An
in situ microwave-assisted synthesis approach has been developed to
prepare N-TiO2/g-C3N4 composites
using H2TiO3 as the reactant and NH3·H2O as the N-doping source. In this way, the N-TiO2/g-C3N4 composite catalysts have a porous
structure and large surface areas, which increase the contact area
of pollutants. Degradation of rhodamine B (Rh B) and methylene blue
(MB) were carried out to evaluate the photocatalytic activity of samples
under visible light irradiation. N-TiO2/g-C3N4 composite with 40 wt % N-TiO2 exhibits the
highest photocatalytic activity and the optimal temperature is 400
°C. The increased photocatalytic activity of N-TiO2/g-C3N4 composites can be attributed to the
formation of the heterojunction between N-TiO2 and g-C3N4, which suppresses the recombination of photoinduced
electron–hole pairs. The tests of radical scavengers confirmed
that •O2
– was the main
reactive species during the photocatalytic process.
In the past 50 years there have been considerable efforts to identify the cellular receptor of hepatitis B virus (HBV). Recently, in vitro evidence from several groups has shown that the sodium-taurocholate cotransporting polypeptide (NTCP, which is encoded by SLC10A1 and transports bile acids into hepatic cells in enterohepatic recirculation) is a strong candidate. In particular, in vitro the p.Ser267Phe variation of SLC10A1 results in loss of HBV receptor function. We tested the role of NTCP as a receptor for HBV in chronic hepatitis B patients using a genetic association study. We selected SLC10A1 variants from 189 exomes. We used Sanger sequencing to follow up the association of the various SLC10A1 variants in a Han Chinese cohort of 1899 chronic hepatitis B patients and 1828 healthy controls. We further investigated the potential impact of the p.Ser267-Phe variant on NTCP function using structural analysis. The p.Ser267Phe variant was associated with healthy status (P 5 5.7 3 10 223 , odds ratio 5 0.36) irrespective of hepatitis B virus surface antibody status (P 5 6.2 3 10 221 and 1.5 3 10 210 , respectively, when the cases were compared with hepatitis B virus surface antibody-positive and -negative controls). The variation was also associated with a lower incidence of acute-on-chronic liver failure (P 5 0.007). The estimated heritability explained by this single variation was 3.2%. The population prevented fraction was around 13.0% among the southern Chinese. Our structural modeling showed that the p.Ser267Phe variant might interfere with ligand binding, thereby preventing HBV from cellular entry. Conclusion: The p.Ser267Phe NTCP variant is significantly associated with resistance to chronic hepatitis B and a lower incidence of acute-on-chronic liver failure. Our results support that NTCP is a cellular receptor for HBV in human infection. (HEPATOLOGY 2015;61:1251-1260 C hronic hepatitis B (CHB) affects approximately 240 million people worldwide and is responsible for about 780,000 deaths annually (http://www.who.int/mediacentre/factsheets/fs204/en/).Clinically, CHB holds the most significant medical consequences among hepatitis B virus (HBV)-infected individuals. Acute-on-chronic liver failure (ACLF) is the most urgent and lethal condition related to CHB.Abbreviations: ACLF, acute-on-chronic liver failure; AIM, ancestry-informative marker; ASBT, apical sodium-dependent bile acid transporter; CHB, chronic hepatitis B; HBV, hepatitis B virus; HBsAb, hepatitis B virus surface antibody; HBsAg, hepatitis B virus surface antigen; HDV, hepatitis D virus; NTCP, sodiumtaurocholate cotransporting polypeptide..From the
Background: The purpose of this retrospective study was to evaluate the renal biopsies performed on type 2 diabetic patients for suspicion of nondiabetic renal disease (NDRD) and to correlate the pathological finding with the clinical and laboratory findings. Methods: From January 1999 to December 2009, 220 people with type 2 diabetes for clinically suspected NDRD underwent renal biopsy. The case records of these patients were retrospectively analyzed. Based on the biopsy findings, patients were divided into two groups: Group I, isolated diabetic glomerulosclerosis (DGS), and Group II, NDRD with underlying DGS. Clinical and laboratory data were analyzed in relation to the histopathological findings. Results: Of the 220 patients studied, 153 were males and 67 were females. The average age was 51.35 years (30-79). Renal biopsy showed that 100 patients (45.5%) had NDRD with underlying DGS. Group II had a significantly higher level of proteinuria and hematuria but less frequent diabetic retinopathy. There was no significant difference between the two groups in age, duration of diabetes, presence of hypertension, serum creatinine, and glomerular filtration rate. IgA nephropathy was the most common, accounting for 34% of Group II, membranous nephropathy ranked second accounting for 22.0%, followed by mesangial proliferative nephritis for 14%. Conclusion: This study showed that IgA nephropathy is the commonest NDRD among diabetics. The absence of retinopathy, especially when associated with nephritic proteinuria and hematuria, strongly predicts NDRD superimposed on DGS. Renal biopsy should be performed in diabetics when the clinical scenario is atypical.
Desulfurization of dibenzothiophene (DBT) by a combination of both chemical oxidation and solvent extraction was investigated. Me 3 NCH 2 C 6 H 5 Cl•2ZnCl 2 ionic liquid was prepared from cheap starting materials and used as extractant for oxidative desulfurization of DBT in n-octane. DBT in oil phase was extracted into ionic liquid phase and then oxidized to its corresponding sulfone by H 2 O 2 and equal volume of acetic acid. The desulfurization yield of DBT in n-octane was 94% at 30 min under the conditions of H 2 O 2 /DBT molar ratio at 6 and V (ionic liquid) : V (n-octane) = 1 : 5, which was remarkably higher than that by mere extraction with ionic liquid (28.9%). The Me 3 NCH 2 C 6 H 5 Cl•2ZnCl 2 ionic liquid could be recycled six times without a significant decrease in activity. Kinetics of oxidative desulfurization of DBT by H 2 O 2 and acetic acid was first-order with an apparent rate constant of 0.0842 min -1 and half-time of 8.23 min.
xEt3NHCl·FeCl3 (x = 1.4−1.8) ionic liquids were synthesized by mixing Et3NHCl and anhydrous FeCl3 at 80 °C. These were liquid at room temperature, with low viscosities, and exhibited remarkable abilities in effective desulfurization of thiophene in n-octane and fluid catalytic cracking (FCC) gasoline. Among them, 1.6Et3NHCl·FeCl3 showed the highest sulfur removal. The anionic species FeCl4
− existed in 1.6Et3NHCl·FeCl3 ionic liquid, as detected by electrospray ionization−mass spectrometry (ESI−MS), and the ionic liquid was stable in air and moisture. Sulfur-free (<10 mg/L) gasoline could be obtained after extraction twice using an ionic liquid/oil volume ratio of 1. The ionic liquid could be recycled 10 times by distillation with a slight decrease in activity.
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