Search Results - technology+classifications+%3e+1.+life+science+%3e+bio-sensors

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Methods for encapsulation of DNA-modified CuAAC ligand for delivery into live cells
Advancing intracellular biomolecule labeling through enhanced DNA-modified ligand transport Background: The ability to label and track biomolecules within living cells is crucial for understanding cellular processes and developing therapeutic strategies. While DNA-conjugated CuAAC (copper-catalyzed azide-alkyne cycloaddition) ligands offer powerful...
Published: 7/7/2025   |   Inventor(s): Sara Rouhanifard, Keqing Nian
Keywords(s):  
Category(s): Technology Classifications > 1. Life Science > Chemistry, Technology Classifications > 1. Life Science > Bio-sensors, Technology Classifications > 2. Physical Science > Advanced materials/Nanomaterials, Technology Classifications > 1. Life Science > Therapeutics
Pericellular oxygen-controlling cell culture incubator
Incubator system that directly measures and controls pericellular oxygen levels enabling precise regulation of the cellular microenvironment Background: Cell culture is a fundamental technique in biomedical research that aims to replicate physiological conditions for cellular studies. While oxygen is a critical factor affecting cell behaviour and...
Published: 6/13/2025   |   Inventor(s): Zachary Rogers, Thibault Colombani, Sidi Bencherif
Keywords(s): biomedical research, Cancer, Cell Culture, Hypoxia
Category(s): Technology Classifications > 1. Life Science > Bio-sensors
Strategies to enhance protein translocation efficiency and smoothness through biological nanopores
Advancing protein analysis with enhanced nanopore translocation methods for single-molecule applications, single molecule proteomics Background: Accurate protein analysis is essential for advancing proteomics. Nanopore technology exhibited great promise for real-time, single-molecule protein analysis with the potential for high-throughput and cost-effective...
Published: 6/13/2025   |   Inventor(s): Meni Wanunu, Xialin Zhang, Zhuoyu Zhang
Keywords(s):  
Category(s): Technology Classifications > 1. Life Science > Biotechnology, Technology Classifications > 1. Life Science > Bio-sensors, Technology Classifications > 1. Life Science > Chemistry
Methods for single-molecule amplification of nuclear RNA
Novel technique for sorting cells based on nuclear RNA expression that enhances detection sensitivity while maintaining high sensitivity Background: Single-molecule fluorescent in situ hybridization (smFISH) stands as the gold standard for RNA visualization and quantification in cellular studies. However, its application in high-throughput methods...
Published: 6/17/2025   |   Inventor(s): Sara Rouhanifard, Yifang Liu
Keywords(s): Biology, Biomaterials, Fluorescence in situ hybridization (FISH), Imaging Technology, RNA targetting
Category(s): Technology Classifications > 1. Life Science > Bio-sensors, Technology Classifications > 1. Life Science > Chemistry, Technology Classifications > 1. Life Science > Biotechnology
Plasmid vectors for in vivo selection-free use with the probiotic E. coli Nissle
Living therapeutic patches for healing mucosal wounds in the gut Background: Inflammatory Bowel Diseases (IBD), including Crohn's disease and ulcerative colitis, are common, debilitating, and poorly treated conditions, affecting around eight million people worldwide. Current therapeutics include immunosuppressants and biologics that are often...
Published: 6/13/2025   |   Inventor(s): Neel Joshi, Ilia Gelfat, Anton Kan
Keywords(s): Gastrointestinal Disease, pMUT
Category(s): Technology Classifications > 1. Life Science > Biotechnology, Technology Classifications > 1. Life Science > Therapeutics, Technology Classifications > 1. Life Science > Bio-sensors
A Method for Modulating Hydrogen Sulfide Concentrations in the Human Intestine
Engineered bacteria (smart probiotics) have been developed to sense and modify harmful sulfur species and specifically hydrogen sulfide in the gut for the treatment of intestinal diseases such as IBD. https://nu.testtechnologypublisher.com/files/sites/vaibhav-1280x1600.jpeg https://nu.technologypublisher.com/files/sites/adobestock_586108897.jpeg Source:...
Published: 5/29/2025   |   Inventor(s): Justin Hayes, Benjamin Woolston
Keywords(s): Biotech, Gastrointestinal Disease, Medical/Health, Metabolic Engineering, Microbiology
Category(s): Technology Classifications > 1. Life Science > Biotechnology, Technology Classifications > 1. Life Science > Therapeutics, Technology Classifications > 1. Life Science > Bio-sensors, Not in use > -Health, Not in use > -Microbiology, Not in use > -Chemistry