Elucidation of GPR55-Associated Signaling behind THC and LPI Reducing Effects on Ki67-Immunoreactive Nuclei in Patient-Derived Glioblastoma Cells.

GPR55 is involved in many physiological and pathological processes. In cancer, GPR55 has been described to show accelerating and decelerating effects in tumor progression resulting from distinct intracellular signaling pathways. GPR55 becomes activated by LPI and various plant-derived, endogenous, and synthetic cannabinoids.

Exogenous and endogenous dsRNAs perceived by plant Dicer-like 4 protein in the RNAi-depleted cellular context.

Background: In plants, RNase III Dicer-like proteins (DCLs) act as sensors of dsRNAs and process them into short 21- to 24-nucleotide (nt) (s)RNAs. Plant DCL4 is involved in the biogenesis of either functional endogenous or exogenous (i.e.

RNA and Protein Determinants Mediate Differential Binding of miRNAs by a Viral Suppressor of RNA Silencing Thus Modulating Antiviral Immune Responses in Plants.

Many plant viruses express suppressor proteins (VSRs) that can inhibit RNA silencing, a central component of antiviral plant immunity. The most common activity of VSRs is the high-affinity binding of virus-derived siRNAs and thus their sequestration from the silencing process. Since siRNAs share large homologies with miRNAs, VSRs like the p19 may also bind miRNAs and in this way modulate cellular gene expression at the post-transcriptional level.

Alternatively spliced isoforms of AUF1 regulate a miRNA-mRNA interaction differentially through their YGG motif.

Proper base-pairing of a miRNA with its target mRNA is a key step in miRNA-mediated mRNA repression. RNA remodelling by RNA-binding proteins (RBPs) can improve access of miRNAs to their target mRNAs. The largest isoform p45 of the RBP AUF1 has previously been shown to remodel viral or AU-rich RNA elements.

Real-Time Fluorescence-Based Approaches to Disentangle Mechanisms of a Protein's RNA Chaperone Activity.

RNA-binding proteins with an RNA chaperone activity exert either one or both of the following catalytic activities: (1) RNA annealing, i.e., the protein supports intra- as well as intermolecular RNA-RNA interactions and (2) strand displacement, i.

The iron-sulfur-containing HypC-HypD scaffold complex of the [NiFe]-hydrogenase maturation machinery is an ATPase.

HypD and HypC, or its paralogue HybG in Escherichia coli, form the core of the scaffold complex that synthesizes the Fe(CN) CO component of the bimetallic NiFe-cofactor of [NiFe]-hydrogenase. We show here that purified HypC-HypD and HybG-HypD complexes catalyse hydrolysis of ATP to ADP (k  ≅ 0.85·s ); the ATPase activity of the individual proteins was between 5- and 10-fold lower than that of the complex.

The RGG/RG motif of AUF1 isoform p45 is a key modulator of the protein's RNA chaperone and RNA annealing activities.

The RNA-binding protein AUF1 regulates post-transcriptional gene expression by affecting the steady state and translation levels of numerous target RNAs. Remodeling of RNA structures by the largest isoform AUF1 p45 was recently demonstrated in the context of replicating RNA viruses, and involves two RNA remodeling activities, i.e.

Molecular Details of Retinal Guanylyl Cyclase 1/GCAP-2 Interaction.

The rod outer segment guanylyl cyclase 1 (ROS-GC1) is an essential component of photo-transduction in the retina. In the light-induced signal cascade, membrane-bound ROS-GC1 restores cGMP levels in the dark in a calcium-dependent manner. With decreasing calcium concentration in the intracellular compartment, ROS-GC1 is activated via the intracellular site by guanylyl cyclase-activating proteins (GCAP-1/-2).

A Viral Suppressor Modulates the Plant Immune Response Early in Infection by Regulating MicroRNA Activity.

Many viral suppressors (VSRs) counteract antiviral RNA silencing, a central component of the plant's immune response by sequestration of virus-derived antiviral small interfering RNAs (siRNAs). Here, we addressed how VSRs affect the activities of cellular microRNAs (miRNAs) during a viral infection by characterizing the interactions of two unrelated VSRs, the p19 and the 2b, with miRNA 162 (miR162), miR168, and miR403. These miRNAs regulate the expression of the important silencing factors Dicer-like protein 1 (DCL1) and Argonaute proteins 1 and 2 (AGO1 and AGO2), respectively.

