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Customizing Mouse Models: Delivering in 100 Days to Speed Up Your Research!

F0 homozygous mice gene knockout Crispr/Cas projects immediate phenotype analysis research efficiency cost optimization.

At GenoBioTX, we understand that the lengthy wait times for gene-modified mouse models can hinder your research progress. Traditional methods often require 6-9 months, leading to delays and increased costs. That’s why we’re thrilled to introduce our innovative service designed to streamline this process and deliver results faster.

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On Nature Genetics Prof. Bin Zhou's group used lineage-tracing mice produced by SMOC to investigate the role of bronchioalveolar stem cells

bronchioalveolar stem cells lung repair lung regeneration

Published on today's Nature Genetics, Prof. Bin Zhou's research group from Shanghai Institute of Biochemistry and Cell Biology revealed the bona fide role of bronchioalveolar stem cells (BASC) during lung repair and regeneration.

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Behavioral Analysis

study of animal behavior behavioral analysis

Shanghai Model Organisms' rodent behavioral analysis platform is equipped with a variety of experimental instruments used to study the classical behaviors of mice. Shanghai Model Organisms can provide single-item or complete sets of mouse behavioral analysis to assist you with your research in neurology, physiology, drug development, and drug efficacy evaluation. The Noldus behavioral analysis system is used to more comprehensively and accurately reflect the neurological and mental states of mice.

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Services

genetic engineering genetic animals genetic engineering examples

Shanghai Model Organisms offers a full range of model organism services, including model customization services, research-ready models, breeding, phenotyping and drug screening. Mouse, rat, zebrafish and C. elegans models are available to meet different research needs.

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Applications of Animal Models

cell model animal model organism animal model

The model animal has played an important role in the history of life sciences and medicine, with a wide range of application in biology, medicine, molecular biology, molecular genetics, immunology and other fields.

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Popular Model Organisms

genetically modified organisms transgenic organisms genetically modified organisms examples

Model organisms are instrumental to the study of gene functions. Gene editing technology has always played a crucial role in the research on gene functions, diseases and drug discovery, through its application in genetic engineering of model organisms, mimicking of human diseases, as well as observation of physiological or pathological changes. In particular, the CRISPR/Cas9 technology has achieved remarkable breakthroughs in recent years, significantly improving the efficiency of genetic engineering in model organisms, and facilitating more extensive and in-depth applications of animal models in various research fields.

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Imaging Analysis

Animal imaging micro CT

shanghai Model Organisms provides services for microCT and IVIS whole-body in vivo imaging/fluorescence quantitative analysis of small animals.

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Osteoporosis

osteoporosis gene osteoporosis diseases Tnfrsf11b

Tnfrsf11b (Opg) knockout mice were generated through homologous recombination and supplied by Shanghai Research Center for Model Organisms. This mouse model, which is referred to as the "osteoporotic mouse", shows a typical phenotype of osteoporosis and arterial calcification, and Therefore, this animal model is ideal for drug screening and evaluation for the treatment of "human osteoporosis", in gene therapy of osteoporosis, as well as in the research on the mechanisms of interaction between osteoclasts and osteoblasts.

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Mouse models for cancer research

Tumor bearing Mouse DEN model PDX model CDX model

Shanghai Model Organisms Center provides multiple types of tumor-bearing mouse models for cancer research and drug efficacy testing, including cell line-derived xenograft model (CDX) and patient-derived xenograft model (PDX). While PDX models better reflect the heterogeneity and diversity of human cancers, CDX models allow researchers to advance their pre-clinical drug development in a cost- and time-efficient manner.

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Liver Cancer PDX Model

PDX PDX models Patient-derived Xenografts

Patient-derived Xenografts (PDX) are advanced preclinical oncology models for drug development. It offers a far better alternative for preclinical drug evaluation as compared to the conventional cell line-derived xenograft model.

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