Development of Targeted Drug Delivery System for the Treatment of SARS-CoV-2 Using Aptamer-Conjugated Gold Nanoparticles.

The SARS-CoV-2 pandemic has highlighted niclosamide (NIC) as a promising treatment for COVID-19. However, its clinical application is limited due to its poor water solubility, resulting in low bioavailability. To address this issue, we developed a AuNP-HA-NIC system, which combines gold nanoparticles with hyaluronic acid to enhance drug delivery.

DNA repair-retarded isothermal CRISPR amplification for rapid, sensitive base excision repair enzyme assay.

Background: As a core enzyme in the base excision repair system, uracil DNA glycosylase (UDG) is indispensable in maintaining genomic integrity and normal cell cycles. Its abnormal activity intervenes in cancers and neurodegerative diseases. Previous UDG assays based on isothermal amplification and Clustered Regularly Interspaced Short Palindromic Repeats/Cas (CRISPR/Cas) system were fine in sensitivity, but exposed to complications in assay flow, time, and probe design.

One-pot, one-step, label-free miRNA detection method based on the structural transition of dumbbell probe.

In this study, we present a one-pot, one-step, label-free miRNA detection method through a structural transition of a specially designed dumbbell-shape probe, initiating a rolling circle transition (RCT). In principle, target miRNA binds to right loop of the dumbbell probe (DP), which allows structural change of the DP to circular form, exposing a sequence complementary to the T7 promoter (T7p) previously hidden within the stem. This exposure allows T7 RNA polymerase to initiate RCT, producing a repetitive Mango aptamer sequence.

Complete genome sequence of a new putative member of the genus Pelarspovirus that infects Quercus aliena Blume in South Korea.

The complete nucleotide sequence of a newly discovered virus infecting Quercus aliena Blume, tentatively named "quercus leafroll virus" (QLRV), was determined through high-throughput and Sanger sequencing. The sequence comprises 3,940 nucleotides, has five open reading frames, and has a typical pelarspovirus genome organization, with neither 3' polyadenylation nor a 5' cap. The proteins encoded by QLRV share 17.

CRISPR/Cas12a Collateral Cleavage Activity for Sensitive 3'-5' Exonuclease Assay.

This study presents a technique for detecting 3'-5' exonuclease activity through the use of CRISPR/Cas12a. These enzymes, including 3'-5' exonuclease (Exo III), perform crucial roles in various cellular processes and are associated with life expectancy. However, imbalances in their expression can increase susceptibility to diseases such as cancer, particularly under prolonged stress.

Background-filtered telomerase activity assay with cyclic DNA cleavage amplification.

Overexpression of telomerase incites the abnormal proliferation of cancer cells. Thus, it has been regarded as a cancer biomarker and a potential therapeutic target. Existing assays suggest a promising sensing scheme to detect telomerase activity.

Peroxidase-Mimicking Activity of Nanoceria for Label-Free Colorimetric Assay for Exonuclease III Activity.

We present a novel label-free colorimetric method for detecting exonuclease III (Exo III) activity using the peroxidase-mimicking activity of cerium oxide nanoparticles (nanoceria). Exo III, an enzyme that specifically catalyzes the stepwise removal of mononucleotides from the 3'-OH termini of double-stranded DNA, plays a significant role in various cellular and physiological processes, including DNA proofreading and repair. Malfunctions of Exo III have been associated with increased cancer risks.

Complete genome sequence of cnidium virus 2, a novel cytorhabdovirus isolated from Cnidium officinale in South Korea.

High-throughput sequencing identified a cytorhabdovirus, tentatively named "cnidium virus 2" (CnV2), in Cnidium officinale, and Sanger sequencing confirmed the genome sequence. CnV2 is 13,527 nucleotides in length and contains seven open reading frames in the order 3'-N-P-3-4-M-G-L-5', separated by intergenic regions. The full-length nucleotide sequence of CnV2 shares 19.

Complete genome sequence of daphne virus 1, a novel cytorhabdovirus infecting Daphne odora.

