Development of a Self-Luminescent Living Bioreactor for Enhancing Photodynamic Therapy in Breast Cancer.

The penetration ability of visible light (<2 mm) and near-infrared (NIR) light (∼1 cm) remarkably impairs the therapeutic efficacy and clinical applications of photodynamic therapy (PDT). To address the limitation of light penetration depth, a novel self-luminescent bacterium, teLuc.FP-EcN, has been engineered through transfection of a fusion expression plasmid containing the luciferase gene teLuc and bright red fluorescent protein mScarlet-I into Nissle 1917 ().

Ultrasensitive fluorescence microRNA biosensor by coupling hybridization-initiated exonuclease I protection and tyramine signal amplification.

Tyramine signal amplification (TSA) has made its mark in immunoassay due to its excellent signal amplification ability and short reaction time, but its application in nucleic acid detection is still very limited. Herein, an ultrasensitive microRNA (miRNA) biosensor by coupling hybridization-initiated exonuclease I (Exo I) protection and TSA strategy was established. Target miRNA is complementarily hybridized to the biotin-modified DNA probe to form a double strand, which protects the DNA probe from Exo I hydrolysis.

A chemiluminescent sensor for imaging endogenous hydrogen polysulfides in a living system.

By constructing 2-(benzoylthio)benzoate and a 2-fluoro-4-nitrobenzoate structure in an adamantylidene-dioxetane system, we designed and synthesized two novel chemiluminescent probes for the detection of HS from other RSS. Under the same conditions, the maximum luminescence emission intensity of the probe CL-HP2 could reach 150 times that of the probe CL-HP1, and the chemiluminescence signal still existed at low concentrations. Therefore, CL-HP2 was more suitable for HS detection as a chemiluminescent probe.

Radical nucleophilic substitution/cyclization: A novel strategy for selective and ultrafast fluorescence imaging of cysteine levels in ferroptosis process.

Diphenylisoindolo[2,1-a]quinoline can be used to detect cysteine among homocysteine, glutathione, and other 19 natural amino acids. Unlike other reported probes, the response mechanism involves sulfhydryl radical nucleophilic substitution and cyclization, and thus the differences in ring-formation kinetics enable high selectivity. After treated with Cys, the response process was completed rapidly and the maximum fluorescence intensity (at 496 nm) was reached extremely fast (<1 s) when excited at 380 nm in MeCN-PBS buffer (10.

[Characterization and immunoprotective effect of SjIrV1, a 66 kDa calcium-binding protein from Schistosoma japonicum].

Calcium-binding protein is an indispensable protein which performs extensive and important functions in the growth of Schistosoma japonicum. Based on our primary study on tegument surface proteins of S. japonicun, a cDNA encoding a 66 kDa calcium-binding protein of S.

Cloning, expression, and preliminary characterization of the dysferlin tegument protein in Schistosoma japonicum.

The schistosomal tegument is a dynamic host-interactive layer. Proteins exposed to the host on the tegumental surface are important for completion of the parasitic lifecycle. Dysferlin is a member of the ferlin family and is involved in plasma membrane repair.

Characterization Analysis of Schistosoma japonicum Plasma Membrane Repair Relative Gene Myoferlin.

Myoferlin is a member of the ferlin family of proteins, which are involved in plasma membrane repair, and has been identified as one of the tegument proteins of Schistosoma japonicum. The tegument proteins are potential candidates for vaccines and new drug targets. In this study, myoferlin of S.