Gene machines

Corrigendum to "In vivo single-molecule imaging of bacterial DNA replication, transcription, and repair" [FEBS Lett. 588 (19) (2014) 3585-3594].

FEBS letters 589:6 (2015) 787

Authors:

Mathew Stracy, Stephan Uphoff, Federico Garza de Leon, Achillefs N Kapanidis

Internalization and Observation of Fluorescent Biomolecules in Living Microorganisms via Electroporation

Journal of Visualized Experiments MyJove (2015)

Authors:

Louise Aigrain, Marko Sustarsic, Robert Crawford, Anne Plochowietz, Achillefs N Kapanidis

Internalization and observation of fluorescent biomolecules in living microorganisms via electroporation.

Journal of visualized experiments : JoVE (2015)

Authors:

Louise Aigrain, Marko Sustarsic, Robert Crawford, Anne Plochowietz, Achillefs N Kapanidis

Abstract:

The ability to study biomolecules in vivo is crucial for understanding their function in a biological context. One powerful approach involves fusing molecules of interest to fluorescent proteins such as GFP to study their expression, localization and function. However, GFP and its derivatives are significantly larger and less photostable than organic fluorophores generally used for in vitro experiments, and this can limit the scope of investigation. We recently introduced a straightforward, versatile and high-throughput method based on electroporation, allowing the internalization of biomolecules labeled with organic fluorophores into living microorganisms. Here we describe how to use electroporation to internalize labeled DNA fragments or proteins into Escherichia coli and Saccharomyces cerevisiæ, how to quantify the number of internalized molecules using fluorescence microscopy, and how to quantify the viability of electroporated cells. Data can be acquired at the single-cell or single-molecule level using fluorescence or FRET. The possibility of internalizing non-labeled molecules that trigger a physiological observable response in vivo is also presented. Finally, strategies of optimization of the protocol for specific biological systems are discussed.

Real-time transcription initiation by E. coli RNA polymerase in vitro and in vivo

Biophysical Journal Cell Press 108:2, Supplement 1 (2015) 115A

Authors:

Anne Plochowietz, Diego Duchi Llumigusin, Pawel Zawadzki, Afaf H El-Sagheer, Thomas Brown, Achillefs N Kapanidis

Single-Molecule FRET for Dynamic Structural Biology: DNA Polymerase i Structure and Mechanism with Angstrom Precision

Biophysical Journal Elsevier 108:2 (2015) 14a

Authors:

Marko Sustarsic, Timothy Craggs, Johannes Hohlbein, Andrew Cuthbert, Nicholas Taylor, Hendrik Kaju, Majid Mosayebi, Jonathan Doye, Achillefs N Kapanidis