have been
discovered. Some of them are well studied and found to have significant
involvement in diverse cellular processes of animals and fungi. Such sRNAs
are functionally diverse with scanty information. To date, there is no report
about the occurrence of such small RNAs in plant species, but they have
pivotal roles in the gene regulation of a few biological phenomena in some
members of the animal kingdom (Jones-Rhoades et al., 2006). From a
botanical perspective, miRNAs and siRNAs make up an entire portion of the
sRNA population.
9.4.1 SMALL TEMPORAL RNA (ST-RNA)
In C. elegans, a specialized group of 22 nt long RNAs have been reported
that are known as Small Temporal RNA (st-RNA) and are involved in
temporal regulation of the developmental process of the organism (Thakur,
2003). Further studies revealed that initially, these are generated from ~
70-nt ssRNA having a stem-loop structure and after processing, this st-RNA
is thought to prevent their target mRNA by binding with the target comple
mentary 3’ untranslated regions (Thakur, 2003).
9.4.2 PIWI-INTERACTING RNA (PI-RNA)
Piwi-interacting RNAs (piRNAs) are another type of small RNA that
is frequently regarded as a distinct class of miRNAs with a length range
between 24 and 32 nucleotides and are mostly expressed in germline cells
of some animals (Aravin et al., 2007). These pi-RNAs act as a vital genetic
and epigenetic regulatory factor and effectively regulate the stability of germ
cells, genome integrity, stability of mRNA, methylation of DNA and control
of retrotransposons (Zuo et al., 2016).