Can Codon Bio Redefine the Blueprint of Life? Codon, the fundamental unit of the genetic code, has transcended traditional gene expression to become a frontier in synthetic biology, precision medicine, and bioengineering. By analyzing breakthroughs in codon recoding technologies and their applicatio … Can Codon Bio Redefine the Blueprint of Life?Read more
Gene
Gene is the fundamental unit of heredity, composed of specific DNA (or RNA) sequences that encode functional molecules (e.g., proteins or RNAs) and govern traits.
RNA Modifications: From Disease Mechanisms to Precision Medicine and Tumor Microenvironment
RNA Modifications: From Disease Mechanisms to Precision Medicine and Tumor Microenvironment RNA modifications—such as m6A, m5C, ac4C, and Ψ—dynamically regulate gene expression programs, serving as a nexus connecting disease pathogenesis, tumor microenvironment (TME) remodeling, and precision medici … RNA Modifications: From Disease Mechanisms to Precision Medicine and Tumor MicroenvironmentRead more
Applications and Recent Breakthroughs of Neurotech BCI in Medical Rehabilitation
Applications and Recent Breakthroughs of Neurotech BCI in Medical Rehabilitation Brain-Computer Interface (BCI) technology, a convergence of neuroscience and engineering, is revolutionizing the boundaries of medical rehabilitation. By decoding neural signals to enable human-machine interaction, BCI … Applications and Recent Breakthroughs of Neurotech BCI in Medical RehabilitationRead more
Technical Features of RNA Scan in Viral Detection, Disease Diagnosis, and Biological Research
Technical Features of RNA Scan in Viral Detection, Disease Diagnosis, and Biological Research RNA Scan, a technology system centered on RNA molecule detection (including RNAscope, opn-SATORI, and RIC-seq), demonstrates unique advantages in virology, clinical medicine, and fundamental biology through … Technical Features of RNA Scan in Viral Detection, Disease Diagnosis, and Biological ResearchRead more
Scientific Pathways and Challenges to Extending Human Lifespan Beyond 150 Years
Scientific Pathways and Challenges to Extending Human Lifespan Beyond 150 Years The question of whether humans can surpass a lifespan of 150 years is one of the most compelling challenges in life sciences. Current research suggests that while the natural human lifespan may cap at 120–150 years, tech … Scientific Pathways and Challenges to Extending Human Lifespan Beyond 150 YearsRead more
Innovations and Applications in RNA Tool Development
Innovations and Applications in RNA Tool Development RNA tool development is undergoing unprecedented technological advancements, spanning breakthroughs from basic sequence analysis to complex structural prediction, and from single-molecule manipulation to system-level regulation. This article explo … Innovations and Applications in RNA Tool DevelopmentRead more
Challenges and Breakthroughs in Artificial Organ Development
Challenges and Breakthroughs in Artificial Organ Development Artificial organ technology, a revolutionary field combining life sciences and engineering, aims to create functional replacements for failing human organs through bioengineering, materials science, and AI. Despite rapid advancements, its … Challenges and Breakthroughs in Artificial Organ DevelopmentRead more
MechLimb: Applications and Innovations in Mechanical Bionic Limbs
MechLimb: Applications and Innovations in Mechanical Bionic Limbs MechLimb, a fusion of biomedical engineering, mechatronics, and AI, aims to restore or enhance human mobility and sensory capabilities through mechanized and biomimetic design. This article explores six key application scenarios, supp … MechLimb: Applications and Innovations in Mechanical Bionic LimbsRead more
