Exploring new horizons: angiotensin II, angiotensin II type 1 receptor, and renal outer medullary potassium channel interaction in distal convoluted tubule.

Background: This study investigates angiotensin II (Ang II)'s regulatory mechanism on renal outer medullary potassium channel (ROMK) activity in the distal convoluted tubule (DCT) during low potassium intake, focusing on the Janus kinase 2 (JAK2) pathway activation mediated by the Ang II type 1 receptor (AT1R).

Methods: Utilizing a low potassium diet mouse model, various methods including patch clamping, reverse transcription-quantitative polymerase chain reaction, Western blotting, and immunohistochemical staining were applied to analyze ROMK channel activity and the expression of related proteins.

Results: The findings reveal that Ang II inhibits ROMK activity in the DCT2 membrane through AT1R activation, with the JAK2 pathway playing a central role.

Regulate catalytic performance by engineering non-regular structure of extradiol dioxygenase: An entrance to bottom strategy.

Extradiol dioxygenase Tcu3516 is a home-sourced enzyme demonstrating potent aromatic phenol degradation capacity. To add to the advantageous modifications inside active cavity, this work reported a novel strategy to engineer rarely concerned non-regular structures around the entrance towards the active site at the bottom of cavity. Three structures, Loop region 1 (Loop1: Met173-Arg185), Loop region 2 (Loop2: Ala201-Val212) and C-terminal (C-tail: His290-Lys306) were therefore identified through structural flexibility analysis.

Unlocking Industrial Potential: Phase-Transition Coimmobilization of Multienzyme Systems for High-Efficiency Uridine Diphosphate Galactose Production.

Transitioning from batch to continuous industrial production often improves the economic returns and production efficiency. Immobilization is a critical strategy that can facilitate this shift. This study refined the previously established method for synthesizing uridine diphosphate galactose (UDP-Gal) by employing thermophilic enzymes.

The Improved Antineoplastic Activity of Thermophilic L-Asparaginase Tli10209 via Site-Directed Mutagenesis.

Amino acid deprivation therapy (AADT) is a novel anticancer therapy, considered nontoxic and selective. Thermophilic L-asparaginase enzymes display high stability and activity at elevated temperatures. However, they are of limited use in clinical applications because of their low substrate affinity and reduced activity under physiological conditions, which may necessitate an improved dosage, leading to side effects and greater costs.

Engineering non-conservative substrate recognition sites of extradiol dioxygenase: Computation guided design to diversify and accelerate degradation of aromatic compounds.

Extradiol dioxygenases (EDOs) catalyzing meta-cleavage of catecholic compounds promise an effective way to detoxify aromatic pollutants. This work reported a novel scenario to engineer our recently identified Type I EDO from Tcu3516 for a broader substrate scope and enhanced activity, which was based on 2,3-dihydroxybiphenyl (2,3-DHB)-liganded molecular docking of Tcu3516 and multiple sequence alignment with other 22 Type I EDOs. 11 non-conservative residues of Tcu3516 within 6 Å distance to the 2,3-DHB ligand center were selected as potential hotspots and subjected to semi-rational design using 6 catecholic analogues as substrates; the mutants V186L and V212N returned with progressive evolution in substrate scope and catalytic activity.

Efficient One-Pot Synthesis of Uridine Diphosphate Galactose Employing a Trienzyme System.

The limited availability of high-cost nucleotide sugars is a significant constraint on the application of their downstream products (glycosides and prebiotics) in the food or pharmaceutical industry. To better solve the problem, this study presented a one-pot approach for the biosynthesis of UDP-Gal using a thermophilic multienzyme system consisting of GalK, UGPase, and PPase. Under optimal conditions, a 2 h reaction resulted in a UTP conversion rate of 87.

Selective enhanced cytotoxicity of amino acid deprivation for cancer therapy using thermozyme functionalized nanocatalyst.

Background: Enzyme therapy based on differential metabolism of cancer cells has demonstrated promising potential as a treatment strategy. Nevertheless, the therapeutic benefit of reported enzyme drugs is compromised by their uncontrollable activity and weak stability. Additionally, thermozymes with high thermal-stability suffer from low catalytic activity at body temperature, preventing them from functioning independently.

Increased Expression Levels of Thermophilic Serine Protease TTHA0724 through Signal Peptide Screening in and Applications of the Enzyme.

The thermostable protease TTHA0724 derived from HB8 is an ideal industrial washing enzyme due to its thermophilic characteristics; although it can be expressed in via pET-22b, high yields are difficult to achieve, leading to frequent autolysis of the host. This paper details the development of a signal peptide library in the expression system of and the optimization of signal peptides for enhanced extracellular expression of TTHA0724. When was used as the host and the optimized signal peptide was used, the expression level of TTHA0724 was 16.

