Inside every cell, thousands of molecular signals collide, overlap, and compensate, obscuring the true drivers of gene expression. Scientists have now developed a way to silence that cellular noise, ...

Global proteomics and functional analyses reveal that p53-induced ZMAT3 suppresses mitochondrial respiration by inhibiting transcription of a hexokinase, uncovering a role for ZMAT3 in transcription.

New tech reveals findings that address long-standing theories about how bacteria begin the process of making RNA from DNA. Every living cell transcribes DNA into RNA. This process begins when an ...

A research team from The Hong Kong University of Science and Technology (HKUST) has made a breakthrough discovery in understanding the molecular ...

Transcription factors are the most powerful genes in our body. They are master regulators and have been implicated in our biggest diseases, even aging itself. Yet, many in the pharmaceutical industry ...

From vaccines and diagnostics to emerging gene-based therapies, RNA molecules are now central to modern medicine. But as their use continues to grow, so does a fundamental challenge: producing RNA ...

Transcription Factors (TFs) are pivotal regulators of gene expression and have been implicated in a variety of diseases, including cancer, neurological disorders, autoimmune conditions, and metabolic ...

A team from University of Toronto Engineering is the first to synthesize long noncoding RNA (lncRNA) outside the cell—a new approach to drug discovery that has already yielded some promising ...