The development of single-molecule sequencing technology is just beginning ... on earth—capable of looking at the motion of a single protein. “We can now resolve the motion of a protein ...

The research also brings scientists closer to achieving single-molecule protein sequencing, a long-sought goal in biology. While DNA sequencing reveals genetic instructions, protein sequencing ...

This sequencer’s workflow takes less than three hours of hands-on time, and data analysis does not require bioinformatics expertise. Instruments like this make single-molecule protein sequencing ...

The nanopore device moves scientists closer to achieving single-molecule protein sequencing, a long-sought goal in biology.

We have developed a proprietary universal single-molecule detection platform that we are first applying to proteomics to enable Next-Generation Protein Sequencing (“NGPS”), the ability to ...

What is the biggest difference between using nanopore technology for protein sequencing versus nucleic acid sequencing ... This makes it much more difficult to detect single amino acid differences.

The first-of-its-kind Platinum benchtop solution conveniently brings protein sequencing to every lab, everywhere with a simple workflow, small footprint, and single-molecule resolution that enables ...

Principle of Nanopore Sequencing: DNA/RNA is passed through protein nanopores embedded in a non-conductive ... individual DNA molecules without the need for amplification. This single-molecule ...

This groundbreaking instrument offers protein analysis with single-molecule precision, aiming to make Next-Gen Protein Sequencing™ more accessible to laboratories worldwide. Platinum Pro ...