NewsrampCreative Biogene launches comprehensive custom RNA services, revolutionizing research capabilities with advanced molecular engineering and flexible production scales for academic and pharmaceutical sectors #RNAResearch #Biotechnology
Genomics Daily 🧬🤖🧬 Cracking the RNA code! KnockRBP database reveals 639 RBPs' secrets across 182 cell lines, revolutionizing gene expression insights. 🔍 #Genomics #RNAResearch #Breakthrough https://emmecola.github.io/genomics-daily
Academic EuropeJob Alert
Postdoctoral position: “Bacterial immunity against RNA phages” (f/m/d)
Deadline: 2025-11-13
Location: Germany, Würzburg
#hiring #HIRI #biochemistry #Postdoc #PhageBiology #Microbiology #RNAResearch #InfectionResearch #biology #biotechnology
Lexmilian S. R. B. de MelloScientists at Stanford have made a discovery that could change how we understand life itself. They have identified a previously unknown RNA-based life form residing in the human body. Researchers have given it a mysterious name: Obelisks.
This life form is unlike anything we have seen before. Unlike bacteria or viruses, Obelisks are RNA-based and do not fit into traditional categories of life. They seem to coexist within human cells without causing harm, and may even play a role in regulating cellular processes that we are only beginning to understand.
The discovery was made using highly advanced genomic and imaging techniques that allowed scientists to detect structures invisible to conventional microscopes. Early studies suggest that Obelisks may influence how our cells respond to stress and could even have a subtle effect on our immune system.
While the research is still in its early stages, scientists are fascinated by the potential implications. Understanding Obelisks could open entirely new fields of medicine and biology. Could they hold the key to combating certain diseases or unlocking hidden mechanisms of human physiology? The possibilities are intriguing.
Stanford researchers emphasize that much more work is needed to determine how these RNA-based entities interact with humans, and whether they are present in all individuals or only a subset of the population.
This breakthrough highlights how much we still have to learn about the microscopic world within us. Our bodies may be far more complex than we ever imagined, hosting life forms we are only now beginning to recognize. Obelisks could be the start of a revolution in understanding human biology and the invisible life that surrounds us.
Core discovery & science
#MedicalBreakthrough #LifeSciences #RNAResearch #FutureOfBiology #Microbiology
New life form & mystery
#Obelisks #HiddenLife #UnknownLifeForms #InvisibleBiology #RNAWorld
Hacker NewsRNA structure prediction is hard. How much does that matter?
https://www.owlposting.com/p/rna-structure-prediction-is-hard
#HackerNews #RNAstructure #Prediction #RNAresearch #ScienceChallenges #Bioinformatics #MolecularBiology
🦠 RNA's sneaky disguise: Glycosylation lets cellular cleanup happen without immune chaos! New immune evasion mechanism uncovered 🛡️ #Immunology #RNAResearch #CellBiology https://emmecola.github.io/genomics-daily
UndarkOPINION: Nobel-winning RNA research and AI-driven protein folding models challenge our perceptions of discovery beyond just academia.
https://undark.org/2024/11/07/opinion-nobel-prizes-tell-a-story-about-scientific-discovery/
#NobelPrize2024 #ScienceAndTechnology #Innovation #ScientificDiscovery #AI #MachineLearning #RNAResearch #LifeSciences #PhysicsNobel #ChemistryNobel #ComputationalScience #TechInScience #ScientificInnovation #InterdisciplinaryScience #NonAcademicResearch #FutureOfResearch #EthicsInTech #ProteinFolding #AcademicScience #AIInScience #undark
Cell Chemical BiologyInsightful #perspective by Papenfort and @storzlab on how small regulatory #RNAs (sRNAs) in bacteria reveal protein functions and metabolic pathways. @NIH @UniJena #RNAResearch #Microbiology https://www.cell.com/cell-chemical-biology/fulltext/S2451-9456(24)00304-0?utm_source=dlvr.it&utm_medium=mastodon
Lab Horizons🧬 University of Vienna’s team has developed advanced RNA building blocks. Faster and more efficient RNA chip production is now possible.
Read more.... 🔗 https://labhorizons.co.uk/2024/08/revolutionising-rna-chip-production-new-building-blocks-increase-efficiency-and-speed/
Revolutionising RNA Chip Production: New Building Blocks Increase Efficiency and Speed - Lab Horizons
An international research team has developed a new version of RNA building blocks, significantly enhancing the production speed and efficiency of RNA chips. The University of Vienna, in collaboration with the Max Mousseron Institute for Biomolecules at the University of Montpellier, has made a significant breakthrough in RNA technology. The new RNA building blocks exhibit
🧬 University of Vienna’s team has developed advanced RNA building blocks. Faster and more efficient RNA chip production is now possible.
Read more.... 🔗 https://labhorizons.co.uk/2024/08/revolutionising-rna-chip-production-new-building-blocks-increase-efficiency-and-speed/
Revolutionising RNA Chip Production: New Building Blocks Increase Efficiency and Speed - Lab Horizons
An international research team has developed a new version of RNA building blocks, significantly enhancing the production speed and efficiency of RNA chips. The University of Vienna, in collaboration with the Max Mousseron Institute for Biomolecules at the University of Montpellier, has made a significant breakthrough in RNA technology. The new RNA building blocks exhibit