A research team affiliated with UNIST has engineered a microbial strain capable of rapidly growing in high concentrations of methanol, marking a significant step forward in biorefinery technology.

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Nvidia’s $4B photonics push highlights InP capacity bottlenecks. Click for an updated look at Aeluma, Inc. and other companies besides ALMU that may benefit.

Would you believe me if I told you urine can be used to produce energy? I know this sounds crazy, but a study, published in Results in Chemistry, analyzes how ...

Training large models requires building or upgrading data centers. But centralized infrastructure is now running into hard physical limits. To improve this infr ...

While reaffirming its Microsoft partnership, the company is building a Bedrock-native orchestration layer that positions it ...

Enzymatic biofuel cells can act as self-powered wearable biosensors by converting chemicals in body fluids into electricity; ...

Researchers overcome key challenges in the mass production of enzymatic biofuel cells, paving the way for self-powered ...

Living cells are sustained by countless chemical reactions that must be carefully regulated to maintain internal order and ...

Avacta's Precision Mechanism For Payload Delivery Shows Key Advantages Compared To An Antibody Drug Conjugate In Innovative AI-Driven Analysis. Experimental data from FAP-Exd (AVA6103) demonstrates a ...

This study reports an important and novel finding that TENT5A, an enzyme involved in fine-tuning poly(A) tail length on selected mRNAs, is required for proper enamel mineralization in mice. The ...

The inhibitor and substrate compete for the same binding site (or the active site) on the enzyme. The inhibitor decreases the enzyme’s capacity to bind the substrate, but this impact may be ...