Themed collection Photoinduced Processes in Nucleic Acids and Proteins

Light induced charge and energy transport in nucleic acids and proteins is the basis of fundamental biological processes such as photosynthesis, vision, DNA-photostability, DNA-photodamage and photosensing.

This review gives an overview of the impact of structure on the understanding of photoinduced processes in macromolecules, focusing on systems presented at this Faraday Discussion meeting.

Charge transfers during excitation and hole migration dynamics after immediate ionization for various terminal group containing ureido-peptides are studied.

Water molecules play a critical role during activation of GPCRs, one of the most important class of signalling proteins.

Tuning excited state potentials and dynamics of a retinal protein through point mutations.

The utility of ProCharTS as an intrinsic spectral probe to track protein aggregation and monitor conformational changes is reported.

The excited-state dynamics of two byproducts resulting from enzymatic reactions of prodrugs in cells and from the interaction of alkylating agents with cellular DNA have been investigated.

We present studies on a yellow fluorescent protein variant, Venus, and investigate the photophysics behind the dual emission upon UV excitation in fluorescent proteins.

The photophysics of several mono- and oligonucleotides were investigated in a deep eutectic solvent for the first time.

Simulations of the photoisomerization in the green-absorbing proteorhodopsin show aborted bicycle pedal mechanism and interaction with tyrosine 200.

We have investigated the isomerization dynamics and plausible energy landscape of 4-way Holliday junctions (4WHJs) bound to integration host factor (IHF, a DNA binding protein), considering the effect of applied external force, by single-molecule FRET methods.

A FRET-based probe reveals that coil–helix transitions in the phospholipid binding sequence of gelsolin occur at physiological phosphatidylinositol-4,5-bisphosphate concentrations.

We address concerns that PufX-deficient RCLH1 complexes from photosynthetically-incompetent bacteria may not be suitable as photovoltaic materials for incorporation into biohybrid photoelectrochemical cells.

We report the UV-vis absorption originating from protein backbone-sidechain charge transfer transitions in charged amino acids with anionic and cationic sidechains.

Out-of-plane puckering of the C_4′ atom forming a new CC bond seems essential for oxetane formation.

A computational strategy to simulate two-dimensional electronic spectra (2DES) is introduced, which allows characterising ground state conformations of flexible nucleobase aggregates that play a crucial role in nucleic acid photochemistry.

Femto-second time resolved absorption has been used to investigate how the energy transfer properties in the membranes of high-light and low-light adapted cells change as the composition of the LH2 complexes varies.

Photobleaching image correlation spectroscopy (pbICS) reveals that membrane cholesterol modulates the oligomeric state of the serotonin_1A receptor.

Fullerene nanoclusters with a unique cluster size (3–5 nm) interact with DNA forming chiral assemblies, thus perturbing the highly networked structure of CT-DNA.

The energetics of the two main proton coupled electron transfer processes that could occur in DNA are determined by means of time dependent-DFT calculations, using the M052X functional and the polarizable continuum model to include solvent effect.

The mechanistic details of well-known photohydrate lesions are explored using state-of-the-art computational methods.

The absorption of single photons at 266 nm by alternating adenine–thymine duplexes generates, with similar probabilities, both adenine radicals and adenine–thymine photoadducts.

Drug conjugated gold nanorods for combined imaging and chemo-thermal therapy were evaluated using fluorescence and Raman techniques.

We characterize the ground- and excited-state electronic interactions between nucleobase analog 8-(4′-phenylethynyl)deoxyguanosine, EG, with natural nucleobases and 7-deazaguanine, as well as between adjacent EG base analogs.