L1-ORF1p nucleoprotein can rapidly assume distinct conformations and simultaneously bind more than one nucleic acid.

LINE-1 (L1) is a parasitic retrotransposable DNA element, active in primates for the last 80-120 Myr. L1 has generated nearly one-third of the human genome by copying its transcripts, and those of other genetic elements (e.g.

Detecting the lncRNA in Ovarian Cancer with Cyclopentane-Modified FIT-PNAs (cpFIT-PNAs).

Ovarian cancer (OC) is one of the most lethal gynecologic cancers that is typically diagnosed at the very late stage of disease progression. Thus, there is an unmet need to develop diagnostic probes for early detection of OC. One approach may rely on RNA as a molecular biomarker.

A novel function of the M muscarinic receptor.

The M muscarinic receptor (M2R) is a prototypic class A G protein-coupled receptor (GPCR). Interestingly, Fasciani et al. recently identified an internal translation start site within the M receptor mRNA, directing the expression of a C-terminal receptor fragment.

A Biotinylated cpFIT-PNA Platform for the Facile Detection of Drug Resistance to Artemisinin in .

The evolution of drug resistance to many antimalarial drugs in the lethal strain of malaria () has been a great concern over the past 50 years. Among these drugs, artemisinin has become less effective for treating malaria. Indeed, several variants have become resistant to this drug, as elucidated by specific mutations in the pfK13 gene.

Prodrug Strategy Extends the Use of Anti-HIV Sulfanylbenzamides for Application .

Sulfanylbenzamide thioesters are molecules with anti-HIV activity that disrupt zinc coordination in the viral protein NCp7. These molecules are useful as topical microbicides; however, they are too unstable to be used systemically. In this article, a nitroimidazole prodrug was used to protect the sulfanylbenzamide to convey blood stability and oral bioavailability to the molecule.

Correction: Cyclopentane FIT-PNAs: bright RNA sensors.

Correction for 'Cyclopentane FIT-PNAs: bright RNA sensors' by Odelia Tepper , , 2021, , 540-543, https://doi.org/10.1039/D0CC07400D.

Variation of Tetrahydrofurans in Thyclotides Enhances Oligonucleotide Binding and Cellular Uptake of Peptide Nucleic Acids.

Selective incorporation of conformational constraints into thyclotides can be used to modulate their binding to complementary oligonucleotides, increase polarity, and optimize uptake into HCT116 cells without assistance from moieties known to promote cell uptake. The X-ray structure and biophysical studies of a thyclotide-DNA duplex reveal that incorporation of tetrahydrofurans into an PNA backbone promotes a helical conformation that enhances binding to complementary DNA and RNA. Selective incorporation of tetrahydrofurans into the PNA backbone allows polarity to be increased incrementally so that uptake into HCT116 cells can be optimized.

Altered Signaling and Desensitization Responses in PTH1R Mutants Associated with Eiken Syndrome.

The parathyroid hormone receptor type 1 (PTH1R) is a G protein-coupled receptor that plays key roles in regulating calcium homeostasis and skeletal development via binding the ligands, PTH and PTH-related protein (PTHrP), respectively. Eiken syndrome is a rare disease of delayed bone mineralization caused by homozygous PTH1R mutations. Of the three mutations identified so far, R485X, truncates the PTH1R C-terminal tail, while E35K and Y134S alter residues in the receptor's amino-terminal extracellular domain.

The third intracellular loop of GPCRs: size matters.

The third intracellular loop of G-protein-coupled receptors (GPCRs) shows remarkable diversity in sequence and overall length. Sadler and colleagues recently demonstrated that this domain acts as an 'autoregulator' of receptor activity and that its length contributes to receptor/G-protein coupling selectivity. These observations may prove useful for developing novel therapeutics.

Properties of Configurationally Stable Atropoenantiomers in Macrocyclic Natural Products and the Chrysophaentin Family.

development of antibiotics, antineoplastics, and therapeutics for other diseases. Natural products are unique among all other small molecules in that they are produced by dedicated enzymatic assembly lines that are the protein products of biosynthetic gene clusters. As the products of chiral macromolecules, natural products have distinct three-dimensional shapes and stereochemistry is often encoded in their structures through the presence of stereocenters, or in the case of molecules that lack a stereocenter, the presence of an axis or plane of chirality.

