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We Will Be Attending AACR 2023 in Orlando!

SMOC Launched U-HuDTMbase®, Inclusive Resource Library of Innovative Therapeutic Target-Humanized Mouse Models, to Accelerate Novel Drug Discovery

U-HuDTMbase® is composed of more than 600 therapeutic target-humanized mouse models, including multiple background strains, and has covered almost all commonly studied areas, such as oncology, metabolism, immunity, inflammation and more.

Join Our Webinar: Applications of Humanized Mouse Models in Preclinical Research

Humanized mouse models preclinical research targeted therapies webinar oncology drug development preclinical therapeutic advancements immune system models animal modeling services

Join GenoBioTX's webinar on July 25th to explore the latest advancements in humanized mouse models for preclinical research. Learn how these models are transforming targeted therapy development across various diseases. Featuring expert insights from Dr. Derek Reznik, discover the generation and application of humanized immune system models in oncology drug development. Don't miss this opportunity to enhance your knowledge in cutting-edge preclinical therapeutic advancements. Register now!

These Mice Are About to Go Viral Because of the Nobel Prize!

microRNA (miRNA) microRNA mouse models Nobel Prize microRNA discovery genetically engineered mice miRNA in gene regulation miRNA therapeutics miRNA in cancer research customized mouse models contract research organization (CRO) preclinical drug discovery

The 2024 Nobel Prize in Physiology or Medicine awarded to Victor Ambros and Gary Ruvkun for their discovery of microRNA (miRNA) highlights its revolutionary role in gene regulation and disease treatment. This article explores miRNA's impact on neuroscience, cancer, and cardiovascular research. GenoBioTX offers advanced microRNA mouse models and customized genetic solutions, empowering researchers with essential tools to drive innovation in miRNA studies and therapeutic developments.

New Service Launch: Mouse Bone Metastasis Cancer Model and Pain-Related Behavior Assessment!

Bone metastasis cancer model Pain-related behavior assessment Cancer-induced bone pain Bone cancer pain models Mouse bone metastasis model Animal models in cancer research Cancer research services Bone metastasis in mice Pain management in cancer

We are excited to announce that GenoBioTX has launched a new service featuring mouse bone metastasis cancer models and pain-related behavior assessment, designed to support cancer research and pain management effectively.

CKO mice developed by SMOC supported the identification of a novel lncRNA that regulates dendritic cell migration and the corresponding immune response

CKO mice lncRNA dendritic cell

Advancing Cancer Therapy: Harnessing In Vivo Tumor Models for Breakthrough Drug Development

Cancer therapy advancements In vivo tumor models Preclinical cancer research Drug development in oncology Gene-modified cell lines Immuno-oncology Tumor modeling for drug discovery Cancer drug development Animal modeling services Cancer drug preclinical models

Join us for an insightful webinar exploring the critical role of in vivo tumor models in advancing cancer drug therapy. We will provide an overview of the diverse tumor models developed by our company, highlighting case studies demonstrating their effectiveness in preclinical cancer research. The session will delve into the comprehensive use of gene-modified cell lines and genetically modified spontaneous mouse models, showcasing their application in mimicking human cancer biology. We will conclude with a brief introduction to our company and our commitment to accelerating cancer drug development through innovative animal modeling services.

News Update: GenoBioTX and Crown Bioscience Sign Global Cooperation Agreement

Evaluating the Efficacy of Tumor-targeted Antibody in vivo

immunotherapy immune checkpoint immune checkpoint genes

As the most frequently used animal model, mice have been widely applied in the evaluation of drug efficacy. However, the human immune checkpoint genes only share ~60% identity with their murine counterparts. Thus antibodies that recognize human proteins do not necessarily interact with murine proteins, making it inappropriate to use wild type mice for evaluating the in vivo efficacy of human-specific antibody. The humanized immune checkpoint mouse models (Immune-Hu models), which were independently developed by Shanghai Model Organisms Center, are ideal models to evaluate the efficacy of anti-tumor antibody therapy.

In Vitro Efficacy Evaluation