A novel cytorhabdovirus was identified in Daphne odora in South Korea using high-throughput sequencing. The virus, tentatively named "daphne virus 1" (DV1), has a full-length genome sequence of 13,206 nucleotides with a genome organization comparable to that of unsegmented plant rhabdoviruses and contains seven antisense putative genes in the order 3'-leader-N-P'-P-P3-M-G-L-5'-trailer. The coding region of the genome is flanked by a 3' leader and a 5' trailer sequence, 261 and 151 nucleotides long, respectively.

Complete genome sequence of a novel member of the genus Polerovirus from Cnidium officinale in South Korea.

The complete genome sequence of a novel virus found infecting Cnidium officinale, which we have named "cnidium polerovirus 1" (CnPV1), is 6,090 nucleotides in length, similar to those of other poleroviruses. Seven open reading frames (ORF0-5 and ORF3a) were predicted in this genome. CnPV1 shares 32.

The complete genome sequence of Stellaria aquatica virus A, a new member of the genus Alphacarmovirus, family Tombusviridae.

A new member of the genus Alphacarmovirus was detected in Stellaria aquatica using high-throughput RNA sequencing analysis. The complete genome sequence of this new virus isolate, tentatively named "Stellaria aquatica virus A" (StAV-A), comprises 4,017 nucleotides with five predicted open reading frames (ORFs) and has a typical alphacarmovirus genome organization. Pairwise comparison of StAV-A with selected members of family Tombusviridae showed 44-58%, 32-64%, and 19-49% sequence identity for the overall nucleotide sequence, polymerase, and coat protein, respectively.

CRISPR/Cas13a-assisted AMP generation for SARS-CoV-2 RNA detection using a personal glucose meter.

Herein, we described a washing- and label-free clustered regularly interspaced short palindromic repeats (CRISPR)/Cas13a-based RNA detection method utilizing a personal glucose meter (PGM), which relies on the -cleavage activity of CRISPR/Cas13a and kinase reactions. In principle, the presence of target RNA activates the -cleavage of CRISPR/Cas13a, generating 2',3'-cyclic phosphate adenosine, which is converted to adenosine monophosphate (AMP) by the T4 polynucleotide kinase. Subsequently, the AMP is converted to adenosine diphosphate (ADP) through phosphorylation by a myokinase; ADP is then used as a substrate in the cascade enzymatic reaction promoted by pyruvate kinase and hexokinase.

Washing-Free and Label-Free Onsite Assay for Inorganic Pyrophosphatase Activity Using a Personal Glucose Meter.

In this study, we demonstrated a personal glucose meter-based method for washing-free and label-free inorganic pyrophosphatase (PPase) detection, which relies on the cascade enzymatic reaction (CER) promoted by hexokinase and pyruvate kinase. In principle, the absence of target PPase enables adenosine triphosphate sulfurylase to catalyze the conversion of pyrophosphate (PPi) to ATP, a substrate of CER, which results in the significant reduction of glucose levels by the effective CER process. In contrast, the PPi cleavage activity works in the presence of target PPase by decomposing PPi to orthophosphate (Pi).

Immunoglobulin E Detection Method Based on Cascade Enzymatic Reaction Utilizing Portable Personal Glucose Meter.

We herein describe a cascade enzymatic reaction (CER)-based IgE detection method utilizing a personal glucose meter (PGM), which relies on alkaline phosphatase (ALP) activity that regulates the amount of adenosine triphosphate (ATP). The amount of sandwich assay complex is determined according to the presence or absence of the target IgE. Additionally, the ALP in the sandwich assay catalyzes the dephosphorylation of ATP, a substrate of CER, which results in the changes in glucose level.

Ultrasensitive version of nucleic acid sequence-based amplification (NASBA) utilizing a nicking and extension chain reaction system.

Nucleic acid sequence-based amplification (NASBA) is a transcription-based isothermal amplification technique especially designed for the detection of RNA targets. The NASBA basically relies on the linear production of T7 RNA promoter-containing double-stranded DNA (T7DNA), and thus the final amplification efficiency is not sufficiently high enough to achieve ultrasensitive detection. We herein ingeniously integrate a nicking and extension chain reaction system into the NASBA to establish an ultrasensitive version of NASBA, termed Nicking and Extension chain reaction System-Based Amplification (NESBA).

