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Upcycling polyolefins to methane-free liquid fuel by a Ru₁-ZrO₂ catalyst

Converting waste plastics into liquid fuels holds great promise for advancing the circular economy but is challenged by poor selectivity and unwanted methane byproduct formation. Here, the authors present a Ru₁-ZrO₂ catalyst that efficiently upcycles plastic waste into high-value jet fuel–range hydrocarbons with minimal methane production.

Jicong Yan
Guanna Li
Xiang Wang
ResearchOpen Access21 Mar 2025
Nature Communications

Volume: 16, P: 1-11
High-throughput 5′ UTR engineering for enhanced protein production in non-viral gene therapies

The engineering of 5′ UTRs that modulate protein expression remains a great challenge. Here we leverage synthetic biology and computational design to develop a high-throughput strategy to design, screen, and optimize 5′ UTRs that enhance protein expression for non-viral gene therapies.

Jicong Cao
Eva Maria Novoa
Timothy K. Lu
ResearchOpen Access06 Jul 2021
Nature Communications

Volume: 12, P: 1-10
A synthetic transcription platform for programmable gene expression in mammalian cells

Precise and scalable regulation of gene expression in mammalian cells is challenging. Here, the authors created a highly tunable CRISPR-based synthetic transcription system for programmable control of mammalian gene expression and cellular activity.

William C. W. Chen
Leonid Gaidukov
Timothy K. Lu
ResearchOpen Access18 Oct 2022
Nature Communications

Volume: 13, P: 1-16
Single-molecule detection of protein efflux from microorganisms using fluorescent single-walled carbon nanotube sensor arrays

Nanosensor arrays based on single-walled carbon nanotubes can detect protein efflux from single, isolated microorganisms in real time, allowing the dynamics of genetic transfection and influence of reproduction to be measured.

Markita Patricia Landry
Hiroki Ando
Michael S. Strano
Research23 Jan 2017
Nature Nanotechnology

Volume: 12, P: 368-377
Synthetic biology and microbioreactor platforms for programmable production of biologics at the point-of-care

Current biopharmaceutical manufacturing platforms use single biologic-producing cell lines cultured at large scales. Here the authors develop a small-scale, portable biomanufacturing platform to produce single dose IFNa2b and rHGH from a single engineered strain of P. pastoris.

Pablo Perez-Pinera
Ningren Han
Timothy K. Lu
ResearchOpen Access29 Jul 2016
Nature Communications

Volume: 7, P: 1-10
Versatile and on-demand biologics co-production in yeast

The ability to combine the production of multiple biologics into a single ‘on demand’ system could help in situations where resources are limited. Here the authors demonstrate a proof-of-concept approach for the co-production of three biologics, allowing singular, mixed and combination drug products.

Jicong Cao
Pablo Perez-Pinera
Timothy K. Lu
ResearchOpen Access08 Jan 2018
Nature Communications

Volume: 9, P: 1-13

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Upcycling polyolefins to methane-free liquid fuel by a Ru1-ZrO2 catalyst

High-throughput 5′ UTR engineering for enhanced protein production in non-viral gene therapies

A synthetic transcription platform for programmable gene expression in mammalian cells

Single-molecule detection of protein efflux from microorganisms using fluorescent single-walled carbon nanotube sensor arrays

Synthetic biology and microbioreactor platforms for programmable production of biologics at the point-of-care

Versatile and on-demand biologics co-production in yeast

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Upcycling polyolefins to methane-free liquid fuel by a Ru₁-ZrO₂ catalyst