Click-iT trinucleotide cap analog: Synthesis, mRNA translation, and detection.

The first example of the synthesis of a new trinucleotide cap analog containing propargyl group such as m7,3'-O-propargylG(5')PPP(5')AmpG is reported. The effect of the propargyl group in trinucleotide analog with a standard trinucleotide cap analog (GAG), m7G(5')ppp(5')AmpG was evaluated with respect to their capping efficiency, in vitro T7 RNA polymerase transcription efficiency, and translation activity using cultured A549 lung carcinoma epithelial cells. The new propargyl cap analog is a substrate for T7 RNA polymerase. Notably, the mRNA capped with the propargyl cap is translated âˆ¼ 1.3 times more efficiently than the mRNA capped with the GAG cap. The most characteristic feature of the new propargyl cap analog is that the presence of the propargyl group allows further modification of the mRNA by chemical ligation of an azide-containing fluorescent-labeled substrate to the mRNA via click chemistry.

Disruption of Core Planar Cell Polarity Signaling Regulates Renal Tubule Morphogenesis but Is Not Cystogenic.

Oriented cell division (OCD) and convergent extension (CE) shape developing renal tubules, and their disruption has been associated with polycystic kidney disease (PKD) genes, the majority of which encode proteins that localize to primary cilia. Core planar cell polarity (PCP) signaling controls OCD and CE in other contexts, leading to the hypothesis that disruption of PCP signaling interferes with CE and/or OCD to produce PKD. Nonetheless, the contribution of PCP to tubulogenesis and cystogenesis is uncertain, and two major questions remain unanswered. Specifically, the inference that mutation of PKD genes interferes with PCP signaling is untested, and the importance of PCP signaling for cystogenic PKD phenotypes has not been examined. We show that, during proliferative stages, PCP signaling polarizes renal tubules to control OCD. However, we find that, contrary to the prevailing model, PKD mutations do not disrupt PCP signaling but instead act independently and in parallel with PCP signaling to affect OCD. Indeed, PCP signaling that is normally downregulated once development is completed is retained in cystic adult kidneys. Disrupting PCP signaling results in inaccurate control of tubule diameter, a tightly regulated parameter with important physiological ramifications. However, we show that disruption of PCP signaling is not cystogenic. Our results suggest that regulating tubule diameter is a key function of PCP signaling but that loss of this control does not induce cysts.