Ivan Volkov
Researcher at Department of Cell and Molecular Biology; Molecular Systems Biology
- E-mail:
- ivan.volkov@icm.uu.se
- Visiting address:
- Husargatan 3
752 37 UPPSALA - Postal address:
- Box 596
751 24 UPPSALA
Publications
Recent publications
Part of RSC Chemical Biology, 2026
Part of Proceedings of the National Academy of Sciences of the United States of America, 2025
- DOI for Dynamic binding of the bacterial chaperone Trigger factor to translating ribosomes in Escherichia coli
- Download full text (pdf) of Dynamic binding of the bacterial chaperone Trigger factor to translating ribosomes in Escherichia coli
A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
Part of Advanced Materials Technologies, 2025
- DOI for A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
- Download full text (pdf) of A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
Spatiotemporal kinetics of the SRP pathway in live E. coil cells
Part of Proceedings of the National Academy of Sciences of the United States of America, 2022
- DOI for Spatiotemporal kinetics of the SRP pathway in live E. coil cells
- Download full text (pdf) of Spatiotemporal kinetics of the SRP pathway in live E. coil cells
Direct measurements of mRNA translation kinetics in living cells
Part of Nature Communications, 2022
- DOI for Direct measurements of mRNA translation kinetics in living cells
- Download full text (pdf) of Direct measurements of mRNA translation kinetics in living cells
All publications
Articles in journal
Part of RSC Chemical Biology, 2026
Part of Proceedings of the National Academy of Sciences of the United States of America, 2025
- DOI for Dynamic binding of the bacterial chaperone Trigger factor to translating ribosomes in Escherichia coli
- Download full text (pdf) of Dynamic binding of the bacterial chaperone Trigger factor to translating ribosomes in Escherichia coli
A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
Part of Advanced Materials Technologies, 2025
- DOI for A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
- Download full text (pdf) of A Microfluidic Platform for In Situ Studies of Bacteria Electroporation
Spatiotemporal kinetics of the SRP pathway in live E. coil cells
Part of Proceedings of the National Academy of Sciences of the United States of America, 2022
- DOI for Spatiotemporal kinetics of the SRP pathway in live E. coil cells
- Download full text (pdf) of Spatiotemporal kinetics of the SRP pathway in live E. coil cells
Direct measurements of mRNA translation kinetics in living cells
Part of Nature Communications, 2022
- DOI for Direct measurements of mRNA translation kinetics in living cells
- Download full text (pdf) of Direct measurements of mRNA translation kinetics in living cells
Real-time measurements of aminoglycoside effects on protein synthesis in live cells
Part of Proceedings of the National Academy of Sciences of the United States of America, 2021
- DOI for Real-time measurements of aminoglycoside effects on protein synthesis in live cells
- Download full text (pdf) of Real-time measurements of aminoglycoside effects on protein synthesis in live cells
Tracking of single tRNAs for translation kinetics measurements in chloramphenicol treated bacteria
Part of Methods, p. 23-30, 2019
- DOI for Tracking of single tRNAs for translation kinetics measurements in chloramphenicol treated bacteria
- Download full text (pdf) of Tracking of single tRNAs for translation kinetics measurements in chloramphenicol treated bacteria
Single-Molecule Tracking Approaches to Protein Synthesis Kinetics in Living Cells
Part of Biochemistry, p. 7-14, 2019
- DOI for Single-Molecule Tracking Approaches to Protein Synthesis Kinetics in Living Cells
- Download full text (pdf) of Single-Molecule Tracking Approaches to Protein Synthesis Kinetics in Living Cells
tRNA tracking for direct measurements of protein synthesis kinetics in live cells
Part of Nature Chemical Biology, p. 618-626, 2018
In Vivo Measurements of Protein Synthesis Kinetics using Single-Molecule Tracking of E.Coli tRNAS
Part of Biophysical Journal, 2016