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Summary: Although microRNAs (miRNAs) function in the control of embryonic stem cell (ESC) pluripotency, a systems-level understanding is still being developed. Through the analysis of progressive Argonaute (Ago)-miRNA depletion and rescue, including stable Ago knockout mouse ESCs, we uncover transforming growth factor beta (TGF-β) pathway activation as a direct and early response to ESC miRNA reduction. Mechanistically, we link the derepression of weaker miRNA targets, including TGF-β receptor 1 (Tgfbr1), to the sensitive TGF-β pathway activation. In contrast, stronger miRNA targets impart a more robust repression, which dampens concurrent transcriptional activation. We verify such dampened induction for TGF-β antagonist Lefty. We find that TGF-β pathway activation contributes to the G1 cell-cycle accumulation of miRNA-deficient ESCs. We propose that miRNA target affinity is a determinant of the temporal response to miRNA changes, which enables the coordination of gene network responses. : Kelly et al. report the transcriptional and post-transcriptional dynamics that occur with loss of Argonaute proteins in embryonic stem cells. They find that Argonaute proteins are not required for ESC viability, function to control the transforming growth factor beta (TGF-β) pathway, and mediate temporal responses during changes in miRNA levels. Keywords: Argonaute, RNAi, miRNA, TGF-β, Smad, stem cells, post-transcriptional regulation, histone modifications |