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Showing 1–4 of 4 results

Advanced filters: Author: Emil Marklund Clear advanced filters

DNA surface exploration and operator bypassing during target search

Single-molecule fluorescence resonance energy transfer and real-time confocal laser tracking with fluorescence correlation spectroscopy together characterize how individual lac repressor molecules bypass operator sites while exploring the DNA surface at microsecond timescales.

Emil Marklund
Brad van Oosten
Sebastian Deindl
Research24 Jun 2020
Nature

Volume: 583, P: 858-861
High-throughput DNA melt measurements enable improved models of DNA folding thermodynamics

DNA thermodynamics underlies many biological and biotechnological applications but is challenging to accurately predict. Here, the authors develop a high-throughput DNA melting method and improve computational models for predicting DNA folding energies from sequence data.

Yuxi Ke
Eesha Sharma
William J. Greenleaf
ResearchOpen Access01 Jul 2025
Nature Communications

Volume: 16, P: 1-19
Single-molecule states link transcription factor binding to gene expression

A study uses single-molecule footprinting to measure protein occupancy at regulatory elements on individual molecules in human cells and describes how different properties of transcription factor binding contribute to gene expression.

Benjamin R. Doughty
Michaela M. Hinks
William J. Greenleaf
Research20 Nov 2024
Nature

Volume: 636, P: 745-754
High-throughput biochemistry in RNA sequence space: predicting structure and function

The vast combinatorial sequence space of RNAs has prohibited quantitative mapping from nucleotide sequence to structure and function. New biochemical methods in vitro, which carry out measurements on hundreds of thousands of molecules at the same time, are now beginning to solve this issue.

Emil Marklund
Yuxi Ke
William J. Greenleaf
Reviews12 Jan 2023
Nature Reviews Genetics

Volume: 24, P: 401-414