miRNA activity contributes to accurate RNA splicing inC. elegansintestine and body muscle tissues

Abstract: MicroRNAs (miRNAs) are known to modulate gene expression, but their activity at the tissue-specific level remains largely uncharacterized. In order to study their contribution to tissue-specific gene expression, we developed novel tools to profile miRNA targets in the C. elegans intestine and body muscle.We validated many previously described interactions, and identified ~3,500 novel targets. Many of the miRNA targets curated are known to modulate the functions of their respective tissues. Within our datasets … Show more

“…Another example of this regulation is the effect of miRNAs on the mRNA processing via participation of the splicing factors asd 2, hrp 2, and smu 2 that contain functional miRNA regulatory elements in their 3′ UTR sequences. It has been also discovered that the alternative splicing patterns of the respective downstream targets of these splicing factors (unc 60, unc 52, lin 10, and ret 1, main regulators of C. elegans development) was disrupted when the miRNA pathway was inhibited [51].…”

MicroRNAs in Cancer: From Gene Expression Regulation to the Metastatic Niche Reprogramming

“…Another example of this regulation is the effect of miRNAs on the mRNA processing via participation of the splicing factors asd 2, hrp 2, and smu 2 that contain functional miRNA regulatory elements in their 3′ UTR sequences. It has been also discovered that the alternative splicing patterns of the respective downstream targets of these splicing factors (unc 60, unc 52, lin 10, and ret 1, main regulators of C. elegans development) was disrupted when the miRNA pathway was inhibited [51].…”

MicroRNAs in Cancer: From Gene Expression Regulation to the Metastatic Niche Reprogramming

МикроРНК В Онкологии: От Механизмов Регуляции Экспрессии Генов До Перепрограммирования Метастатической Ниши