In Vivo Pharmacodynamic Evaluation of B-p53 KO Mice (CAT#: STEM-AE-0660-LGZ)

Introduction

The p53 gene is the gene that has the highest correlation with human tumors. p53 is a tumor suppressor gene, known as the "guardian of the genome", which can regulate cell cycle and participate in DNA damage repair. When cells are damaged beyond repair, p53 can induce cell apoptosis and prevent the occurrence of cancer. Studies have shown that about half of all human tumors are caused by mutations in the p53 gene. When p53 is knocked out or mutated, it can lead to the occurrence of spontaneous tumor in mice, which is one of the better models for the study of human tumor diseases.

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Principle Applications Procedure Materials Notes Related Products

Principle

Spontaneous tumor model is an animal model in which mice carry oncogene or tumor suppressor gene mutation by gene editing technology, which can spontaneously form tumor in immune-healthy mice. Compared with the tumor transplantation model, the histopathological and molecular characteristics of the spontaneous tumor tissues in this model are similar to those of human tumor tissues, with genetic heterogeneity and the ability to spontaneously metastasize. It can better simulate the occurrence and development process of human tumor diseases.

Applications

In vivo pharmacodynamic analysis was performed by Humanized Mice.

Procedure

1. Disease model construction.
2. Mice dosing.
3. Efficacy monitoring.
4. Biochemical detection of tissue samples.

Materials

• Sample Type: liquid or powder

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