DNA binding and transposition activity of the Sleeping Beauty transposase: role of structural stability of the primary DNA-binding domain.

DNA transposons have emerged as promising tools in both gene therapy and functional genomics. In particular, the Sleeping Beauty (SB) DNA transposon has advanced into clinical trials due to its ability to stably integrate DNA sequences of choice into eukaryotic genomes. The efficiency of the DNA transposon system depends on the interaction between the transposon DNA and the transposase enzyme that facilitates gene transfer.

Translational Diffusion and Self-Association of an Intrinsically Disordered Protein κ-Casein Using NMR with Ultra-High Pulsed-Field Gradient and Time-Resolved FRET.

Much attention has been given to studying the translational diffusion of globular proteins, whereas the translational diffusion of intrinsically disordered proteins (IDPs) is less studied. In this study, we investigate the translational diffusion and how it is affected by the self-association of an IDP, κ-casein, using pulsed-field gradient nuclear magnetic resonance and time-resolved Förster resonance energy transfer. Using the analysis of the shape of diffusion attenuation and the concentration dependence of κ-casein diffusion coefficients and intermolecular interactions, we demonstrate that κ-casein exhibits continuous self-association.

Heterodimers Are an Integral Component of Chemokine Signaling Repertoire.

Chemokines are a family of signaling proteins that play a crucial role in cell-cell communication, cell migration, and cell trafficking, particularly leukocytes, under both normal and pathological conditions. The oligomerization state of chemokines influences their biological activity. The heterooligomerization occurs when multiple chemokines spatially and temporally co-localize, and it can significantly affect cellular responses.

A new obligate CXCL4-CXCL12 heterodimer for studying chemokine heterodimer activities and mechanisms.

Chemokines form a family of proteins with critical roles in many biological processes in health and disease conditions, including cardiovascular, autoimmune diseases, infections, and cancer. Many chemokines engage in heterophilic interactions to form heterodimers, leading to synergistic activity enhancement or reduction dependent on the nature of heterodimer-forming chemokines. In mixtures, different chemokine species with diverse activities coexist in dynamic equilibrium, leading to the observation of their combined response in biological assays.

Structure, dynamics, and function of PsDef2 defensin from Pinus sylvestris.

Plant defensins demonstrate high structural stability at extreme temperatures and pH values and, in general, are non-toxic to mammalian cells. These properties make them attractive candidates for use in biotechnology and biomedicine. Knowing the structure-function relationship is desirable to guide the design of plant defensin-based applications.