The Host Factor AUF1 p45 Supports Flavivirus Propagation by Triggering the RNA Switch Required for Viral Genome Cyclization.

In previous studies, we showed that the cellular RNA-binding protein AUF1 supports the replication process of the flavivirus West Nile virus. Here we demonstrate that the protein also enables effective proliferation of dengue virus and Zika virus, indicating that AUF1 is a general flavivirus host factor. Further studies demonstrated that the AUF1 isoform p45 significantly stimulates the initiation of viral RNA replication and that the protein's RNA chaperone activity enhances the interactions of the viral 5'UAR and 3'UAR genome cyclization sequences.

MAPKs Influence Pollen Tube Growth by Controlling the Formation of Phosphatidylinositol 4,5-Bisphosphate in an Apical Plasma Membrane Domain.

An apical plasma membrane domain enriched in the regulatory phospholipid phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P] is critical for polar tip growth of pollen tubes. How the biosynthesis of PtdIns(4,5)P by phosphatidylinositol 4-phosphate 5-kinases (PI4P 5-kinases) is controlled by upstream signaling is currently unknown. The pollen-expressed PI4P 5-kinase PIP5K6 is required for clathrin-mediated endocytosis and polar tip growth in pollen tubes.

NF90-NF45 is a selective RNA chaperone that rearranges viral and cellular riboswitches: biochemical analysis of a virus host factor activity.

The heterodimer NF90-NF45 is an RNA-binding protein complex that modulates the expression of various cellular mRNAs on the post-transcriptional level. Furthermore, it acts as a host factor that supports the replication of several RNA viruses. The molecular mechanisms underlying these activities have yet to be elucidated.

The properties of the RNA-binding protein NF90 are considerably modulated by complex formation with NF45.

Nuclear factor 90 (NF90) is an RNA-binding protein (RBP) that regulates post-transcriptionally the expression of various mRNAs. NF90 was recently shown to be capable of discriminating between different RNA substrates. This is mediated by an adaptive and co-operative interplay between three RNA-binding motifs (RBMs) in the protein's C-terminus.

The MarR-Type Regulator Rdh2R Regulates rdh Gene Transcription in Dehalococcoides mccartyi Strain CBDB1.

Unlabelled: Reductive dehalogenases are essential enzymes in organohalide respiration and consist of a catalytic subunit A and a membrane protein B, encoded by rdhAB genes. Thirty-two rdhAB genes exist in the genome of Dehalococcoides mccartyi strain CBDB1. To gain a first insight into the regulation of rdh operons, the control of gene expression of two rdhAB genes (cbdbA1453/cbdbA1452 and cbdbA1455/cbdbA1454) by the MarR-type regulator Rdh2R (cbdbA1456) encoded directly upstream was studied using heterologous expression and in vitro studies.

Arginine methylation enhances the RNA chaperone activity of the West Nile virus host factor AUF1 p45.

A prerequisite for the intracellular replication process of the Flavivirus West Nile virus (WNV) is the cyclization of the viral RNA genome, which enables the viral replicase to initiate RNA synthesis. Our earlier studies indicated that the p45 isoform of the cellular AU-rich element binding protein 1 (AUF1) has an RNA chaperone activity, which supports RNA cyclization and viral RNA synthesis by destabilizing a stem structure at the WNV RNA's 3'-end. Here we show that in mammalian cells, AUF1 p45 is consistently modified by arginine methylation of its C terminus.

Stabilization of the thermolabile variant S113L of carnitine palmitoyltransferase II.

Objective: Muscle carnitine palmitoyltransferase (CPT) II deficiency, the most common defect of lipid metabolism in muscle, is characterized by attacks of myoglobinuria without persistent muscle weakness.

Methods: His6-N-hCPT2 (wild-type) and His6-N-hCPT2/S113L (variant) were produced recombinantly in prokaryotic host and characterized according to their functional and regulatory properties.

