Massive analysis of rice small RNAs: Mechanistic implications of regulated MicroRNAs and variants for differential target RNA cleavage

Dong Hoon Jeong, Sunhee Park, Jixian Zhai, Sai Guna Ranjan Gurazada, Emanuele de Paoli, Blake C. Meyers, Pamela J. Green

Research output: Contribution to journalArticlepeer-review

293 Scopus citations

Abstract

Small RNAs have a variety of important roles in plant development, stress responses, and other processes. They exert their influence by guiding mRNA cleavage, translational repression, and chromatin modification. To identify previously unknown rice (Oryza sativa) microRNAs (miRNAs) and those regulated by environmental stress, 62 small RNA libraries were constructed from rice plants and used for deep sequencing with Illumina technology. The libraries represent several tissues from control plants and plants subjected to different environmental stress treatments. More than 94 million genomematched reads were obtained, resulting in more than 16 million distinct small RNA sequences. This allowed an evaluation of~400 annotated miRNAs with current criteria and the finding that among these, ~150 had small interfering RNA-like characteristics. Seventy-six new miRNAs were found, and miRNAs regulated in response to water stress, nutrient stress, or temperature stress were identified. Among the new examples of miRNA regulation were members of the same miRNA family that were differentially regulated in different organs and had distinct sequences Some of these distinct family members result in differential target cleavage and provide new insight about how an agriculturally important rice phenotype could be regulated in the panicle. This high-resolution analysis of rice miRNAs should be relevant to plant miRNAs in general, particularly in the Poaceae.

Original languageEnglish
Pages (from-to)4185-4207
Number of pages23
JournalPlant Cell
Volume23
Issue number12
DOIs
StatePublished - Dec 2011

Fingerprint

Dive into the research topics of 'Massive analysis of rice small RNAs: Mechanistic implications of regulated MicroRNAs and variants for differential target RNA cleavage'. Together they form a unique fingerprint.

Cite this