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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.

Shanghai Model Organisms Center Inc has licensed CRISPR-Cas9 technology from Broad Institute

CRISPR-Cas9 technology Broad Institute genetically modified mouse

On Dec 16, 2018, Broad Institute and Shanghai Model Organisms Center Inc (SMOC) has entered into a non-exclusive license agreement under which Broad has granted SMOC worldwide rights to commercialize a service platform for genetically modified mouse models under Broad's intellectual property.

Gene Knock-in

gene knock in knock in mice knock in mouse

Knock-in represents the introduction of specific mutations or exogenous genes, such as point mutations (mimicking human genetic disease) at the selected location or reporter genes (e.g., EGFP, RFP, mCherry, YFP, LacZ, Luciferase etc.) or functional cDNAs (such as Cre, Dre etc.) into a specific genomic locus through homologous recombination, thereby allowing the exogenous DNA fragment to be expressed. A simultaneous occurrence of knock-in and knock-out can be achieved by replacing a murine endogenous gene with a foreign DNA fragment.

Gene Knockout

gene knockout gene knockout technology knockout mice

Expedite your research with highly customizable, gene knockout mouse models that provide thorough insight into key genetic mechanisms.

Lineage tracing

lineage tracing genetic lineage tracing genetic fate mapping

Genetic lineage tracing is a commonly used and the most effective method for studying the origin and fate of specific cell types. The construction of genetically engineered mouse model is the most important step in the lineage tracing technique.

Fluorescent tracking

fluorescent label fluorescent tag fluorescent genes

Exogenous fluorescent genes were knocked in to endogenous genes and fluorescence expression was used to reflect the expression status of genes.

Gene tracking

marker gene gene tracking

Gene tracers are an important application for genetically engineered mice. Through gene knock-in, exogenous tracer genes were knocked into endogenous genes, enabling labeling and tracing of genes.

Customize your genetically engineered models

knockout mouse transgenic mouse transgenic mouse models

The scientific team at Shanghai Model Organisms Center, Inc, comprising of seasoned molecular biologists and technicians, is dedicated to providing highly customizable, genetically engineered models to global researchers.

In Vivo Efficacy Evaluation

Innovative Ab Drugs Development from target validation to IND application