Results: The wild-type and the variant S113L showed the same enzymatic activity and thermostability at 30°C.

Coordinated Action of Two Double-Stranded RNA Binding Motifs and an RGG Motif Enables Nuclear Factor 90 To Flexibly Target Different RNA Substrates.

The mechanisms of how RNA binding proteins (RBP) bind to and distinguish different RNA molecules are yet uncertain. Here, we performed a comprehensive analysis of the RNA binding properties of multidomain RBP nuclear factor 90 (NF90) by investigating specifically the functional activities of two double-stranded RNA binding motifs (dsRBM) and an RGG motif in the protein's unstructured C-terminus. By comparison of the RNA binding affinities of several NF90 variants and their modes of binding to a set of defined RNA molecules, the activities of the motifs turned out to be very different.

Malony-CoA inhibits the S113L variant of carnitine-palmitoyltransferase II.

Carnitine palmitoyltransferases (CPT), located both in the outer (CPT I) and inner membrane (CPT II) of mitochondria, are the key players for an efficient transport of long chain fatty acids into this cell compartment. The metabolite malonyl-CoA is known to inhibit CPT I, but not CPT II. His6-N-hCPT2 (wild type) and His6-N-hCPT2/ S113L (variant) were produced recombinantly in prokaryotic host, purified and characterized according to their functional and regulatory properties.

Conformational stability of the RNP domain controls fibril formation of PABPN1.

The disease oculopharyngeal muscular dystrophy is caused by alanine codon trinucleotide expansions in the N-terminal segment of the nuclear poly(A) binding protein PABPN1. As histochemical features of the disease, intranuclear inclusions of PABPN1 have been reported. Whereas the purified N-terminal domain of PABPN1 forms fibrils in an alanine-dependent way, fibril formation of the full-length protein occurs also in the absence of alanines.

Initiation of RNA synthesis by the hepatitis C virus RNA-dependent RNA polymerase is affected by the structure of the RNA template.

The hepatitis C virus (HCV) RNA-dependent RNA polymerase NS5B is a central enzyme of the intracellular replication of the viral (+)RNA genome. Here, we studied the individual steps of NS5B-catalyzed RNA synthesis by a combination of biophysical methods, including real-time 1D (1)H NMR spectroscopy. NS5B was found to bind to a nonstructured and a structured RNA template in different modes.

Mapping cell envelope and periplasm protein interactions of Escherichia coli respiratory formate dehydrogenases by chemical cross-linking and mass spectrometry.

During anaerobic growth Escherichia coli synthesizes two large, highly homologous respiratory formate dehydrogenases (Fdh's), Fdh-N and Fdh-O, which are associated with the inner membrane but have their respective active site located within the periplasm. The Fdh-N enzyme extends 90 Å into the periplasmic compartment, which in E. coli ranges between 100 and 150 Å from the inner to the outer membrane leaflet.

AUF1 p45 promotes West Nile virus replication by an RNA chaperone activity that supports cyclization of the viral genome.

Unlabelled: A central aspect of current virology is to define the function of cellular proteins (host factors) that support the viral multiplication process. This study aimed at characterizing cellular proteins that assist the RNA replication process of the prevalent human pathogen West Nile virus (WNV). Using in vitro and cell-based approaches, we defined the p45 isoform of AU-rich element RNA-binding protein 1 (AUF1) as a host factor that enables efficient WNV replication.

An ancient oxidoreductase making differential use of its cofactors.

Abstract Many transcription factors contribute to cellular homeostasis by integrating multiple signals. Signaling via the yeast Gal80 protein, a negative regulator of the prototypic transcription activator Gal4, is primarily regulated by galactose. ScGal80 from Saccharomyces cerevisiae has been reported to bind NAD(P).

Lanthanides as substitutes for calcium ions in the activation of plant α-type phospholipase D.

Most types of phospholipase D (PLD) from plants contain a C2 domain and are activated by Ca(2+) ions. In this study, other metal ions such as Mg(2+), La(3+), Ce(3+), Tb(3+) and Y(3+) were examined as effectors of recombinantly produced α-type PLD from white cabbage. All the rare earth ions were able to substitute for Ca(2+).