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F9-KO

Strain Name:C57BL/6Smoc-F9em1Smoc
Strain State:Embryo cryopreservation | Cat. NO.:NM-KO-18046

The F9 gene is located on the X chromosome. In this F9 knockout mouse model, gRNAs were designed targeting Exon8 of F9 gene via CRISPR gene editing technology. Loss of F9 caused coagulopathy in mice. Mice that are homozygous for F9 knockout are viable, fertile and normal in size. Normal fighting in the cage may cause bleeding or even death due to massive internal hemorrhaging. After the tail cutting, wounds must be cauterized to prevent homozygous knockout mice from blood loss and death. This strain is a powerful model for studying coagulopathy, gene therapy methods and function of factor IX mutations. F9-KO mice (Stock No.NM-KO-18046)carry a knockout allele derived from the targeted deletion of exon 8. While F9-KO(2) mice (Stock No.NM-KO-200607) carrying the exon 1-8 deletion.

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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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Overcome the Hurdle to Generate High Affinity and Diversity Antibodies to Self- or High Homology Antigens

Join us for an insightful webinar discussing advanced methodologies for generating monoclonal antibodies. This session will cover traditional and innovative approaches, highlighting their advantages and challenges.

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Harnessing the Power of the Cre-loxP System: Benefits, Challenges, and Applications

This webinar will introduce the Cre-loxP system, a powerful genetic tool that has revolutionized biological research by allowing for conditional gene knockout, knockdown, and overexpression. We will cover the history of the genetic recombination systems, discuss how they enable precise control of gene expression in specific cell types or at specific developmental stages, and present GenoBioTX’s genetically modified models utilizing this method.

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