Fluorescence based metabisulfite sensing: New aspects of ion sensing by a styryl benzothiazolium dye and understanding nitrite interference.

Detection of specific ions using fluorescent probes has relevance in several areas of therapeutics development and environmental science. Here, we provide new perspectives to the sensing of a styryl benzothiazolium-based fluorescent compound 1 and report that sensing properties are for sulfite ions in general with highest preference for metabisulfite ions (SO) adding to its previously determined role as a bisulfite ion sensor. This probe exhibits its sensing action via an addition reaction in which the styryl double bond gets reduced.

Enhanced Sequence-Specific DNA Recognition Using Oligodeoxynucleotide-Benzimidazole Conjugates.

Synthetic modification of oligodeoxynucleotides (ODNs) via conjugation to nucleic acid binding small molecules can improve hybridization and pharmacokinetic properties. In the present study, five Hoechst 33258 derived benzimidazoles were conjugated to T rich ODNs and their hybridization effectiveness was tested. Thermal denaturation studies revealed significant stabilization of complementary duplexes by ODN-benzimidazole conjugates, with the extent of stabilization being highly dependent on the length of the linker between DNA and benzimidazole.

Nile Blue: A Red-Emissive Fluorescent Dye That Displays Differential Self-Assembly and Binding to G-Quadruplexes.

Nile Blue (NB) is a red-emissive dye that is well-known for imaging and staining applications. In this work, we describe the interaction of NB with various types of G-quadruplexes belonging to different topologies, molecularities, and conformations. Using spectroscopic techniques, we have determined the preferential binding of NB to G-quadruplex and the other aspects of its binding.

Preferential Binding of a Red Emissive Julolidine Derivative to a Promoter G-Quadruplex.

The therapeutic potential of G-quadruplexes has increased significantly with the growing understanding of their functional roles in pathogens apart from human diseases such as cancer. Here, we report the synthesis of three julolidine-based molecules and their binding to nucleic acids. Among the synthesized molecules, compound 1 exhibited red emissive fluorescence with a distinct preference for Pu22 G-quadruplex.

Parallel G-quadruplex recognition by neomycin.

G-quadruplex-forming nucleic acids have evolved to have applications in biology, drug design, sensing, and nanotechnology, to name a few. Together with the structural understanding, several attempts have been made to discover and design new classes of chemical agents that target these structures in the hope of using them as future therapeutics. Here, we report the binding of aminoglycosides, in particular neomycin, to parallel G-quadruplexes that exist as G-quadruplex monomers, dimers, or compounds that have the propensity to form dimeric G-quadruplex structures.

Effect of the Standardized ZnO/ZnO-GO Filter Element Substrate driven Advanced Oxidation Process on Textile Industry Effluent Stream: Detailed Analysis of Photocatalytic Degradation Kinetics.

A simple process of synthesizing coated filter element substrates (FES) containing zinc oxide (ZnO) nanorods and ZnO graphene-oxide nanocomposite for a pilot-scale industrial dye-effluent treatment plant is proposed. This work reports a detailed analysis of the photocatalysis mechanism on real industrial effluent streams containing a mixture of dyes. The analysis is very relevant for conducting advanced oxidation process-assisted effluent remediation at a field-level treatment operation.

Promoter G-Quadruplex Binding Styryl Benzothiazolium Derivative for Applications in Ligand Affinity Ranking and as Ethidium Bromide Substitute in Gel Staining.

Fluorescent compounds that can preferentially interact with certain nucleic acids are of great importance in new drug discovery in a multitude of functions including fluorescence-based displacement assays and gel staining. Here, we report the discovery of an orange emissive styryl-benzothiazolium derivative (compound ) which interacts preferentially with 22 G-quadruplex DNA among a pool of nucleic acid structures containing G-quadruplex, duplex, and single-stranded DNA structures as well as RNA structures. Fluorescence-based binding analysis revealed that compound interacts with 22 G-quadruplex DNA in a 1:1 DNA to ligand binding stoichiometry.

Highly Selective and Sensitive Detection of Nitrite Ion by an Unusual Nitration of a Fluorescent Benzimidazole.