Selective and Sustainable Production of Sub-terminal Hydroxy Fatty Acids by a Self-Sufficient CYP102 Enzyme from Bacillus Amyloliquefaciens.

Enzymatic hydroxylation of fatty acids by Cytochrome P450s (CYPs) offers an eco-friendly route to hydroxy fatty acids (HFAs), high-value oleochemicals with various applications in materials industry and with potential as bioactive compounds. However, instability and poor regioselectivity of CYPs are their main drawbacks. A newly discovered self-sufficient CYP102 enzyme, BAMF0695 from Bacillus amyloliquefaciens DSM 7, exhibits preference for hydroxylation of sub-terminal positions (ω-1, ω-2, and ω-3) of fatty acids.

Thermophilic Inorganic Pyrophosphatase Ton1914 from NA1 Removes the Inhibitory Effect of Pyrophosphate.

Pyrophosphate (PP) is a byproduct of over 120 biosynthetic reactions, and an overabundance of PP can inhibit industrial synthesis. Pyrophosphatases (PPases) can effectively hydrolyze pyrophosphate to remove the inhibitory effect of pyrophosphate. In the present work, a thermophilic alkaline inorganic pyrophosphatase from NA1 was studied.

Characterization of a Novel Fe Activated Non-Blue Laccase from .

Herein, a novel laccase gene, , was amplified from and successfully expressed in with a molecular weight of approximately 50 kDa. The purified Melac13220 had no absorption peak at 610 nm and remained silent within electron paramagnetic resonance spectra, suggesting that Melac13220 belongs to the non-blue laccase group. Both inductively coupled plasma spectroscopy/optical emission spectrometry (ICP-OES) and isothermal titration calorimetry (ITC) indicated that one molecule of Melac13220 can interact with two iron ions.

Superanionic Solvent-Free Liquid Enzymes Exhibit Enhanced Structures and Activities.

The surface of a carboxylate-enriched octuple mutant of Bacillus subtilis lipase A (8M) is chemically anionized to produce core (8M)-shell (cationic polymer surfactants) bionanoconjugates in protein liquid form, which are termed anion-type biofluids. The resultant lipase biofluids exhibit a 2.5-fold increase in hydrolytic activity when compared with analogous lipase biofluids based on anionic polymer surfactants.

Current Strategies for Real-Time Enzyme Activation.

Enzyme activation is a powerful means of achieving biotransformation function, aiming to intensify the reaction processes with a higher yield of product in a short time, and can be exploited for diverse applications. However, conventional activation strategies such as genetic engineering and chemical modification are generally irreversible for enzyme activity, and they also have many limitations, including complex processes and unpredictable results. Recently, near-infrared (NIR), alternating magnetic field (AMF), microwave and ultrasound irradiation, as real-time and precise activation strategies for enzyme analysis, can address many limitations due to their deep penetrability, sustainability, low invasiveness, and sustainability and have been applied in many fields, such as biomedical and industrial applications and chemical synthesis.

Molecular dynamics simulation guided distal mutation of Thermotoga naphthophila β-glucosidase for significantly enhanced synthesis of galactooligosaccharides and expanded product scope.

For efficient enzymatic production of health-beneficial galactooligosaccharides (GOSs), a glycone (-1)/aglycone (+2) subsite mutation strategy to engineer a thermophilic GH1 β-glucosidase (Tn0602) from Thermotoga naphthophila RKU-10 was introduced. Six single mutation variants (F226G, N246G, N246E, N222F, N222Y, G224T) and two double mutants (F226GF414S, F226GF414Y) were designed. The +2-subsite variant F226G produced 136 mM galactooligosaccharide 1.

Mild Hypothermia Therapy Lowers the Inflammatory Level and Apoptosis Rate of Myocardial Cells of Rats with Myocardial Ischemia-Reperfusion Injury via the NLRP3 Inflammasome Pathway.

Objective: To explore the protective effects and mechanism of mild hypothermia treatment in the treatment of myocardial ischemia-reperfusion injury. . A total of 20 Sprague-Dawley (SD) rats were assigned to 4 groups: the blank control group, sham operation group, ischemia reperfusion group, and mild hypothermia therapy group (each = 5).

A new thermophilic extradiol dioxygenase promises biodegradation of catecholic pollutants.

Extradiol dioxygenases (EDOs) catalyze the meta cleavage of catechol into 2-hydroxymuconaldehyde, a critical step in the degradation of aromatic compounds in the environment. In the present work, a novel thermophilic extradiol dioxygenase from Thermomonospora curvata DSM43183 was cloned, expressed, and characterized by phylogenetic and biochemical analyses. This enzyme exhibited excellent thermo-tolerance, displaying optimal activity at 50 °C, remaining >40% activity at 70 °C.

Galactosyldiacylglycerols: From a Photosynthesis-Associated Apparatus to Structure-Defined Assembling.

