Litcius/Paper detail

From sequence to function: Bridging single-molecule kinetics and molecular diversity

A. N. Kapanidis, L. Muras, Koushik Sreenivasa, J. P. Hazra, John van Noort, Chirlmin Joo, Sebastian Deindl

2026Science19 citationsDOI

Abstract

Biological function is fundamentally determined by nucleic acid and protein sequence. Beyond encoding genetic information, nucleic acids also display complex physicochemical parameters that shape structure, dynamics, and interactions. Understanding how sequence variation sculpts the energetic landscapes underlying these properties requires methods that capture both molecular diversity and dynamic behavior. Single-molecule techniques are ideally suited to this task, but conventional formats remain time and cost intensive. Recent breakthroughs have enabled highly multiplexed approaches for observing molecular dynamics across millions of individual molecules representing thousands of sequences or barcoded entities. Though still in development, these methods have begun to bridge sequence, structure, dynamics, and function at scale, opening new opportunities in drug discovery, molecular diagnostics, and functional genomics.

Topics & Concepts

Bridging (networking)Computational biologyNucleic acidSequence (biology)Function (biology)BiologyNucleic acid sequenceMolecular dynamicsDirected Molecular EvolutionBiological systemComputer scienceChemistryBase sequenceSequence alignmentMolecular evolutionNucleic acid structureNanotechnologyPeptide sequenceEncoding (memory)Functional diversityBridge (graph theory)BiophysicsSequence analysisOligonucleotideMultiplexingKineticsProtein structureProtein functionProtein Degradation and InhibitorsAdvanced Fluorescence Microscopy TechniquesDNA and Nucleic Acid Chemistry