Roger Chang scite author profile

SUMMARYMicroRNAs (miRNAs) comprise a large family of small RNA molecules that post-transcriptionally regulate gene expression in many biological pathways1. Most miRNAs are derived from long primary transcripts that undergo processing by Drosha to produce ~65 nucleotide (nt) precursors that are then cleaved by Dicer, resulting in the mature 22 nt forms2,3. Serving as guides in Argonaute protein complexes, mature miRNAs use imperfect base-pairing to recognize sequences in mRNA transcripts, leading to translational repression and destabilization of the target mRNAs4,5. Here we show that the miRNA complex also targets and regulates non-coding RNAs (ncRNAs) that serve as substrates for the miRNA processing pathway. We found that the C. elegans Argonaute, ALG-1, binds to a specific site at the 3′ end of let-7 miRNA primary transcripts and promotes downstream processing events. This interaction is mediated by mature let-7 miRNA via a conserved complementary site in its own primary transcript, thus creating a positive feedback loop. We further show that ALG-1 associates with let-7 primary transcripts in nuclear fractions. Argonaute also binds let-7 primary transcripts in human cells, demonstrating that the miRNA pathway targets non-coding RNAs in addition to protein-coding mRNAs across species. Moreover, our studies in C. elegans reveal a novel role for Argonaute in promoting biogenesis of a targeted transcript, expanding the functions of the miRNA pathway in gene regulation. This discovery of auto-regulation of let-7 biogenesis sets a new paradigm for controlling miRNA expression.

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Carbon nanocarriers deliver siRNA to intact plant cells for efficient gene knockdown

Demirer

et al. 2020

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Posttranscriptional gene silencing (PTGS) is a powerful tool to understand and control plant metabolic pathways, which is central to plant biotechnology. PTGS is commonly accomplished through delivery of small interfering RNA (siRNA) into cells. Standard plant siRNA delivery methods (Agrobacterium and viruses) involve coding siRNA into DNA vectors and are only tractable for certain plant species. Here, we develop a nanotube-based platform for direct delivery of siRNA and show high silencing efficiency in intact plant cells. We demonstrate that nanotubes successfully deliver siRNA and silence endogenous genes, owing to effective intracellular delivery and nanotube-induced protection of siRNA from nuclease degradation. This study establishes that nanotubes could enable a myriad of plant biotechnology applications that rely on RNA delivery to intact cells.

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Caspase Proteolysis of Desmin Produces a Dominant-negative Inhibitor of Intermediate Filaments and Promotes Apoptosis

Chen¹,

Chang²,

Trivedi³

et al. 2003

Journal of Biological Chemistry

101

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263 has important functional consequences, including the production of an amino-terminal cleavage product, N-desmin, which is unable to assemble into intermediate filaments, instead forming large intracellular aggregates. Moreover, N-desmin functions as a dominant-negative inhibitor of filament assembly, both for desmin and the structurally related intermediate filament protein vimentin. We also show that stable expression of a caspase cleavage-resistant desmin D263E mutant partially protects cells from tumor necrosis factor-␣-induced apoptosis. Taken together, these results indicate that caspase proteolysis of desmin at Asp 263 produces a dominant-negative inhibitor of intermediate filaments and actively participates in the execution of apoptosis. In addition, these findings provide further evidence that the intermediate filament cytoskeleton has been targeted systematically for degradation during apoptosis.

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Roger Chang

High aspect ratio nanomaterials enable delivery of functional genetic material without DNA integration in mature plants

Autoregulation of microRNA biogenesis by let-7 and Argonaute

Carbon nanocarriers deliver siRNA to intact plant cells for efficient gene knockdown

Caspase Proteolysis of Desmin Produces a Dominant-negative Inhibitor of Intermediate Filaments and Promotes Apoptosis

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