Plant MicroRNAs: Methods and Protocols

<p><P>MicroRNAs constitute a particularly important class of small RNAs given their abundance, broad phylogenetic conservation and strong regulatory effects, with plant miRNAs uniquely divulging their ancient evolutionary origins and their strong post-transcriptional regulatory effects. In <EM>Plant

<p><P>MicroRNAs constitute a particularly important class of small RNAs given their abundance, broad phylogenetic conservation and strong regulatory effects, with plant miRNAs uniquely divulging their ancient evolutionary origins and their strong post-transcriptional regulatory effects. In <EM>Plant

<p>This detailed volume provides a collection of protocols for the study of miRNA functions in plants. Beginning with coverage of miRNA function, biogenesis, activity, and evolution in plants, the book continues by guiding readers through methods on the identification and detection of plant miRNAs,

<p><p>microRNAs (miRNAs) are small non-coding RNAs that regulate various biological phenomena, such as development and homeostasis. The dysregulation of miRNA leads to disease progression, particularly of cancer. In <i>Circulating MicroRNAs: Methods and Protocols,</i> expert researchers in the field

<p><span>This second edition provides updated and comprehensive methods on miRNA biogenesis and their role in the development and progression of various human diseases. Chapters detail miRNA biogenesis, isolating RNA, extracellular vesicles (EVs), circulating miRNAs, analyzing miRNA and miRDeep-P2,

<p><span>This second edition provides updated and comprehensive methods on miRNA biogenesis and their role in the development and progression of various human diseases. Chapters detail miRNA biogenesis, isolating RNA, extracellular vesicles (EVs), circulating miRNAs, analyzing miRNA and miRDeep-P2,