Professor Achillefs Kapanidis

Correction

Biophysical Journal Elsevier 109:2 (2015) 457

Real-time single-molecule studies of the motions of DNA polymerase fingers illuminate DNA synthesis mechanisms.

Nucleic acids research 43:12 (2015) 5998-6008

Authors:

Geraint W Evans, Johannes Hohlbein, Timothy Craggs, Louise Aigrain, Achillefs N Kapanidis

Abstract:

DNA polymerases maintain genomic integrity by copying DNA with high fidelity. A conformational change important for fidelity is the motion of the polymerase fingers subdomain from an open to a closed conformation upon binding of a complementary nucleotide. We previously employed intra-protein single-molecule FRET on diffusing molecules to observe fingers conformations in polymerase-DNA complexes. Here, we used the same FRET ruler on surface-immobilized complexes to observe fingers-opening and closing of individual polymerase molecules in real time. Our results revealed the presence of intrinsic dynamics in the binary complex, characterized by slow fingers-closing and fast fingers-opening. When binary complexes were incubated with increasing concentrations of complementary nucleotide, the fingers-closing rate increased, strongly supporting an induced-fit model for nucleotide recognition. Meanwhile, the opening rate in ternary complexes with complementary nucleotide was 6 s(-1), much slower than either fingers closing or the rate-limiting step in the forward direction; this rate balance ensures that, after nucleotide binding and fingers-closing, nucleotide incorporation is overwhelmingly likely to occur. Our results for ternary complexes with a non-complementary dNTP confirmed the presence of a state corresponding to partially closed fingers and suggested a radically different rate balance regarding fingers transitions, which allows polymerase to achieve high fidelity.

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

FEBS Letters Wiley 589:6 (2015) 787-787

Authors:

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

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