🔬 Exciting Developments in Molecular Science! 🔍 Let's continue to explore the fascinating world of molecules and the endless potential they hold. 🌍💫 #MolecularScience #ScientificDiscovery #InnovationInChemistry #ResearchMatters #LinkedInSciencePost
Ragini Dangre’s Post
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🌐 Stay tuned for more updates on this fascinating journey, and join us in exploring the vast possibilities of molecular science. Together, we're pushing the boundaries of knowledge! #MolecularScience #ScienceBreakthrough #Innovation #Research #Discovery #ScienceMatters #CuttingEdge #MoleculeMagic #Exploration #ScienceCommunity #ScienceNews #LinkedInPost #ScientificDiscovery #ExcitingNews
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The universe makes light work of everything. We have approached the electromagnetic force from an internal perspective on the basis of an empirical first principal approach. BioPhoton communication within the atomic electromagnetic force. https://lnkd.in/eF3dUSQ4
Science just took another step in being able to accurately measure the biophotons created inside cells from metabolism. This means endogenous photomultipliers for melanin and mitochondrial biology are not far off. https://lnkd.in/eDJEr64d Accurate measurements of light intensity provide vital data for scientists and everyday applications. For example, precise values help optimize microscopy signals, trigger physiological processes in the brain, and drive light-absorbing reactions while enabling different research teams to share and reproduce experimental results. Nowadays, a vast community of biologists, chemists, engineers, and physicists are concerned with delivering precise numbers of photons. PICTURE: Green fluorescent proteins (GFPs) in eppendorf tubes glow green because they have absorbed exitation light. Credit: Juan Carlos Fonseca Mata
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Science just took another step in being able to accurately measure the biophotons created inside cells from metabolism. This means endogenous photomultipliers for melanin and mitochondrial biology are not far off. https://lnkd.in/eDJEr64d Accurate measurements of light intensity provide vital data for scientists and everyday applications. For example, precise values help optimize microscopy signals, trigger physiological processes in the brain, and drive light-absorbing reactions while enabling different research teams to share and reproduce experimental results. Nowadays, a vast community of biologists, chemists, engineers, and physicists are concerned with delivering precise numbers of photons. PICTURE: Green fluorescent proteins (GFPs) in eppendorf tubes glow green because they have absorbed exitation light. Credit: Juan Carlos Fonseca Mata
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Having completed my #PhD thesis in 2024 titled "The Integration Of #SyntheticBiology With Metabolically And Phenotypically Emergent Multicellular #Simulations For Medical And Other Applications", I was surprised how aligned the wonderful work at Politecnico Di Torino was with my own when we met at #IWBBIO 2022 in beautiful, sunny Gran Canaria! Subsequently, I learned a great deal from their work and have great respect for what they are doing there. For example, one of my favorite references is this one by Leonardo: https://lnkd.in/eyCfttfp related to #Biofabrication #CAD. As I have already posted here, I have two published works aligned with multicellular simulation #research https://lnkd.in/eKMiH_s8 and https://lnkd.in/e2vw-A6X, and another two that will hopefully be published soon (1 accepted already). So it is great to see their latest research published in the multicellular computing domain that I repost here!
📢 Our new publication "Biology System Description Language (BiSDL): a modeling language for the design of multicellular synthetic biological systems" is out on bioRxiv! 🧬 BiSDL is a new computational language for synthetic biology, specifically focusing on multicellular systems. This tool simplifies modeling the interactions and dynamics between cells in complex environments, which could significantly enhance our understanding and engineering of biological systems. Through case studies -- a bacterial consortium, a synthetic morphogen system, and a conjugative plasmid transfer process -- we demonstrate BiSDL ability to represent and simulate spatial and multi-level cellular dynamics effectively, aiming to make advanced computational models more accessible to researchers across the field. 🔗 Read it here: https://lnkd.in/dGfYzbTV SMILIES Polito Research Group #SyntheticBiology #Research
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I am thrilled to share that I have successfully completed the Molecular Dynamics workshop! This comprehensive program has deepened my understanding of molecular simulation techniques and their applications in scientific research. Here’s to continuous learning and growth in the fascinating field of Molecular Dynamics! #MolecularDynamics #Workshop #ContinuousLearning #ProfessionalDevelopment #Science #Research
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🌍🔬 Excited to share another interesting publication from 2024; led by an Italian research group using among other devices, also our new Tewameter® TM Hex probe: "NAD-Driven Sirtuin Activation by Cordyceps sinensis Extract: Exploring the Adaptogenic Potential to Promote Skin Longevity" published in the International Journal of Molecular Sciences. https://lnkd.in/dz9Ai_xT For the first time, the local skin energy balance has proven itself to be an exciting new parameter, correlating to the release of energy in the form of ATP. #literaturesearch #pubmed #medicalwriting #couragekhazaka #AcademicResearch #ResearchDatabases #Science #Education #Engineering #LiteratureReview #ResearchTools #AcademicWriting #ResearchSkills
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M16 12x2mL High Speed Microcentrifuge M16 high speed micro centrifuge M16 high speed micro centrifuge is compact in size, beautiful in appearance, simple in operation, quick in acceleration and deceleration, and controlled by touch screen. This type of high speed micro centrifuge is a rare microcentrifuge for molecular biology, modern medicine and scientific research. https://lnkd.in/gD8ZTEvr
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Medical Artist | Reader in Interdisciplinary Digital Visualisation | Programme Leader MA Art in Science
I am delighted to announce the publication of ‘Approaches for Science Illustration and Communication’, Volume 4 in the Biomedical Visualization series by Professor Paul M. Rea and edited by me. Read Chapter 10 👉🏼 https://lnkd.in/e2ckNmcs Chapter 10, ‘Collaged Creatures: Using Collage Art Practice and Posthuman Ethics to Discuss Bioengineering Hybrids’ by Alice Thickett, uses posthuman methodologies and collage art practice to critically discuss emerging human and non-human animal hybrids in contemporary bioengineering. The chapter reflects on the mimicking of biotech practices such as CRISPR through cut and paste methods used for analogue collage, and creates a space for the discussion of bioethics.
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🔬 Exciting Discoveries in Molecular Science! 🔍 #MaterialsScience #Nanotechnology #Innovation #ScienceAndTechnology #MolecularAdvancements #LinkedInScience #FutureOfMaterials #ResearchBreakthroughs #ScienceDiscovery #TechInnovation #CuttingEdge #AdvancedMaterials #MolecularEngineering #ScientificProgress #MaterialsOfTheFuture 🌐🚀
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Catch the wisdom of Prof. Dr. Sir Richard J. Roberts, Nobel Laureate and Chief Scientific Officer at New England Biolabs. In his interview, he shares his insights on #science, tackling #research challenges, and the importance of #OpenAccess. Interesting fact: Prof. Roberts initially considered a career as a detective before discovering his passion for chemistry and molecular biology! Watch the full interview here to hear more about his fascinating journey and perspectives: bit.ly/3z9pB3M #RisingStars
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