35 research outputs found
Anticoagulant activity of a natural protein purified from <i>Hypomesus olidus</i>
<p>A novel anticoagulant protein (E-II-1) was separated and purified from <i>Hypomesus olidus</i>, a unique freshwater fish in northern China. E-II-1 had a molecular mass of approximately 40 kDa with no subunits. The high content of hydrophobic amino acids and negatively charged amino acids in E-II-1 demonstrated that the amino acid compositions might contribute to the anticoagulant activity. E-II-1 contained <i>α</i>-helices 16.75%, <i>β</i>-sheets 42.67%, <i>β</i>-turn 25.58% and random coil 15.00%. <i>In vitro</i> blood coagulation time assay, E-II-1 significantly prolonged the activated partial thrombin time in a dose-dependent manner. Results indicated that E-II-1 acted as anticoagulants through the endogenous pathway with an inhibition of FXa. The specific activity of E-II-1 was 103.50 U/mg at a concentration of 1.00 mg/mL. Therefore, E-II-1 might be one of the promising anticoagulants originated from natural food sources with more safety and less side effects.</p
Two new lignans with antioxidative activities from <i>Jatropha curcas</i>
<div><p>Activity-guided isolation of dried seeds of <i>Jatropha curcas</i> L. led to the isolation of two new lignans along with eight known compounds. These compounds were determined by spectroscopic analysis to be jatrophasin C (<b>1</b>), jatrophasin D (<b>2</b>), β-sitosterol (<b>3</b>), jatrophasin A (<b>4</b>), daucosterol (<b>5</b>), isoamericanol A (<b>6</b>), ( ± )-3,3′-bisdemethylpinoresinol (<b>7</b>), 7′-epi-sesamin-dicatechol (<b>8</b>), isoprincepin (<b>9</b>) and americanol A (<b>10</b>), of which <b>1</b> and <b>2</b> were new compounds. The antioxidative activities along with peroxisome proliferator-activated receptor gamma exciting activity of these compounds were also determined.</p></div
Image_1_Bibliometric analysis study on cognitive function in developmental coordination disorder from 2010 to 2022.PNG
ObjectiveTo identify the research hotspots on cognitive function in developmental coordination disorder (DCD) in recent years, predict the research frontier and development trend, and provide more perspectives for the study of the DCD population.MethodsUsing CiteSpace and VOSviewer software to draw charts, 1,082 pieces of literature about DCD and cognitive function in the Web of Science core collection database from 2010 to 2022 were visually analyzed.Results and conclusionInterest in the cognitive function of DCD has been on the rise in the past 10 years. Over 40 countries and regions, 117 institutions and 200 researchers have participated in the corresponding research, mainly in the United States, and their institutions have published more highly influential results. The hot keywords are DCD, children, attention, working memory, performance, and attention-deficit/hyperactivity disorder (ADHD), and the main research hot topics include functional performance, population, cognitive psychology. The research directions include “DCD,” “Asperger syndrome,” “memory,” “infant,” “clumsiness,” “neurodevelopmental disorder,” “occupational therapy,” “preschool children,” “motor competence,” “model,” and “online control.” Future research should focus on motor imagery and intrinsic models and use more neurophysiological techniques to reveal the cognitive characteristics of children with DCD and develop intervention programs.</p
Table_1_Bibliometric analysis study on cognitive function in developmental coordination disorder from 2010 to 2022.DOCX
ObjectiveTo identify the research hotspots on cognitive function in developmental coordination disorder (DCD) in recent years, predict the research frontier and development trend, and provide more perspectives for the study of the DCD population.MethodsUsing CiteSpace and VOSviewer software to draw charts, 1,082 pieces of literature about DCD and cognitive function in the Web of Science core collection database from 2010 to 2022 were visually analyzed.Results and conclusionInterest in the cognitive function of DCD has been on the rise in the past 10 years. Over 40 countries and regions, 117 institutions and 200 researchers have participated in the corresponding research, mainly in the United States, and their institutions have published more highly influential results. The hot keywords are DCD, children, attention, working memory, performance, and attention-deficit/hyperactivity disorder (ADHD), and the main research hot topics include functional performance, population, cognitive psychology. The research directions include “DCD,” “Asperger syndrome,” “memory,” “infant,” “clumsiness,” “neurodevelopmental disorder,” “occupational therapy,” “preschool children,” “motor competence,” “model,” and “online control.” Future research should focus on motor imagery and intrinsic models and use more neurophysiological techniques to reveal the cognitive characteristics of children with DCD and develop intervention programs.</p
Rapid Decolorization of Phenolic Azo Dyes by Immobilized Laccase with Fe<sub>3</sub>O<sub>4</sub>/SiO<sub>2</sub> Nanoparticles as Support
Fe<sub>3</sub>O<sub>4</sub>/SiO<sub>2</sub> nanoparticles with
particle size below 30 nm were used as the support for laccase immobilization
through glutaraldehyde coupling. Investigation of the immobilized
laccase was carried out by X-ray diffractometry (XRD), transmission
electron microscopy (TEM), confocal laser scanning microscopy (CLSM),
vibrating sample magnetometry (VSM), UV–vis spectrophotometry,
and cyclic voltammogram (CV) measurements. Two phenolic azo dyes,
Procion Red MX-5B and azophloxine, were selected to investigate the
enzyme activity of the immobilized laccase toward degradation of phenolic
azo dyes. The immobilized laccase presents unusual performance for
dye decolorization and easy separation with an external magnetic field.