In vivo metabolic effects after acute activation of skeletal muscle G signaling.

Objective: The goal of this study was to determine the glucometabolic effects of acute activation of G signaling in skeletal muscle (SKM) in vivo and its contribution to whole-body glucose homeostasis.

Methods: To address this question, we studied mice that express a G-coupled designer G protein-coupled receptor (Gs-DREADD or GsD) selectively in skeletal muscle. We also identified two G-coupled GPCRs that are endogenously expressed by SKM at relatively high levels (β-adrenergic receptor and CRF receptor) and studied the acute metabolic effects of activating these receptors in vivo by highly selective agonists (clenbuterol and urocortin 2 (UCN2), respectively).

The Alpha Keto Amide Moiety as a Privileged Motif in Medicinal Chemistry: Current Insights and Emerging Opportunities.

Over the years, researchers in drug discovery have taken advantage of the use of privileged structures to design innovative hit/lead molecules. The α-ketoamide motif is found in many natural products, and it has been widely exploited by medicinal chemists to develop compounds tailored to a vast range of biological targets, thus presenting clinical potential for a plethora of pathological conditions. The purpose of this perspective is to provide insights into the versatility of this chemical moiety as a privileged structure in drug discovery.

Conformational constraints of cyclopentane peptide nucleic acids facilitate tunable binding to DNA.

We report a series of synthetic, nucleic acid mimics with highly customizable thermodynamic binding to DNA. Incorporation of helix-promoting cyclopentanes into peptide nucleic acids (PNAs) increases the melting temperatures (Tm) of PNA+DNA duplexes by approximately +5°C per cyclopentane. Sequential addition of cyclopentanes allows the Tm of PNA + DNA duplexes to be systematically fine-tuned from +5 to +50°C compared with the unmodified PNA.

An update into the medicinal chemistry of translocator protein (TSPO) ligands.

The Translocator Protein 18 kDa (TSPO) has been discovered in 1977 as an alternative binding site for the benzodiazepine diazepam. It is an evolutionary well-conserved and tryptophan-rich 169-amino acids protein with five alpha helical transmembrane domains stretching the outer mitochondrial membrane, with the carboxyl-terminus in the cytosol and a short amino-terminus in the intermembrane space of mitochondrion. At this level, together with the voltage-dependent anion channel (VDAC) and the adenine nucleotide translocase (ANT), it forms the mitochondrial permeability transition pore (MPTP).

Multiple Topoisomerase I (TopoI), Topoisomerase II (TopoII) and Tyrosyl-DNA Phosphodiesterase (TDP) inhibitors in the development of anticancer drugs.

DNA Topoisomerases (Topos) are ubiquitous nuclear enzymes involved in regulating the topological state of DNA and, in eukaryotic organisms, Topos can be classified into two structurally and functionally different main classes: TopoI and TopoII. Both these enzymes proved to be excellent targets of clinically significant classes of anticancer drugs. Actually, TopoI or II inhibitors show considerable wide spectrum antitumor activities, an important feature to be included in many chemotherapeutic protocols.

A cellular handbook for collided ribosomes: surveillance pathways and collision types.

Translating ribosomes slow down or completely stall when they encounter obstacles on mRNAs. Such events can lead to ribosomes colliding with each other and forming complexes of two (disome), three (trisome) or more ribosomes. While these events can activate surveillance pathways, it has been unclear if collisions are common on endogenous mRNAs and whether they are usually detected by these cellular pathways.

Small Molecules Targeting H3K9 Methylation Prevent Silencing of Reactivated Alleles in Fragile X Syndrome Patient Derived Cells.

In fragile X syndrome (FXS), expansion of a CGG repeat tract in the 5'-untranslated region of the gene to >200 repeats causes transcriptional silencing by inducing heterochromatin formation. Understanding the mechanism of silencing is important as gene reactivation is a potential treatment approach for FXS. To date, only the DNA demethylating drug 5-azadeoxycytidine (AZA) has proved effective at gene reactivation; however, this drug is toxic.

