Taconic Biosciences’ Post

Research community - do you know what’s involved when creating a new genetically engineered mouse model? Our upcoming webinar will breakdown the complexities of model generation and highlight the pros & cons of using tools like #crispr to achieve your goals. Register below and tune in on Oct 16th!

Do you need a unique rodent model? Patrick will talk about some of the considerations for model generation in this webinar.

Systems biology is a field of research that focuses on understanding whole biological systems, such as protein complexes, metabolic pathways, or gene regulatory networks, and it attempts to understand cells, tissues, and organisms and how they behave and function from a systems perspective. In other words, systems biology is a computational and mathematical analysis and modeling of complex biological systems, and a systemic view of biological issues means that the function of no organ is independent of the other so that the behavior of all components will affect the behavior of the whole system. #systemsbiology #omics #machinelearning

Certificate of participation in the molecular docking Simulation workshop Teilnahmebescheinigung am Molecular Docking Simulation Workshop: Theoretical and Practical an vier aufeinanderfolgenden Tagen an der Tabriz University of Medical Sciences, Iran Teaching the basic concepts and how to search genomes from the reference and gene bank site, teaching how to work with autodock, Chimera, Discovery studio software and also interpreting the data results. 💻🧬🔬📚

Curious About Biology? Take a Quiz! 🧬 Question: What is the fundamental unit of heredity? A) Gene B) Chromosome C) DNA Like, Share, and Comment for more quizzes! 📞 Contact Us: +91 98969 30443, +91 99152 34570 🌐 Visit us at: www.modivhometutors.com 📧 Email: info@modivhometutors.com 👉 Follow us for more updates and tips! #hometuition #hometutor #onlinetutoring #modivs #tutoring #onetoonetutoring #QuizTime

Take 1: Time for some afternoon reading material for #AnosmiaAwarenessDay. About 1 in 10,000 people are born without the ability to smell, called congenital anosmia, yet finding the cause is elusive. Monell Chemical Senses Center scientists and colleagues sequenced the protein-coding parts of the entire genome in members of 10 families and 141 other individuals with one type of congenital anosmia. From this they identified a list of rare variants in 158 genes, some of which are associated with the sense of smell. For example, they confirmed that the gene CNGA2 is an essential component of the neural pathway governing the ability to smell. Perhaps this basic science can lead to better diagnosis, prognosis, and treatment for people with congenital anosmia. Find this paper here: https://lnkd.in/gmNRwi-6 Image by Image by Elias from Pixabay

👂 Did you hear that? The sound of the second "code of life" being cracked? Organisms are built from thousands of different proteins, each of them encoded by a specific gene. For a cell type to acquire its unique identity, form, and function, it must activate genes through the expression of "enhancers". Scientists have long tried to crack the code by which enhancers operate. The labs of Alexander Stark at the IMP and Eileen Furlong at EMBL Heidelberg now harnessed genomics and artificial intelligence to solve this second "code of life". Their findings were published in the journal Nature. Learn more: https://lnkd.in/daR7ufdw Research Institute of Molecular Pathology (IMP) EMBL #viennabiocenter #lifesciences #codeoflife

Countless scientists from #TeamBayer work on tackling disease, enhancing agricultural sustainability, and finding new ways to improve human health. They are all driven by our mission: #HealthForAll, #HungerForNone. A mission this big is 100% about innovation and 0% about who is at the top of the org chart. That’s why our CEO Bill Anderson recently sat down with four scientists to learn more about the novel ways they are pursuing our mission with innovative partners. We’re calling the series “Science is Boss” and in episode one, Ruth R. Shah, a trained cell and molecular biologist, looks at the potential of cell and gene therapies to fundamentally change the way diseases like Parkinson's are treated. Check it out!

🌟 Exciting news! Our latest blog post explores cutting-edge advancements in molecular optimization, introducing the Deep Genetic Molecular Modification Algorithm (DGMM). This innovative approach leverages a discrete variational autoencoder (D-VAE) to encode molecules as quantization code, mol-gene, and utilizes genetic algorithms for flexible structural optimization. Discover how DGMM enables the discovery of pharmacologically similar but structurally distinct compounds, shedding light on the complexities of structural optimization in drug discovery. Dive into the full article here: https://bit.ly/4bgcxqJ 🚀 #MolecularOptimization #DrugDiscovery #AdvancedAlgorithms

Dive into this blog to discover how Stanford researchers triumphed over a substantial hurdle by successfully deriving clonal populations from a human glioblastoma cell line with distinct genetic amplifications. This achievement underscores the profound impact of collaboration and technology in advancing research breakthroughs. Read the blog at https://hubs.la/Q02l-Gxr0, and connect with Dr. Jessica Hartman, our Senior Director of Product Applications, for deeper insights. #CloneChallenge #CellRaftTechnology #CellCloning