A homozygous POLR1A variant causes leukodystrophy and affects protein homeostasis.

RNA polymerase I transcribes ribosomal DNA to produce precursor 47S rRNA. Post-transcriptional processing of this rRNA generates mature 28S, 18S and 5.8S rRNAs, which form the ribosomes, together with 5S rRNA, assembly factors and ribosomal proteins.

Affinity maturation of TCR-like antibodies using phage display guided by structural modeling.

TCR-like antibodies represent a unique type of engineered antibodies with specificity toward pHLA, a ligand normally restricted to the sensitive recognition by T cells. Here, we report a phage display-based sequential development path of such antibodies. The strategy goes from initial lead identification through in silico informed CDR engineering in combination with framework engineering for affinity and thermostability optimization, respectively.

Studies on Protein-RNA:DNA Hybrid Interactions by Microscale Thermophoresis (MST).

Microscale thermophoresis (MST) is a technology that allows for quantitative analysis of interactions between biomolecules with low sample consumption. MST uses localized temperature fields to measure the diffusion rates of the free and bound states of a fluorescently labeled protein, and to determine the dissociation constant K by fitting of the binding isotherm with a 1:1 binding model. Here, we describe the use of MST for quantitative analysis of the interaction of the N-terminal his-tagged 6-methyladenine (mA) reader protein YTHDF2 with mA modified and unmodified RNA, in single-strand configuration or with RNA:DNA hybrid substrates.

AKAP18δ Anchors and Regulates CaMKII Activity at Phospholamban-SERCA2 and RYR.

Background: The sarcoplasmic reticulum (SR) Ca-ATPase 2 (SERCA2) mediates Ca reuptake into SR and thereby promotes cardiomyocyte relaxation, whereas the ryanodine receptor (RYR) mediates Ca release from SR and triggers contraction. Ca/CaMKII (CaM [calmodulin]-dependent protein kinase II) regulates activities of SERCA2 through phosphorylation of PLN (phospholamban) and RYR through direct phosphorylation. However, the mechanisms for CaMKIIδ anchoring to SERCA2-PLN and RYR and its regulation by local Ca signals remain elusive.

Non-flipping DNA glycosylase AlkD scans DNA without formation of a stable interrogation complex.

The multi-step base excision repair (BER) pathway is initiated by a set of enzymes, known as DNA glycosylases, able to scan DNA and detect modified bases among a vast number of normal bases. While DNA glycosylases in the BER pathway generally bend the DNA and flip damaged bases into lesion specific pockets, the HEAT-like repeat DNA glycosylase AlkD detects and excises bases without sequestering the base from the DNA helix. We show by single-molecule tracking experiments that AlkD scans DNA without forming a stable interrogation complex.