Finally, the possible mechanism for the unusual decolorization of
phenolic azo dyes by the immobilized laccase is discussed
Additional file 1 of Enhancing endometrial receptivity: the roles of human chorionic gonadotropin in autophagy and apoptosis regulation in endometrial stromal cells
Supplementary Material 1
Biosynthetic Baeyer–Villiger Chemistry Enables Access to Two Anthracene Scaffolds from a Single Gene Cluster in Deep-Sea-Derived <i>Streptomyces olivaceus</i> SCSIO T05
Four known compounds, rishirilide
B (<b>1</b>), rishirilide
C (<b>2</b>), lupinacidin A (<b>3</b>), and galvaquinone
B (<b>4</b>), representing two anthracene scaffolds typical
of aromatic polyketides, were isolated from a culture of the deep-sea-derived <i>Streptomyces olivaceus</i> SCSIO T05. From the <i>S. olivaceus</i> producer was cloned and sequenced the <i>rsd</i> biosynthetic
gene cluster (BGC) that drives rishirilide biosynthesis. The structural
gene <i>rsdK</i><sub>2</sub> inactivation and heterologous
expression of the <i>rsd</i> BGC confirmed the single <i>rsd</i> BGC encodes construction of <b>1</b>–<b>4</b> and, thus, accounts for two anthracene scaffolds. Precursor
incubation experiments with <sup>13</sup>C-labeled acetate revealed
that a Baeyer–Villiger-type rearrangement plays a central role
in construction of <b>1</b>–<b>4</b>. Two luciferase
monooxygenase components, along with a reductase component, are presumably
involved in the Baeyer–Villiger-type rearrangement reaction
enabling access to the two anthracene scaffold variants. Engineering
of the <i>rsd</i> BGC unveiled three SARP family transcriptional
regulators, enhancing anthracene production. Inactivation of <i>rsdR</i><sub>4</sub>, a MarR family transcriptional regulator,
failed to impact production of <b>1</b>–<b>4</b>, although production of <b>3</b> was slightly improved; most
importantly <i>rsdR</i><sub>4</sub> inactivation led to
the new adduct <b>6</b> in high titer. Notably, inactivation
of <i>rsdH</i>, a putative amidohydrolase, substantially
improved the overall titers of <b>1</b>–<b>4</b> by more than 4-fold
Effect of Host–Guest Interactions on the Cloud Points of Neutral Thermosensitive Homopolymers: Poly(<i>N</i>-n-propylmethacrylamide) and Polymers with Similar Structures
We investigated effect of cyclodextrins (CDs) on the
cloud point
of several thermosensitive polymers that are not ionizable. α-CD
increased the cloud point of the poly(<i>N</i>-n-propylmethacrylamide)
(PnPMAm) aqueous solution; by contrast, β-CD or γ-CD did
not affect the cloud point of the PnPMAm solution. The cloud point
of the PnPMAm solution increased gradually with an increase in the
concentration of α-CD. Furthermore, we compared the effect of
the CDs on the cloud points of four polymers with similar structures.
As for poly(<i>N</i>-isopropylacrylamide) (PiPAAm), neither
α-CD nor β-CD affected its cloud point. On the basis of
the effect of the differently sized CDs on the cloud point of five
polymers and the corresponding NOESY NMR data, we inferred that steric
hindrance by the main chain of PiPAAm might be responsible for the
bulky CD being unable to form a complex with the short isopropyl group
MOESM1 of Impairment of NADH dehydrogenase and regulation of anaerobic metabolism by the small RNA RyhB and NadE for improved biohydrogen production in Enterobacter aerogenes
Additional file 1. Figure S1. SDS-PAGE verification of NAD symhetase overexpression in IAM1183 and IAM1183/N. Figure S2. Comparison of the control strain IAM1183 and IAM1183/R carrying pKK102-ryhB-cm plasmid by northern blot analysis
Theoretical Study on Ion Diffusion Mechanism in W‑Doped K<sub>3</sub>SbS<sub>4</sub> as Solid-State Electrolyte for K‑Ion Batteries
The development of a solid-state electrolyte (SSE) is
crucial for
overcoming the side reactions of metal potassium anodes and advancing
the progress of K-ion batteries (KIBs). Exploring the diffusion mechanism
of the K ion in SSE is important for deepening our understanding and
promoting its development. In this study, we conducted static calculations
and utilized deep potential molecular dynamics (DeepMD) to investigate
the behavior of cubic K3SbS4. The original K3SbS4 exhibited poor ionic conductivity, but we
discovered that introducing heterovalent tungsten doping created vacancies,
which significantly reduced the activation energy to 0.12 eV and enhanced
the ionic conductivity to 1.80 × 10–2 S/cm.
The diffusion of K-ions in K3SbS4 primarily
occurs through the exchange of positions with K vacancies. This research
provides insights into the design of SSE with high ionic conductivity.
Furthermore, it highlights the effectiveness of DeepMD as a powerful
tool for studying the SSE