Nitrite (NO) is a physiologically significant anion having implications for cellular signaling. Here we report our serendipitous discovery of highly selective fluorescence-based nitrite sensing using a benzimidazole which stems from hitherto-unknown direct nitration of a benzimidazole using sodium nitrite. Using one- and two-dimensional NMR techniques, we elucidate the chemical structures of the new nitrated benzimidazoles and show differences in the nitration products using conventional nitration with nitric acid.

Fragment-Based Design of Small Molecules to Study DNA Minor Groove Recognition.

DNA-protein interactions are ubiquitous in cellular processes. Impeding unwanted nucleic acid interactions and protein recognition have therapeutic implications. Therefore, new chemical scaffolds and studies related to their structural basis of nucleic acid recognition are essential for developing high-affinity DNA binders.

Preferential Recognition of Human Telomeric G-Quadruplex DNA by a Red-Emissive Molecular Rotor.

The development of new fluorescent molecules for the recognition of specific G-quadruplex DNA structures has attracted wide attention due to their diverse roles in drug design, sensing, and cellular probing. In this work, we report the discovery of a red-emissive styryl quinolinium-based molecular rotor (compound ), which recognizes human telomeric G-quadruplex with a distinct preference over DNA duplexes. Optical spectroscopy (UV-vis and circular dichroism)-based experiments indicated discernible interaction of compound with the human telomeric DNA G-quadruplex with features of stacking interactions.

Oxidation state of graphene oxide nanosheets drives their interaction with proteins: A case of bovine serum albumin.

In the present study, we explored the interaction of bovine serum albumin (BSA) with oxidized graphene oxide (GO) nanosheets. Nanosheets, synthesized with 4, 6, 8, 10 and 12 wt equivalents of KMnO as oxidant, were coded as GO-4, GO-6, GO-8, GO-10 and GO-12, respectively. After incubating sheets with a fixed concentration of BSA at room temperature, interactions were monitored with time.

Fine-tuning miR-21 expression and inhibition of EMT in breast cancer cells using aromatic-neomycin derivatives.

MicroRNAs (miRs) are a class of endogenously expressed non-coding RNAs that negatively regulate gene expression within cells and participate in maintaining cellular homeostasis. By targeting 3' UTRs of target genes, individual miRs can control a wide array of gene expressions. Previous research has shed light upon the fact that aberrantly expressed miRs within cells can pertain to diseased conditions, such as cancer.

Beyond amyloid proteins: Thioflavin T in nucleic acid recognition.

Thioflavin T (ThT) is a commercially available fluorescent dye that is commonly used in biomedical research for over five decades. It was first reported as an extrinsic fluorescent probe for the detection of amyloid fibrils and related processes and it has also been used extensively for assessing protein binding in fluorescence-based assays. Although the nucleic acid binding of ThT was reported half of a century ago in the 1970s, it was not widely explored until the start of this decade.

Bacterial rRNA A-site recognition by DAPI: Signatures of intercalative binding.

The bacterial A-site RNA is one of the key targets towards the development of new antibacterials including new treatment options for tuberculosis. Using DAPI as a prototype, we have explored the potential of bisamidines as a potential chemical motif for bacterial A-site recognition. We have demonstrated that the binding of DAPI shows a concentration-dependent thermal stabilization of the bacterial A-site RNA (ΔT = 9.

Selective, pH sensitive, "turn on" fluorescence sensing of carbonate ions by a benzimidazole.

Anions play crucial roles in the sustenance of life on earth in many ways. Selective detection of specific anions is important in developing new diagnostic tools and therapeutics. A pH-sensitive & selective benzimidazole-based fluorescent sensor has been developed for rapid detection of carbonate ions which can detect carbonate ions in low nanomolar concentrations.

Right-sided versus left-sided percutaneous transhepatic biliary drainage in the management of malignant biliary obstruction: a randomized controlled study.

Aim: To compare the technical difficulty, safety, radiation exposure and success rates between right-sided and left-sided percutaneous transhepatic biliary drainage (RPTBD and LPTBD) in patients with malignant biliary obstruction (MBO).

Materials And Methods: Fifty patients (28 males, 22 females; mean age 51.78 years) with MBO were randomized to undergo either RPTBD or LPTBD during the study period between June 2016 and May 2018.

Surface Dependent Dual Recognition of a G-quadruplex DNA With Neomycin-Intercalator Conjugates.

