Most Popular
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Newsletter
Breaking News
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| Taconic-Cyagen Custom Animal Model Awards (CAMA) Announces 6 Winners |
| May 14, 2021 |
| We are delighted to announce the winners of the first Taconic-Cyagen Custom Animal Model Awards (CAMA) competition. Read More > |
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Newsletter
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| THE TACONIC-CYAGEN ACADEMIC MODEL GENERATION ALLIANCE |
| May 13, 2021 |
| The Taconic-Cyagen Academic Model Generation Alliance (The Alliance) has capabilities to ensure the success of any project. The Alliance provides specially-tailored products and services for the academic and non-profit markets. Together, we have streamlined the model design process to provide the academic market access to premium model generation and colony management services backed by comprehensive capabilities and cutting-edge, fully licensed technologies with competitive pricing. As partners, Taconic and Cyagen leverage the power of our complementary approaches to provide customers with the best and most competitive solutions for their projects. Read More > |
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Newsletter
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| Cyagen Knockout Catalog Model Resource - Improve Your Research Efficiency |
| May 06, 2021 |
| With continuous advancement, our se Read More > |
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Newsletter
Research Trend
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| Cyagen Conditional Knockout Mouse Model Publication Alert |
| Apr 29, 2021 |
| The following publications demonstrate the use of conditional knockout mouse models across a range of human disease research fields, including immunology, cardiology, metabolomics, oncology and more. Read More > |
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Newsletter
Research Trend
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| Alzheimer's Disease Research Resources List |
| Apr 21, 2021 |
| Alzheimer's disease (AD) is the most common age-related neurodegenerative disorder, which affects 20 to 30 million individuals worldwide. Currently, no effective therapies to treat or cure this disease have been developed. Read More > |
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Newsletter
Research Trend
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| Knockout Mice - An Efficient Tool for Gene Function Research |
| Apr 02, 2021 |
| Knockout mice have been essential for gaining proper understanding of gene function, studying human disease mechanisms, and accelerating drug development - playing an important role in biomedical advancements across a variety of research areas. With the development of gene editing technology, knockout (KO) mice become increasingly accessible for researchers worldwide. In this article, we review the basic information on knockout mice research, application examples, and the development process for custom KO mouse models. Read More > |
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Newsletter
Research Trend
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| Rare Disease Research and Gene Therapy Resources List |
| Mar 29, 2021 |
| As a leading provider of custom mouse and rat models, Cyagen aims to support the advancement of rare disease and related gene therapy research with our expertise. We are committed to enabling development of therapeutics for rare diseases by developing accessible animal models to study disease mechanisms, target validation, drug screening and more. Read More > |
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Newsletter
Weekly Gene
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| Pathogenic Genes of Rare Disease - SMN1 in Spinal Muscular Atrophy Research |
| Mar 05, 2021 |
| cord, which affects the central nervous system, peripheral nervous system, and voluntary muscle movement. The primary pathogenic gene of spinal muscular atrophy is the survival of motor neuron 1 (SMN1) gene, mutations of which cause a deficiency of SMN motor neuron protein – ultimately resulting in Chromosome 5 SMA, the most common form of SMA. Read More > |
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Newsletter
Breaking News
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| Rare Disease Day 2021 – Achieving Equity |
| Feb 26, 2021 |
| With over 300 million people worldwide living with a rare disease, Rare Disease Day aims to raise awareness of what it means to be rare. On the last day of February each year, the Rare Disease community comes together to work toward more equitable access to diagnosis, treatment, care, and social opportunity for people with a rare disease. Read More > |
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Newsletter
Weekly Gene
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| 【Gene of the Week】Metabolism & Cardiovascular Diseases - SIRT3 |
| Feb 26, 2021 |
| The SIRT3 gene plays an important role in the pathogenesis of metabolic, cardiovascular, and neurodegenerative diseases. In this article, we review the functionality of SIRT3 and explore its role in metabolism & cardiovascular disease studies - bringing together insights to SIRT3 gene research developments to provide inspiration for your scientific innovation. Read More > |
