Huimin Zhao

@HuiminZhaoLab

Champaign, IL

Joined November 2018

37Following

2KFollowers

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Huimin Zhao@HuiminZhaoLab · Jul 1

Congrats to the team led by Zhengyi and Maolin for developing a new strategy for the photoenzymatic stereoablative enantioconvergence of γ-chiral oximes (nature.com/articles/s4192…). See news release: cabbi.bio/using-light-po….

HuiminZhaoLab's tweet card. Nature Catalysis - Remote C–H bond formation via photoenzymatic hydrogen atom transfer has enabled the precise installation of remote stereocentres but is still in its infancy. Here, the...

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Huimin Zhao@HuiminZhaoLab · Jul 1

Congrats to Nilmani, Steve, Tianhao, Jingxia, Adrianna, and Ocean for developing an AI-powered autonomous protein engineering platform (nature.com/articles/s4146…). See news release: news.illinois.edu/self-driving-l…).

HuiminZhaoLab's tweet card. Nature Communications - The authors integrate artificial intelligence with laboratory automation to create a widely applicable autonomous platform for efficient and scalable enzyme engineering.

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Huimin Zhao@HuiminZhaoLab · Oct 3, 2023

Inspired by the pioneering work of this year’s Nobel Prize winners in Physiology or Medicine, we developed a new strategy to create mRNA vaccines (chbe.illinois.edu/news/stories/5…). This work was built on our previous unexpected discovery of Z base in DNA (the-scientist.com/news-opinion/s…).

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Huimin Zhao@HuiminZhaoLab · Oct 3, 2023

Hearty congrats to the whole team for developing this organic acid biomanufacturing pipeline (nature.com/articles/s4146…). This project was started almost 10 years ago.

HuiminZhaoLab's tweet card. Nature Communications - Microbial production of succinic acid at an industrially relevant scale has been hindered by high downstream processing costs arising from neutral pH fermentation. Here, the...

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Huimin Zhao@HuiminZhaoLab · Sep 18, 2023

Congrats to Meng and the rest of the team for developing a powerful tool to identify genetic elements that can stabilize heterologous gene expression in mammalian cells (nature.com/articles/s4146… and igb.illinois.edu/article/new-pl…).

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Huimin Zhao@HuiminZhaoLab · Oct 8

Exited to learn that my NSF global center proposal was selected for funding (new.nsf.gov/news/nsf-inter…). With this grant, we will be able to collaborate with researchers from other countries to establish standards and metrics for biofoundries and democratize biofoundry.

HuiminZhaoLab's tweet card. Today, the U.S. National Science Foundation  and partner agencies in the U.S., Canada, Finland, Japan, the Republic of Korea (ROK), and the United Kingdom…

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Huimin Zhao@HuiminZhaoLab · Aug 28

I am very pleased that NSF is now investing in biofoundries after we established the first integrated biofoundry in the world more than 10 years ago (new.nsf.gov/news/nsf-inves…). Also see News from UIUC (news.illinois.edu/view/6367/3864…).

HuiminZhaoLab's tweet card. The U.S. National Science Foundation has made five awards totaling $75 million to support the creation of five biofoundries that will spur innovation, provide tools and technologies to researchers…

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Huimin Zhao@HuiminZhaoLab · Aug 21

Engineered enzyme flirts with fluorine cen.acs.org/acs-news/acs-m… via @cenmag

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Huimin Zhao@HuiminZhaoLab · Jul 25, 2024

Congrats to the team led by Maolin who developed an exciting new-to-nature enzymatic process to selectively incorporate fluorine motifs into functional molecules (cabbi.bio/new-additive-p…).