Being ubiquitously present in plants, microalgae, and cyanobacteria and as the major constituents of thylakoid membranes, monogalactosyldiacylglycerol (MGDG) and digalactosyldiacylglycerol (DGDG) make up approximately 52 and 26%, respectively, of chloroplast lipids. Thylakoid membranes harbor the photosynthetic complexes and numerous essential biochemical pathways where MGDG and DGDG play a central role in facilitating photosynthesis light reaction, maintaining chloroplast morphology, and responding to abiotic stresses. Furthermore, these galactolipids are also bioactive compounds with antitumor, antimicrobial, antiviral, immunosuppressive, and anti-inflammatory activities and important nutritional value.

Read-across: Principle, case study and its potential regulatory application in China.

Read-across, has generated much attention and has been used in many regulatory schemes as an alternative approach to testing globally. The regulatory application of read-across in the chemical management in China is progressing but still limited. A workshop on the "Read-across: Principle, case study and its potential regulatory application in China", organized by the Chemical Risk Assessment Specialty Group under the Committee of Industrial Toxicology of Chinese Society of Toxicology, was held on May 28, 2019 to discuss the potential broader application and acceptance of read-across to support chemical risk assessment in China.

Using near-infrared enhanced thermozyme and dual-conjugated Au nanorods for detection and targeted photothermal treatment of Alzheimer's disease.

Investigation of targeting inhibitors of Aβ aggregation, heme-Aβ peroxidase-like activity and efficient detectors of Aβ aggregation, are of therapeutic value and diagnostics significance for the treatment of Alzheimer's disease (AD). Due to the complex pathogenesis of AD, theranostics treatment with multiple functions are necessary. Herein we constructed the NIR absorption property of gold nanorods (GNRs) loaded with single chain variable fragment () 12B4 and thermophilic acylpeptide hydrolase (APH) ST0779 as a smart theranostic complex (GNRs-APH-, GAS), which possesses both rapid detection of Aβ aggregates and NIR photothermal treatment that effectively disassembles Aβ aggregates and inhibits Aβ-mediated toxicity.

Insight into the Structure and Activity of Surface-Engineered Lipase Biofluids.

Despite a successful application of solvent-free liquid protein (biofluids) concept to a number of commercial enzymes, the technical advantages of enzyme biofluids as hyperthermal stable biocatalysts cannot be fully utilized as up to 90-99% of native activities are lost when enzymes were made into biofluids. With a two-step strategy (site-directed mutagenesis and synthesis of variant biofluids) on Bacillus subtilis lipase A (BsLA), we elucidated a strong dependency of structure and activity on the number and distribution of polymer surfactant binding sites on BsLA surface. Here, it is demonstrated that improved BsLA variants can be engineered via site-mutagenesis by a rational design, either with enhanced activity in aqueous solution in native form, or with improved physical property and increased activity in solvent-free system in the form of a protein liquid.

Valorizing Dairy Waste: Thermophilic Biosynthesis of a Novel Ascorbic Acid Derivative.

l-Ascorbic acid (l-AA) is an essential nutrient that is extremely unstable and cannot be synthesized by the human body. Therefore, attempts have been performed to develop biologically active l-AA derivatives with improved stability. This work presents a facile, scalable, and efficient enzymatic transgalactosylation of lactose to l-AA using β-glucosidase (TN0602) from Thermotoga naphthophila RKU-10.

β-Glucosidase from Thermotoga naphthophila RKU-10 for exclusive synthesis of galactotrisaccharides: Kinetics and thermodynamics insight into reaction mechanism.

This work reports a novel thermophilic β-glucosidase (TN0602) from Thermotoga naphthophila RKU-10, demonstrating exceptionally high catalytic selectivity (100%) for the exclusive synthesis of prebiotic galactotrisaccharides (GOS3) in a high volumetric production yield of 23.28gLh (higher than the highest value ever reported) at pH 6.5 and 75°C, with milk processing waste lactose as both the galactosyl donor and acceptor.

Synergistic effect of thermostable β-glucosidase TN0602 and cellulase on cellulose hydrolysis.

Thermophilic enzymes have many potential benefits in industrial production with increased flexibility related to process configurations. A thermostable β-glucosidase from Thermotoga naphthophila RUK-10 was found to possess catalytic activity for cellobiose hydrolysis with a high potential for application in biomass conversion. The aggregation of cellobiose often has an inhibitory effect on cellobiohydrolases and endoglucanases during cellulose hydrolysis.

Identification of an archaeal maltooligosyltrehalose trehalohydrolase encoded by an interrupted gene.

Complete genome analysis of the thermoacidophilic Archaeon Sulfolobus tokodaii strain 7 revealed two open reading frames (ORF), namely, ST0926 and ST0927. These ORFs are interrupted by two putative insertions and encode for the N- and C-terminal fragments, respectively, of a putative Sulfolobus sp. maltooligosyltrehalose trehalohydrolase (StMTHase).