G-quadruplexes have been characterized as structures of vital importance in the cellular functioning of several life forms. They have subsequently been established to serve as a therapeutic target of several diseases including cancer, HIV, tuberculosis and malaria. In this paper, we report the binding of aminosugar-intercalator conjugates with a well-studied anti-parallel G-quadruplex derived from G-quadruplex DNA.

New Approaches in Sensing and Targeting Bacterial rRNA A-site.

New chemical agents that could combat increasing antibiotic resistance are urgently needed. In this mini-review, an old but highly relevant RNA sequence which is crucial for the continuation of bacterial life-cycle is covered. Some of the most significant advances of the last decade in sensing and targeting the bacterial rRNA A-site: a well-validated binding site of proverbially known aminoglycoside antibiotics are described.

Gram-negative synergy and mechanism of action of alkynyl bisbenzimidazoles.

Bisbenzimidazoles with terminal alkynyl linkers, selective inhibitors of bacterial topoisomerase I, have been evaluated using bacterial cytological profiling (BCP) to ascertain their mechanism of action and screened for synergism to improve Gram-negative bacterial coverage. Principal component analysis of high throughput fluorescence images suggests a dual-mechanism of action affecting DNA synthesis and cell membrane integrity. Fluorescence microscopy of bacteria challenged with two of the alkynyl-benzimidazoles revealed changes in the cellular ultrastructure that differed from topoisomerase II inhibitors including induction of spheroplasts and membrane lysis.

A fluorescent aminosugar to rapidly screen and study RNA binders.

RNA targeted high-throughput assays that allow for rapid detection of high affinity binding ligands are important in RNA recognition studies. A number for fluorescent dyes have been reported that can assist in rapidly identifying nucleic acid (RNA) binding elements without the need for immobilization of RNA or the ligand. A number of these dyes are planar aromatic molecules that bind non-specifically to nucleic acids and often distort their parent nucleic acid structures leading to ambiguity in the interpretation of results.

Recent Advances in Therapeutic Applications of Bisbenzimidazoles.

Nitrogen-containing heterocycles are one of the most common structural motifs in approximately 80% of the marketed drugs. Of these, benzimidazoles analogues are known to elicit a wide spectrum of pharmaceutical activities such as anticancer, antibacterial, antiparasitic, antiviral, antifungal as well as chemosensor effect. Based on the benzimidazole core fused heterocyclic compounds, crescent-shaped bisbenzimidazoles were developed which provided an early breakthrough in the sequence-specific DNA recognition.

Spectroscopic studies of Thioflavin-T binding to c-Myc G-quadruplex DNA.

G-quadruplexes are well-known DNA secondary structures which can be formed both within the DNA and the RNA sequences of the human genome. While many functions of G-quadruplex during cell regulatory events are still unknown, a number of reports have established their role in finding new cancer therapies. In this report, we provide a detailed account of Thioflavin T (ThT) interacting with a promoter gene (c-Myc) which has relevance in several types of human cancers.

Synthesis, antimicrobial activity, attenuation of aminoglycoside resistance in MRSA, and ribosomal A-site binding of pyrene-neomycin conjugates.

The development of new ligands that have comparable or enhanced therapeutic efficacy relative to current drugs is vital to the health of the global community in the short and long term. One strategy to accomplish this goal is to functionalize sites on current antimicrobials to enhance specificity and affinity while abating resistance mechanisms of infectious organisms. Herein, we report the synthesis of a series of pyrene-neomycin B (PYR-NEO) conjugates, their binding affinity to A-site RNA targets, resistance to aminoglycoside-modifying enzymes (AMEs), and antibacterial activity against a wide variety of bacterial strains of clinical relevance.

An overview of recent advances in duplex DNA recognition by small molecules.

As the carrier of genetic information, the DNA double helix interacts with many natural ligands during the cell cycle, and is amenable to such intervention in diseases such as cancer biogenesis. Proteins bind DNA in a site-specific manner, not only distinguishing between the geometry of the major and minor grooves, but also by making close contacts with individual bases within the local helix architecture. Over the last four decades, much research has been reported on the development of small non-natural ligands as therapeutics to either block, or in some cases, mimic a DNA-protein interaction of interest.