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Mar 05,2025

Golden Snake Welcomes Prosperity, Irresistible Power | GreenLong Bio 2025 Annual Meeting Successfully Concludes

On January 23, 2025, Greennon Bio held its annual gala, themed "Golden Snake Welcoming Spring, Irresistible Bite," at Wuhan Huashan Yue Hotel. This grand event was not only a summary of the hard work of the past year but also a look forward to the boundless possibilities of the future.

Mar 05,2025

GreenLong Bio, a phage biomanufacturing company, has completed tens of millions of yuan in Pre-A round financing.

Recently, GreenLong Bio, a bacteriophage biomanufacturing industry platform, announced the completion of tens of millions of yuan in Pre-A round financing, exclusively invested by Shenzhen Venture Capital, with Kaicheng Capital serving as the long-term exclusive financial advisor. This round of financing will mainly be used to accelerate product innovation in multiple application scenarios of bacteriophages and certificate applications. Pre-A+ round financing is underway.

Mar 05,2025

The Trojan horse virus carries CRISPR-AsCas12f1 to control bacterial wilt in plants

A research article titled "Trojan Horse Virus Carrying CRISPR-AsCas12f1 Controls Bacterial Wilt in Plants" was published in *mBio* by Professor Zheng Dehong from the State Key Laboratory of Subtropical Agriculture Bioresource Protection and Utilization and Guangxi University. Inspired by the ancient Greek fable of the Trojan Horse, the authors used filamentous bacteriophages as the "Trojan Horse" to infiltrate the enemy, using a miniature CRISPR-AsCas12f1 system as a weapon to target the hrpB gene, one of the pathogenic genes of Ralstonia solanacearum, reducing its pathogenicity and thus increasing the survival rate of susceptible plants. The engineered bacteriophage can also spread within the host bacteria, suppressing the proportion of wild-type strains.

Mar 04,2025

【Literature Express】Modifying the host range of phage and inhibiting bacterial resistance through phage tail fiber mutation

To address this issue, the author's research objective is to engineer bacteriophages, modifying key regions of the phage tail fiber to expand their host range and prevent the development of resistance.

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