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Huimin Zhao Retweeted

ACS Synthetic Bio@ACSSynBio · Jun 27, 2024

We were delighted to present Prof. Dr. Randall Platt with the ACS Synthetic Biology & AIChE Young Innovator Award 🏅 Congratulations, @randall_platt! 🎉 Here's Prof. Huimin Zhao presenting the award at #SEED:

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Huimin Zhao@HuiminZhaoLab · May 15, 2024

It was nice to attend another AI related expo in the same building after attending an expo for all 24 NSF AI institutes last September. Enjoyed talking to staff from various lawmakers’ offices to promote the emerging AI+Robotics+SynBio area. igb.illinois.edu/article/igb-re…

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Huimin Zhao@HuiminZhaoLab · May 13, 2024

Thanks to the hard work by Daniel, Zhixin, Nilmani and Jingxia, a simple strategy has been developed to create a Cas12a system that outperforms the most widely used Cas9 system. nature.com/articles/s4146…. Also see news release: igb.illinois.edu/article/resear….

HuiminZhaoLab's tweet card. Nature Communications - The inclusion of base Z has the potential to heighten the binding affinity between complementary nucleic acids. Here, the authors integrated base Z into CRISRP-Cas12a crRNA...

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Huimin Zhao@HuiminZhaoLab · Mar 26, 2024

Congrats to Hengqian, Chunshuai, and the team for discovering and characterizing a novel bioactive RiPP-fatty acid hybrid molecule (nature.com/articles/s4155…). This work has opened a new avenue for finding novel bioactive RiPPs (igb.illinois.edu/article/resear…).

HuiminZhaoLab's tweet card. Nature Chemistry - Ribosomally synthesized and post-translationally modified peptides (RiPPs) can have vast structural diversity and biological functions enabled by disparate post-translational...

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Huimin Zhao Retweeted

ACS Synthetic Bio@ACSSynBio · Feb 17, 2024

#WeekendReading from #ACSSyntheticBiology! This Editorial from Hector García Martín, Stanislav Mazurenko, and EiC Huimin Zhao has been downloaded over 2000 times! See it here ➡️ go.acs.org/85P AI for Synthetic Biology Special Issue ➡️ go.acs.org/85Q 🤖🔬⚗️

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Huimin Zhao@HuiminZhaoLab · Feb 13, 2024

We have developed a powerful computational tool to identify proper chromosome integration sites for genome editing in virtually any organism (biofoundry.web.illinois.edu/copies/). Warmest congratulations to the team led by Aashutosh! cabbi.bio/crispr-copies-…

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Huimin Zhao Retweeted

CABBI@CABBIbio · Dec 8, 2023

✳️ Watch iBioFAB in action! ✳️ The Illinois Biological Foundry for Advanced Biomanufacturing at @IGBIllinois accelerates bioengineering by integrating #AI and machine learning with automation, supporting CABBI bioenergy research! 🦾 🤖 🦠 @doescience @HuiminZhaoLab @UofIResearch

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Huimin Zhao@HuiminZhaoLab · Nov 17, 2023

Congrats to the whole team led by Maolin! After more than one year’s waiting, our manuscript describing a repurposed photoenzyme with new-to-nature reactivity was finally published. nature.com/articles/s4155…

HuiminZhaoLab's tweet card. Nature Chemistry - The inherent rigidity of the azaarene ring structure has made it challenging to achieve remote stereocontrol through asymmetric catalysis on these substrates. Now, through a...

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Huimin Zhao Retweeted

CABBI@CABBIbio · Nov 16, 2023

A #CABBI team from @ChBEIllinois used light-powered enzymes to modify azaarenes — molecular puzzle pieces crucial to many everyday products — laying the groundwork for new industrially relevant chemical reactions and #sustainable energy solutions. News ➡️ cabbi.bio/pushing-the-bo…

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Huimin Zhao Retweeted

CABBI@CABBIbio · Oct 3, 2023

In a breakthrough for eco-friendly chemical production, a CABBI team at @UofIllinois and @Princeton developed an economical way to make succinic acid, a valuable industrial chemical & food additive, from sugarcane - saving money and #GHG emissions! News ➡️ cabbi.bio/new-pipeline-m…

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Huimin Zhao Retweeted

CABBI@CABBIbio · Jul 31, 2023

Using light to activate natural enzymes can help scientists create novel reactions for ecofriendly biomanufacturing.♻️ CABBI's @HuiminZhaoLab at @UofIllinois created a photoenzymatic system to synthesize chiral amines - key chemical building blocks. News➡️ cabbi.bio/cabbi-develops…

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