Peptone’s Post

Kiss-and-tell: A new method for precision delivery of nanoparticles and small molecules to individual cells . The delivery of experimental materials to individual cells with exactness and exclusivity has long been an elusive and much sought-after ability in biology. With it comes the promise of deciphering many longstanding secrets of the cell. A research team has now successfully shown how small molecules and single nanoparticles can be applied directly onto the surface of cells. In the study the scientists describe their technique as a ' kiss' (microkiss) -- an easy and cost-effective new method, unlocking new possibilities in single-cell science with a view towards next generation therapeutic applications. #ScienceDailynews #InnovativeResearch #NextGenScience #ExploringFrontiers

📢New EU Research #Project participation update!   🔬Really happy for our upcoming participation in the #Regeneration, a HORIZON 2021 EU project aiming to #personalize treatments and pain management for repair of #AgedBone Tissue with quantum molecular resonance. This project aims to: 👉 Personalize therapies and enable better preventive care for the #elderly 👉 Develop reliable and sustainable in vitro #models of aged bone tissue alternative to animal tests 👉 Study bone tissue response to #QMR (Quantum Molecular Resonance) 👉 Train a cohort of scientists and technologists in exploiting the model features to increase #knowledge on the effects of #aging on bone biology and mechanobiology   🌐 Excited to be part of an exceptional team of 7 research companies and institutions from 4 different countries (Italy, France, Greece, Switzerland): InSyBio, Industrial Systems Institute / Research Centre ATHENA, Cellex, Consiglio Nazionale delle Ricerche, Telea BIOTECH SRL, Edentech, University of Applied Sciences and Arts of Southern Switzerland   🦴 Follow us to keep in touch as InSyBio helps unravel the mechanisms of the ageing bone tissue using in silico and in vitro techniques to accurately model its pathology!   ℹ️ For more info, visit the project's website at: https://lnkd.in/dRMyGAM5

Integrating plant biology with nanotechnology, molecular biology, and cancer bioinformatics unlocks innovative solutions. Plant-derived nanoparticles and nanocellulose materials revolutionize biomedical applications. Genetic engineering and synthetic biology enable novel crop traits and pharmaceutical production. Bioinformatics analysis of plant genomics informs cancer research, revealing anticancer compounds and metabolic pathways. This convergence of disciplines fosters groundbreaking discoveries, driving advancements in agriculture, medicine, and biotechnology." The future is now. I hope to contribute my own quota. I introduce you all to my Coach and Scholar Amaka Ifeduba - (Founder of ScholarUP Mentoring Academy, US GradSchool Scholarship Coach. @Amaka Ifeduba #elevateyourprofessionalpresencewith_Amaka #Day15of21 #Scienceanddiscovery #GOD over all.

Professor Yamuna Krishnan has been featured on the 𝗡𝗮𝗻𝗶𝗼𝗻 𝗣𝗼𝗱𝗰𝗮𝘀𝘁, spotlighting her groundbreaking work on cell organelles and DNA-based nanodevices! The episode dives deep into the heart of cellular function, exploring how the chemistry within cell organelles is reshaping our understanding of health and disease. From measuring elusive ion concentrations inside organelles to discovering the "hidden life" of ion channels and transporters within cells, Prof. Krishnan's insights are transforming the future of bio-nanotechnology and therapeutic development. Whether you're a scientist, a student, or simply someone fascinated by the cutting-edge of biology, this episode offers rich insights into the pioneering research that's setting the stage for new discoveries and therapies. 𝗟𝗶𝘀𝘁𝗲𝗻 𝗻𝗼𝘄 to be inspired by the possibilities that lie at the intersection of chemistry, biology, and technology: https://lnkd.in/eYaWUY-7 𝗣𝗿𝗲𝗳𝗲𝗿 𝗿𝗲𝗮𝗱𝗶𝗻𝗴? Check out the full transcript here: https://lnkd.in/g3J7nbCM 𝗘𝗽𝗶𝘀𝗼𝗱𝗲 𝗛𝗶𝗴𝗵𝗹𝗶𝗴𝗵𝘁𝘀: • The challenges and breakthroughs in studying intracellular ion homeostasis. • The innovative DNA nanodevices making invisible cellular processes visible. • The unexpected discoveries around organelle membrane potential. • The surprising activity of plasma membrane ion channels inside organelles. • The intriguing role of TMEM165 in lysosomal calcium entry. • The two transformative companies that leverage organelle-targeting nanotechnology for the early diagnosis and treatment of neurodegenerative diseases and cancer. #chemistry #uchichemistry #uchichem #yamunakrishnan #cellorganelles #nanotechnology #nanion