A hairpin probe-mediated isothermal amplification method to detect target nucleic acid.

We herein describe Hairpin probe-mediated Isothermal Amplification (HIAmp), a novel isothermal method to detect a target nucleic acid. This method employs a hairpin probe (HP) designed to be opened through binding to the target nucleic acid. Upon opening of the HP, the primer binds to the free stem of the opened HP followed by its extension by DNA polymerase, consequently displacing and recycling the target nucleic acid to open another HP and producing an intermediate product (IP) containing a nicking site.

Electrochemical Immunosensor for Human IgE Using Ferrocene Self-Assembled Monolayers Modified ITO Electrode.

The immunoglobulin E (IgE) level in serum is an important factor in the examination of allergy. Ferrocene (Fc)-modified self-assembled monolayers (SAMs) were placed on an indium tin oxide (ITO) electrode as a sensing layer for the detection of human IgE. The Fc moiety in the SAMs facilitated the electron transfer through the organic SAMs layer and electrocatalytic signal amplification.

A Personal Glucose Meter for Label-Free and Washing-Free Biomolecular Detection.

We developed a label-free and washing-free method for biomolecular detection using a personal glucose meter (PGM). ATP was selected as a model target, and cascade enzymatic reactions promoted by hexokinase and pyruvate kinase were adopted to link the amount of ATP to glucose that is detectable by a hand-held PGM. In principle, the presence of target ATP enables hexokinase to catalyze the conversion of glucose to glucose 6-phosphate by providing a phosphate group to glucose, and thus the amount of glucose is decreased in proportion to the amount of ATP.

An impedimetric determination of alkaline phosphatase activity based on the oxidation reaction mediated by Cu bound to poly-thymine DNA.

We herein describe a novel impedimetric method to determine alkaline phosphatase (ALP) activity based on the Cu-mediated oxidation of ascorbic acid on a specific DNA probe-modified electrode. In this method, pyrophosphate (PPi) capable of complexing with Cu is employed as a substrate of the ALP enzyme. In the presence of ALP, PPi is hydrolyzed to phosphate (Pi), which is not able to entrap Cu.

Abasic Site-Assisted Inhibition of Nicking Endonuclease Activity for the Sensitive Determination of Uracil DNA Glycosylase.

We herein describe A novel strategy to accurately determine uracil DNA glycosylase (UDG) activity is described based on the finding that nicking endonuclease-assisted cleavage reaction can be regulated by the presence of abasic site. This strategy utilizes DNA probes rationally designed to contain uracil base at the cleavage site for nicking endonuclease, which is coupled to the isothermal nicking endonuclease amplification reaction (NEAR) method. In the absence of UDG, intact DNA probes generate a large number of double-stranded (ds) DNA products through the NEAR, but the presence of UDG that converts uracil base into abasic site suppresses nicking endonuclease activity and the subsequent NEAR.

A new s-adenosylhomocysteine hydrolase-linked method for adenosine detection based on DNA-templated fluorescent Cu/Ag nanoclusters.

We herein describe a novel fluorescent method for the rapid and selective detection of adenosine by utilizing DNA-templated Cu/Ag nanoclusters (NCs) and employing s-adenosylhomocysteine hydrolase (SAHH). SAHH is allowed to promote hydrolysis reaction of s-adenosylhomocysteine (SAH) and consequently produces homocysteine, which would quench the fluorescence signal from DNA-templated Cu/Ag nanoclusters employed as a signaling probe in this study. On the other hand, adenosine significantly inhibits the hydrolysis reaction and prevent the formation of homocysteine.

A novel electrochemical method to detect theophylline utilizing silver ions captured within abasic site-incorporated duplex DNA.

We herein describe a novel and label-free electrochemical system to detect theophylline. The system was constructed by immobilizing duplex DNA containing an abasic site opposite cytosine on the gold electrode surface. In the absence of theophylline in a sample, silver ions freely bind to the empty abasic site in the duplex DNA leading to the highly elevated electrochemical signal by the redox reaction of silver ions.