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The association between single-nucleotide polymorphisms (SNPs) of the CYP1B1 gene and lung cancer risk is still ambiguous.
In this meta analysis, we assessed 10 case–control studies included 7,067 cases and 9,374 controls of the association between
CYP1B1 SNPs of Leu432Val (rs1056836, 432C>G), Asn453Ser (rs1800440, 453A>G), Ala119Ser (rs1056827, 119G>T), Arg48Gly (rs10012,
48C>G) and the risk of lung cancer. Crude odds ratios (ORs) with 95% confidence intervals (CIs) were used to evaluate the
strength of association between the polymorphism and lung cancer risk under codominant model, dominant model and additive
model respectively. Although there were limitations, this meta analysis indicated that individuals with 432GG genotype had
a 39.7% higher risk of having lung cancer than those with the 432CC genotype, and individuals with the 432G allele had a 26.3%
increased risk as well. An increased risk of lung cancer of 2.13 fold was observed in individuals with 119TT genotype. For
Arg48Gly, individuals with 48GG genotype had a significantly increased risk of lung cancer compared with individuals with
48CC (OR 3.859; 95% CI 2.536–5.87). Elevated risk of lung cancer were observed in dominant model (OR 2.115; 95% CI 1.653–2.705)
as well. The risk of lung cancer was elevated as the frequency of G allele increased in additive model (P = 0.000). For individuals with the polymorphism at codon 453, no evidence of such association was observed. Furthermore,
a possible association between the CYP1B1 polymorphism at codon 432 and the lung cancer could be detected in individuals of
Caucasian origin, while a negative association was suggested in Asians and African-Americans. An increased lung cancer risk
was also found in women with polymorphism at codon 453. These results are supportive for the hypothesis that the CYP1B1 432GG,
119TT and 48GG genotypes are low-penetrance risk factors for developing lung cancer, and further studies are needed to validate
these associations. 相似文献
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Shoulong Deng Qian Wu Kun Yu Yunhai Zhang Yuchang Yao Wenting Li Zhuo Deng Guoshi Liu Wu Li Zhengxing Lian 《PloS one》2012,7(10)
Background
Many groups of Gram-negative bacteria cause diseases harmful to sheep. TLR4 is an important Toll-like receptor (TLR) which responds to common Gram-negative bacterial infections. Activation of TLR4 leads to the induction of inflammatory responses, which is a linkage between the innate and adaptive immune systems. A vector pTLR4-3S was constructed to overexpress TLR4 gene in sheep. In this study, effects of TLR4 overexpression on inflammation response under LPS stimulated were addressed in vivo and in vitro.Methodology/Principal Findings
Sheep fetal fibroblasts were transfected with expression vector pTLR4-3S. Transgenic sheep were produced by microinjection of the constructed plasmids into fertilized eggs. Fetal fibroblasts, monocyte-macrophage and fibroblasts isolated from the transgenic sheep were stimulated by LPS. After that immunoactive factors (TNF-α, IL-10, IL-6, IL-8, IFN-γ), nitric oxide, phagocytize ability and adhesion were detected. Furthermore, transgenic sheep were intradermal injected of LPS in ear and observed pathological changes by HE strain. Overexpression of TLR4 gene was observed on transgenic cells and individuals. In vitro, TLR4 overexpression transgenic cells secreted Th1 and Th2 inducing cytokines with a strong LPS mediated inflammation response and promoting the secretion of nitric oxide, and then recovered to initial level. The phagocytosis index of monocyte/macrophage in transgenic sheep was higher than that of non-transgenic sheep (P<0.05). In vivo, tissue sections showed that transgenic individuals launched inflammation response more quickly.Conclusions/Significance
Overexpression of TLR4 in transgenic sheep enhanced the clearance of invaded microbe through secretion of cytokines, activation of macrophage, oxidation damage and infiltration of neutrophil. 相似文献73.
