Methylenetetrahydrofolate reductase (MTHFR) and thymidylate synthase (TS) are key enzymes in folate metabolism, which is essential for normal DNA methylation and synthesis. Common polymorphisms at the MTHFR nucleotides position 677 (C-T) and a 28-bp tandem repeat polymorphism (2R or 3R) in the TS promoter enhancer region (TSER) have been reported to be functional and are supposed to disturb the normal DNA methylation and synthesis leading to carcinogenesis. To investigate the association between these polymorphisms and the risk of esophageal squamous cell carcinoma (ESCC) and gastric cardia adenocarcinoma (GCA), we conducted a case-control study in the Anyang area where the incidence of ESCC is highest in northern China. Subjects consisted of 275 cases with ESCC, 129 cases with GCA and 310 sex- and age-matched cancer-free controls. The risk was evaluated in terms of age-sex adjusted odds ratios (ORs) and 95% confidence intervals (CIs) by unconditional logistic regression model. The ORs for the MTHFR677TT genotype compared with the MTHFR677CC/CT genotype were 1.62 (95% CI = 1.15-2.30) and 1.81 (1.17-2.81) for ESCC and GCA, respectively. The ORs for the TSER 2R/2R genotype relative to the other genotypes were 2.44 (0.89-6.73) and 3.94 (1.29-12.0) for SCC and GCA, respectively. These findings indicated that the folate metabolism plays an important role in carcinogenesis of ESCC and GCA and the common functionally polymorphisms MTHFRC677T and TSER have substantial influence in this metabolic pathway.
Indium thin oxide (ITO)-free planar perovskite solar cells (PSCs) were fabricated at a low temperature (150 °C) in this work based on the transparent electrode of photolithography processed nickel/gold (Ni/Au) mesh and the high conductivity polymer, PH1000. Ultrathin Au was introduced to increase the conductivity of metal mesh, and the optimal hexagonal Ni (30 nm)/Au (10 nm) mesh (line width of 5 μm) shows a transmittance close to 80% in the visible light region and a sheet resistance lower than 16.9 Ω/sq. The conductive polymer PH1000 not only smooths the raised surface of the metal mesh but also enhances the charge collection ability of metal mesh. The fabricated PSCs have the typical planar structure (glass/Ni-Au mesh/PH1000/PEDOT:PSS/MAyFA1−yPbIxCl3−x/PCBM/BCP/Ag) and the champion PSC (0.09 cm2) obtains a power conversion efficiency (PCE) of 13.88%, negligible current hysteresis, steady current density and PCE outputs, and good process repeatability. Its photovoltaic performance and stability are comparable to the reference PSC based on the ITO electrodes (PCE = 15.70%), which demonstrates that the Ni/Au mesh transparent electrodes are a promising ITO alternative to fabricate efficient PSCs. The relatively lower performance of Ni/Au based PSC results from the relatively slower charge extraction and stronger charge recombination than the ITO based PSC. Further, we tried to fabricate the large area (1 cm2) device and achieve a PCE over 6% with negligible hysteresis and steady current density and PCE outputs. The improvements of perovskite film quality and interface modification should be an effective approach to further enhance the device performance of Ni/Au based PSCs, and the Ni/Au mesh electrode may find wider applications in PSCs and flexible devices.
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