The structure-activity profile of mercaptobenzamides' anti-HIV activity suggests that thermodynamics of metabolism is more important than binding affinity to the target.

Mercaptobenzamide thioesters and thioethers are chemically simple HIV-1 maturation inhibitors with a unique mechanism of action, low toxicity, and a high barrier to viral resistance. A structure-activity relationship (SAR) profile based on 39 mercaptobenzamide prodrug analogs exposed divergent activity/toxicity roles for the internal and terminal amides. To probe the relationship between antiviral activity and toxicity, we generated an improved computational model for the binding of mercaptobenzamide thioesters (SAMTs) to the HIV-1 NCp7 C-terminal zinc finger, revealing the presence of a second low-energy binding orientation, hitherto undisclosed.

Synthesis of glycocluster-containing conjugates for a vaccine against cholera.

Glycoclusters displaying synthetic fragments of the O-specific polysaccharide (OSP) of Vibrio cholerae O1 serotype Inaba on a carbohydrate platform were prepared by Cu(i)-catalysed azide alkyne cycloaddition (CuAAC, click chemistry). The clusters were subsequently conjugated to BSA via squaric acid chemistry. Their immunoreactivity was compared with those of similar conventional conjugates, i.

Synthesis of Fmoc-Protected ( S, S)- trans-Cyclopentane Diamine Monomers Enables the Preparation and Study of Conformationally Restricted Peptide Nucleic Acids.

An efficient synthesis of Fmoc-protected ( S, S)- trans-cyclopentane PNA ( tcypPNA) monomers starting from mono-Boc-protected ( S, S)-1,2-cyclopentanediamine is reported. A general synthetic strategy was developed so that tcypPNA monomers with each nucleobase can be made in sufficient quantity and purity for use in solid-phase peptide synthesis (SPPS). The newly synthesized monomers were then successfully incorporated into 10-residue PNA oligomers using standard Fmoc chemistry for SPPS.

Novel fluorescent triazinobenzimidazole derivatives as probes for labelling human A and A adenosine receptor subtypes.

The expression levels and the subcellular localization of adenosine receptors (ARs) are affected in several pathological conditions as a consequence of changes in adenosine release and metabolism. In this respect, labelled probes able to monitor the AR expression could be a useful tool to investigate different pathological conditions. Herein, novel ligands for ARs, bearing the fluorescent 7-nitrobenzofurazan (NBD) group linked to the N (1,2) or N (3,4) nitrogen of a triazinobenzimidazole scaffold, were synthesized.

Genetics is the logic of life (at least of mine).

I retrace my path from math to medicine to biochemistry to yeast genetics, my focus on infectious diseases of yeast and finally prions. My discovery of yeast prions relied on my particular focus on the logical relations of non-chromosomal genetic elements and the chromosomal genes involved in their propagation and expression. Pursuing an understanding of yeast prions involved structural biology based on genetics, solid-state NMR, population genetics and more genetics.

Argonaute-miRNA Complexes Silence Target mRNAs in the Nucleus of Mammalian Stem Cells.

In mammals, gene silencing by the RNA-induced silencing complex (RISC) is a well-understood cytoplasmic posttranscriptional gene regulatory mechanism. Here, we show that embryonic stem cells (ESCs) contain high levels of nuclear AGO proteins and that in ESCs nuclear AGO protein activity allows for the onset of differentiation. In the nucleus, AGO proteins interact with core RISC components, including the TNRC6 proteins and the CCR4-NOT deadenylase complex.

Reaction Kinetics Direct a Rational Synthesis of an HIV-1 Inactivator of Nucleocapsid Protein 7 and Provide Mechanistic Insight into Cellular Metabolism and Antiviral Activity.

Mercaptobenzamide thioester SAMT-247 is a non-toxic, mutation-resistant HIV-1 maturation inhibitor with a unique mechanism of antiviral activity. NMR spectroscopic analyses of model reactions that mimic the cellular environment answered fundamental questions about the antiviral mechanism and inspired a high-yielding (64 % overall), scalable (75 mmol), and cost-effective ($4 mmol ) three-step synthesis that will enable additional preclinical evaluation.