Guang Wang Wen-qing Huang Shu-dan Cui Shuai Li Xiao-yu Wang Yan Li Manli Chuai Liu Cao Jiang-chao Li Da-xiang Lu Xuesong Yang 《Cell cycle (Georgetown, Tex.)》2015,14(5):772-783
Both pre-gestational and gestational diabetes have an adverse impact on heart development, but little is known about the influence on the early stage of heart tube formation. Using early gastrulating chick embryos, we investigated the influence of high glucose on the process of heart tube formation, specifically during the primary heart field phase. We demonstrated that high-glucose exposure resulted in 3 types of heart tube malformation: 1) ventricular hypertrophy, 2) ventricular hypertrophy with dextrocardia and 3) ventricular hypertrophy and dextrocardia with the fusion anomaly of a bilateral primary heart tube. Next, we found that these malformation phenotypes of heart tubes might mainly originate from the migratory anomaly of gastrulating precardiac mesoderm cells rather than cell proliferation in the developmental process of bilateral primary heart field primordia. The treatment of rapamycin (RAPA), an autophagy inducer, led to a similar heart tube malformation phenotype as high glucose. Additionally, high-glucose exposure promoted the expression of the key autophagy protein LC3B in early chick tissue. Atg7 is strongly expressed in the fusion site of bilateral primary heart tubes. All of these data imply that autophagy could be involved in the process of high-glucose-induced malformation of the heart tube. 相似文献
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Kevin R. Wilcox Andrew T. Tredennick Lauren M. Hallett Juha M. Alatalo Andrew H. Baldwin Edward W. Bork Elizabeth H. Boughton William D. Bowman Andrea J. Britton James F. Cahill Jr. Scott L. Collins Guozhen Du Anu Eskelinen Laura Gough Anke Jentsch Christel Kern Kari Klanderud Alan K. Knapp Juergen Kreyling Yiqi Luo Jennie R. McLaren Patrick Megonigal Vladimir Onipchenko Janet Prevéy Jodi N. Price Clare H. Robinson Osvaldo E. Sala Melinda D. Smith Nadejda A. Soudzilovskaia Lara Souza David Tilman Shannon R. White Zhuwen Xu Laura Yahdjian Qiang Yu Pengfei Zhang Yunhai Zhang 《Ecology letters》2017,20(12):1534-1545
Temporal stability of ecosystem functioning increases the predictability and reliability of ecosystem services, and understanding the drivers of stability across spatial scales is important for land management and policy decisions. We used species‐level abundance data from 62 plant communities across five continents to assess mechanisms of temporal stability across spatial scales. We assessed how asynchrony (i.e. different units responding dissimilarly through time) of species and local communities stabilised metacommunity ecosystem function. Asynchrony of species increased stability of local communities, and asynchrony among local communities enhanced metacommunity stability by a wide range of magnitudes (1–315%); this range was positively correlated with the size of the metacommunity. Additionally, asynchronous responses among local communities were linked with species’ populations fluctuating asynchronously across space, perhaps stemming from physical and/or competitive differences among local communities. Accordingly, we suggest spatial heterogeneity should be a major focus for maintaining the stability of ecosystem services at larger spatial scales. 相似文献
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Sodium‐ion batteries (SIBs) that operate in a wide temperature range are in high demand for practical large‐scale electric energy storage. Herein, a novel full SIB is composed of a bulk Bi anode, a Na3V2(PO4)3/carbon nanotubes composite (NVP‐CNTs) cathode and a NaPF6‐diglyme electrolyte. The Bi anode gradually evolves into a porous network in the ether‐based electrolyte during initial cycles, and in the NVP‐CNTs cathode the NVP is cross linked by CNTs to show large exchange current density. These unique features merit the full SIB of Bi//NVP‐CNTs with high Na+ diffusion coefficient and low reaction activation energy, and hence fast Na+ transport and facile redox reaction kinetics. The resultant full SIB presents high power density of 2354.6 W kg?1 and energy density of 150 Wh kg?1 and superior cycling stability in a wide temperature range from ?15 to 45 °C. This will shed light on battery design, and promote their development for practical applications in various weather conditions. 相似文献
78.
Heterotrimeric G proteins are involved in multiple cellular processes in eukaryotes by sensing and transducing various signals. G protein signaling in plants is quite different from that in animals, and the mechanisms of plant G protein signaling are still largely unknown. Several recent studies have provided new insights into the mechanisms of G protein signaling in rice grain size and yield control. In this review,we summarize recent advances on the function of G proteins in rice grain size control and discuss the potential genetic and molecular mechanisms of plant G protein signaling. 相似文献
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Maintenance of genome integrity is crucial for the germline, and this is reflected by lower mutation rates in gametes than somatic cells. Germ cells at different stages employ different DNA damage response (DDR) mechanisms. In response to certain DNA repair defects, primordial germ cells (PGCs) either undergo apoptosis or delayed proliferation, although little is known about the underlying mechanisms that govern these outcomes. Here, we report genetic studies of DDR pathways that underlie germ cell depletion in mice mutant for minichromosome maintenance 9 (Mcm9), a gene that plays a role in homologous recombination repair (HRR). Germ cell depletion in these mice is a result of reduced PGC numbers both before and after they arrive in the primitive gonads. This reduction was attributable to reduced proliferation, not apoptosis, and this response was independent of ATM‐CHK2‐TRP53‐P21 signaling. This mechanism of PGC depletion differs from that in Fancm mutants, which also display reduced PGC depletion that is partially orchestrated by the ATM‐TRP53‐P21 pathway. Germ cell depletion in mice doubly deficient for FANCM and MCM9 was additive, indicating that the damage caused by each mutation triggers different DDR pathways to slow the cell cycle as a means to preserve genomic integrity. genesis 53:678–684, 2015. © 2015 Wiley Periodicals, Inc. 相似文献