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Rb1 CKO Mouse Model

With the ability to avoid the risk of death caused by homozygous and systemic knockout, our own-developed Rb1 conditional knockout mice (Rb1-CKO) can be used to study cancer, cell cycle or aging.

Inflammation Models

inflammation diseases inflammation research inflammatory factors

Inflammation is a common yet important pathological process. Any factor that may cause tissue damage can lead to inflammation. Anomal inflammatory response may result in chronic inflammation, autoimmune diseases and even cancer. The regulation of inflammation-related genes is an important topic in the study of the development of inflammation.

We Will be Attending AACR 2023 in Orlando!

Smad4 CKO Mouse Model

Our own-developed Smad4 conditional knockout mice (Smad4-CKO) can be used to study cell proliferation and tumor suppression.

Surgical & Preconditioning Services

Syngeneic Models

Drug Screening

drug screening high throughput screening for drug discovery

With a comprehensive model organisms service platform that generates the mouse, zebrafish and C. elegans models, Shanghai Model Organisms enables high-throughput drug screening as well as the evaluation and research on drug efficacy, thus accelerating drug development and achieving greater accuracy in the prediction of in vivo interactions.

P53 CKO Mouse Model

p53 knockout p53 knockout mice p53 gene

Our own-developed mouse model of p53 conditional knockout (p53-CKO) can be mated with mice carrying tissue-specific Cre expression to obtain mice with homozygous deletion of p53 in specific tissues or cells. These mice can be used for tumorigenesis and tumor mechanistic studies.

Pten CKO Mouse Model

Our own-developed mouse model of Pten conditional knockout (Pten-CKO) can be mated with mice carrying tissue-specific Cre expression to obtain mice with homozygous deletion of Pten in specific tissues or cells, thus avoiding the embryonic death caused by systemic and homozygous Pten knockout. Pten-CKO mice can be used to study tumorigenesis, anti-tumor targets, neurogenesis, glial differentiation and cerebellar development.

About Us

Our vision is to become the leader in the field of genetically modified animal models，helping people understand the life science and improving quality of life around the world.