Search Results - technology+classifications+%3e+1.+life+science+%3e+gene+sequencing

4 Results Sort By:
Enzymatic amplification/fragmentation approach for quantifying biomarkers using nanopores
A method based on antibodies to electrically detect biomarkers in serum and other samples Background: Biomarkers serve as indicators of biological processes or conditions. The need for advanced technology in this area arises from the demand for early and accurate detection of diseases, which can significantly improve patient outcomes through timely...
Published: 7/11/2025   |   Inventor(s): Meni Wanunu, Xinqi Kang, Mohammadamin Alibakhshi, David Walt, Connie Wu
Keywords(s): Nanopores
Category(s): Technology Classifications > 2. Physical Science > Advanced materials/Nanomaterials, Technology Classifications > 1. Life Science > Chemistry, Technology Classifications > 1. Life Science > Diagnostics, Technology Classifications > 1. Life Science > Drug Discovery, Technology Classifications > 1. Life Science > Gene sequencing, Technology Classifications > 1. Life Science > Medical Devices, Technology Classifications > 2. Physical Science > Sensors/Robotics
Nanopore and membrane protein dynamic multichannel measurement apparatus and fabrication method for same
INV-23089 Background: Nanopore sensing devices are integral to scientific research and applications such as DNA sequencing and protein detection. The dynamic of trans and cis user access to a membrane in such devices can, however, pose significant challenges. Fulfilling the need for multiplexed and scalable nanopore sensing systems, especially those...
Published: 10/15/2024   |   Inventor(s): Meni Wanunu, Ali Fallahi, Amr Makhamreh
Keywords(s): Biosensing, Drug Discovery, Microfluidics, Nanopores, Protein sequencing
Category(s): Technology Classifications > 2. Physical Science, Technology Classifications > 1. Life Science > Gene sequencing, Technology Classifications > 1. Life Science, Technology Classifications > 1. Life Science > Diagnostics
New Method for Discovery of Bioactive Molecules
INV-20024 Background Microbes are a foundation of the discovery of bioactive molecules because they produce an enormous variety of secondary metabolites, some with desirable activities ranging from antibiotics to anti-inflammatory to anticancer to industrial enzymes. The advent of next-generation sequencing technologies uncovered that microbial genomes...
Published: 9/10/2024   |   Inventor(s): Slava Epstein
Keywords(s): Antimicrobial, Biomolecules, Cancer, Drugs, Microbiology
Category(s): Technology Classifications > 1. Life Science > Gene sequencing, Technology Classifications > 1. Life Science > Drug Discovery, Not in use > -Method, Technology Classifications > 1. Life Science > Antimicrobial
Electrically Actuatable Zero-mode Waveguides for High-Throughput pg-Level Sequencing
INV-20008 Background DNA sequencing technologies have undergone tremendous improvements in recent years in throughput and quality. One advantage of single-molecule DNA sequencing technologies is that long DNA molecules can be read in a single run, which greatly facilitates genome assembly and aids in the construction of reference-quality genomes....
Published: 1/29/2025   |   Inventor(s): Meni Wanunu, Mohammadamin Alibakhshi, Fatemeh Farhangdoust
Keywords(s): DNA sequencing, single-molecule
Category(s): Technology Classifications > 1. Life Science > Gene sequencing, Technology Classifications > 1. Life Science, Technology Classifications > 1. Life Science > Biotechnology, Technology Classifications > 1. Life Science > Chemistry