Nucleic Acids Res

The HIV-1 transactivator of transcription (Tat) protein is thought to stimulate reverse transcription (RTion). The Tat protein and, more specifically, its (44-61) domain were recently shown to promote the annealing of complementary DNA sequences representing the HIV-1 transactivation response element TAR, named dTAR and cTAR, that plays a key role in RTion. Moreover, the kinetic mechanism of the basic Tat(44-61) peptide in this annealing further revealed that this peptide constitutes a representative nucleic acid annealer. To further understand the structure-activity relationships of this highly conserved domain, we investigated by electrophoresis and fluorescence approaches the binding and annealing properties of various Tat(44-61) mutants. Our data showed that the Tyr47 and basic residues of the Tat(44-61) domain were instrumental for binding to cTAR through stacking and electrostatic interactions, respectively, and promoting its annealing with dTAR. Furthermore, the annealing efficiency of the mutants clearly correlates with their ability to rapidly associate and dissociate the complementary oligonucleotides and to promote RTion. Thus, transient and dynamic nucleic acid interactions likely constitute a key mechanistic component of annealers and the role of Tat in the late steps of RTion. Finally, our data suggest that Lys50 and Lys51 acetylation regulates Tat activity in RTion

Coronary microvascular resistance: methods for its quantification in humans

Coronary microvascular dysfunction is a topic that has recently gained considerable interest in the medical community owing to the growing awareness that microvascular dysfunction occurs in a number of myocardial disease states and has important prognostic implications. With this growing awareness, comes the desire to accurately assess the functional capacity of the coronary microcirculation for diagnostic purposes as well as to monitor the effects of therapeutic interventions that are targeted at reversing the extent of coronary microvascular dysfunction. Measurements of coronary microvascular resistance play a pivotal role in achieving that goal and several invasive and noninvasive methods have been developed for its quantification. This review is intended to provide an update pertaining to the methodology of these different imaging techniques, including the discussion of their strengths and weaknesses

Out-of-equilibrium biomolecular interactions monitored by picosecond fluorescence in microfluidic droplets

We developed a new experimental approach combining Time-Resolved Fluorescence (TRF) spectroscopy and Droplet Microfluidics (D[small mu ]F) to investigate the relaxation dynamics of structurally heterogeneous biomolecular systems. Here D[small mu ]F was used to produce with minimal material consumption an out-of-equilibrium, fluorescently labeled biomolecular complex by rapid mixing within the droplets. TRF detection was implemented with a streak camera to monitor the time evolution of the structural heterogeneity of the complex along its relaxation towards equilibrium while it propagates inside the microfluidic channel. The approach was validated by investigating the fluorescence decay kinetics of a model interacting system of bovine serum albumin and Patent Blue V. Fluorescence decay kinetics are acquired with very good signal-to-noise ratio and allow for global, multicomponent fluorescence decay analysis, evidencing heterogeneous structural relaxation over several 100 ms

J Biol Chem

The antithrombin (AT) binding properties of heparin and low molecular weight heparins are strongly associated to the presence of the pentasaccharide sequence AGA*IA (ANAc,6S-GlcUA-ANS,3,6S-I2S-ANS,6S). By using the highly chemoselective depolymerization to prepare new ultra low molecular weight heparin and coupling it with the original separation techniques, it was possible to isolate a polysaccharide with a biosynthetically unexpected structure and excellent antithrombotic properties. It consisted of a dodecasaccharide containing an unsaturated uronate unit at the nonreducing end and two contiguous AT-binding sequences separated by a nonsulfated iduronate residue. This novel oligosaccharide was characterized by NMR spectroscopy, and its binding with AT was determined by fluorescence titration, NMR, and LC-MS. The dodecasaccharide displayed a significantly increased anti-FXa activity compared with those of the pentasaccharide, fondaparinux, and low molecular weight heparin enoxaparin

Characterization of the mechanisms of HIV-1 Vpr(52-96) internalization in cells

Addition of Vpr C-terminus to various cell types provokes cell apoptosis. This property was recently shown useful to develop inhibitors of cell proliferation. In that context, we investigated the cellular uptake of rhodamine- and fluorescein-labeled Vpr(52–96) peptides to understand the mechanism of Vpr C-terminus entry into cells. Dynamic light scattering data indicated that this peptide spontaneously formed polydispersed aggregates in cell culture medium. The fluorescently labeled Vpr(52–96) peptide was efficiently internalized, appearing either as large fluorescent patches in the cytoplasm or in a more diffuse form throughout the cell. Using isothermal titration calorimetry, we demonstrated that Vpr(52–96) can tightly associate with heparin, a glycosaminoglycan analog of heparan sulphate, suggesting a central role of the ubiquitous cell surface-associated heparan sulphate proteoglycans for the internalization of Vpr C-terminus. Fluorescently-labeled transferrin and methyl-β-cyclodextrin showed that the Vpr C-terminus was mediated through clathrin- and caveolae/raft-dependent endocytosis. We found that Vpr C-terminus uptake was partly blocked at 4 °C suggesting the importance of membrane fluidity for Vpr C-terminus entry. In fact, atomic force microscopy and liposome leakage further indicated that the Vpr peptide can destabilize and disrupt model membrane bilayers, suggesting that this mechanism may contribute to the passive entry of the peptide. Finally, using fluorescence lifetime imaging, we found that the Vpr(52–96) peptide was stable in cells for at least 48 h, probably as a consequence of the poor accessibility of the peptide to proteolytic enzymes in aggregates

La méthode IDEA indicateurs de durabilité des exploitations agricoles. Guide d'utilisation

National audienc

Dynamics of Methylated Cytosine Flipping by UHRF1

DNA methylation patterns, which are critical for gene expression, are replicated by DNA methyltransferase 1 (DNMT1) and ubiquitin-like containing PHD and RING finger domains 1 (UHRF1) proteins. This replication is initiated by the recognition of hemimethylated CpG sites and further flipping of methylated cytosines (mC) by the Set and Ring Associated (SRA) domain of UHRF1. Although crystallography has shed light on the mechanism of mC flipping by SRA, tools are required to monitor in real time how SRA reads DNA and flips the modified nucleobase. To accomplish this aim, we have utilized two distinct fluorescent nucleobase surrogates, 2-thienyl-3-hydroxychromone nucleoside (3HCnt) and thienoguanosine ((th)G), incorporated at different positions into hemimethylated (HM) and nonmethylated (NM) DNA duplexes. Large fluorescence changes were associated with mC flipping in HM duplexes, showing the outstanding sensitivity of both nucleobase surrogates to the small structural changes accompanying base flipping. Importantly, the nucleobase surrogates marginally affected the structure of the duplex and its affinity for SRA at positions where they were responsive to base flipping, illustrating their promise as nonperturbing probes for monitoring such events. Stopped-flow studies using these two distinct tools revealed the fast kinetics of SRA binding and sliding to NM duplexes, consistent with its reader role. In contrast, the kinetics of mC flipping was found to be much slower in HM duplexes, substantially increasing the lifetime of CpG-bound UHRF1, and thus the probability of recruiting DNMT1 to faithfully duplicate the DNA methylation profile. The fluorescence-based approach using these two different fluorescent nucleoside surrogates advances the mechanistic understanding of the UHRF1/DNMT1 tandem and the development of assays for the identification of base flipping inhibitors

La méthode IDEA indicateurs de durabilité des exploitations agricoles. Guide d'utilisation

National audienc