**Breakthrough in Microscopy: New High-Resolution Fluorescence Microscope Revealed** Scientists have developed a new microscope with unprecedented 5-nanometer resolution, allowing researchers to observe cellular processes with unprecedented precision. The high-resolution fluorescence microscope uses advanced optics and signal processing to capture detailed images of cells and their components. This breakthrough has the potential to revolutionize our understanding of cellular biology and could lead to new discoveries in fields such as medicine and biotechnology. #Microscopy #Biotechnology #CellularBiology #ScientificBreakthrough #FluorescenceMicroscopy Source: https://lnkd.in/gWyJ-8Ta Update Date: 1 day ago

🔬 Innovation Spotlight: ibidi's Latest Research! 🧬 👩🔬 At ibidi, we are dedicated to advancing scientific research and providing cutting-edge solutions for the biomedical community. Our latest publication, co-authored by Lea Tomasova from ibidi, in collaboration with the Institut für Analytische Chemie, Chemo- & Biosensorik, University of Regensburg exemplifies this commitment. 📜 The article "A high-precision wound healing assay based on photosensitized culture substrates" published in Nature Portfolio Scientific Research, introduces a novel assay for precise cell wounding using photosensitizers. This method offers unparalleled accuracy in studying cell migration, which is crucial for wound repair, tumor metastasis, and developmental biology. ⭐ Key Highlights of the study: ◽ High-precision wounding ◽ Perfect biocompatibility ◽ Usable in microfluidic channels Read the full article: https://zurl.co/pT1D #ibidi #scientificresearch #woundhealing #highprecision #Biomedical #innovation #technology #developmentalbiology #photosensitizers #cellbiology #research

📢 Weekly Update: Cutting-Edge Research Highlights! 📢 Dive into the latest scientific advancements with these groundbreaking studies: 1. Journal of Advanced Research: New Insights in Medical Science ( https://lnkd.in/g-B9T6eC ) 2. Nature Communications: Breakthrough in Molecular Biology( https://lnkd.in/gzR7Qm6U ) 3.Scientific Reports: Innovations in Environmental Science( https://lnkd.in/gG-6Expg ) 4. Scientific Reports: Progress in Nanotechnology( https://lnkd.in/gx_iJ2Fe ) 5. Scientific Reports: Advances in Biochemistry( https://lnkd.in/g7hJZ_Ua ) 6. Signal Transduction and Targeted Therapy: Cancer Research Developments( https://lnkd.in/gk6gGP8v ) Stay informed and inspired by the latest in research and innovation. 📚✨ #ResearchUpdate #ScientificBreakthroughs #Innovation

This weekend, I gave my first conference talk at the Utah Biomedical Engineering Conference (UBEC) 2024! I presented my work on determining the role of transcription factor dynamics during bone cell formation using Machine Learning and Synthetic Biology. I want to thank my advisor, Tara Deans, and the Utah BME Department for providing me with this wonderful opportunity! #UBEC2024 #UniversityofUtah #BiomedicalEngineering #SyntheticBiology

Great interview with Kresten Lindorff-Larsen, a leader in the field of bimolecular simulations of proteins and peptides, about what attracted him to work in the field of Biophysics! #compchem #STEM #phdvoice #phdchat #biophysics

The ONI Nanoimager offers groundbreaking capabilities for visualizing live imaging of intracellular transport pathways and gaining insights into organelle interactions. By using advanced super-resolution techniques such as dSTORM, the ONI Nanoimager allows researchers to observe dynamic cellular processes with unparalleled clarity. This technology facilitates the tracking of vesicular transport within cells, revealing how different organelles communicate and interact in real time. Whether studying the movement of mitochondria, lysosomes, or extracellular vesicles, the Nanoimager provides high-resolution images that uncover the intricate mechanisms underlying cellular function. This real-time visualization opens new avenues for exploring cellular dynamics and understanding complex biological processes, making it an invaluable tool for advancing research in cell biology and beyond.