数字PCR在食源性致病菌检测中的应用进展

食源性致病菌是食品安全的重大隐患,对人类健康造成极大危害,因此亟待研究和建立精准有效的食源性致病菌检测方法。随着单分子检测技术的快速发展,数字PCR技术因其具有超高的灵敏度、稳定性和低试剂消耗等优点而被广泛应用于食源性致病菌的检测。主要介绍了数字PCR的基本原理及其研究进展,深入探讨了其在检测大肠杆菌（Escherichia coli）、沙门氏菌（Salmonella）、金黄色葡萄球菌（Staphylococcus aureus）、空肠弯曲菌（Campylobacter jejuni）、志贺氏菌（Shigella）、克罗诺杆菌（Cronobacter）、副溶血性弧菌（Vibrio parahaemolyticus）、单核细胞增生李斯特氏菌（Listeria monocytogenes）和蜡状芽孢杆菌（Bacillus cereus）中的应用,为今后该技术在食源性致病菌检测中的研究与应用提供一定的技术性参考。     

Combating trastuzumab resistance by targeting SRC, a common node downstream of multiple resistance pathways

Trastuzumab is a successful rationally designed ERBB2-targeted therapy. However, about half of individuals with ERBB2-overexpressing breast cancer do not respond to trastuzumab-based therapies, owing to various resistance mechanisms. Clinically applicable regimens for overcoming trastuzumab resistance of different mechanisms are not yet available. We show that the nonreceptor tyrosine kinase c-SRC (SRC) is a key modulator of trastuzumab response and a common node downstream of multiple trastuzumab resistance pathways. We find that SRC is activated in both acquired and de novo trastuzumab-resistant cells and uncover a novel mechanism of SRC regulation involving dephosphorylation by PTEN. Increased SRC activation conferred considerable trastuzumab resistance in breast cancer cells and correlated with trastuzumab resistance in patients. Targeting SRC in combination with trastuzumab sensitized multiple lines of trastuzumab-resistant cells to trastuzumab and eliminated trastuzumab-resistant tumors in vivo, suggesting the potential clinical application of this strategy to overcome trastuzumab resistance.     

The fat mass and obesity associated gene, FTO, is also associated with osteoporosis phenotypes

Obesity and osteoporosis are closely correlated genetically. FTO gene has been consistently identified to be associated with obesity phenotypes. A recent study reported that the mice lacking Fto could result in lower bone mineral density (BMD). Thus, we hypothesize that the FTO gene might be also important for osteoporosis phenotypes. To test for such a hypothesis, we performed an association analyses to investigate the relationship between SNPs in FTO and BMD at both hip and spine. A total of 141 SNPs were tested in two independent Chinese populations (818 and 809 unrelated Han subjects, respectively) and a Caucasian population (2,286 unrelated subjects). Combining the two Chinese samples, we identified 6 SNPs in FTO to be significantly associated with hip BMD after multiple testing adjustments, with the combined P values ranged from 4.99×10⁻⁴–1.47×10⁻⁴. These 6 SNPs are all located at the intron 8 of FTO and in high linkage disequilibrium. Each copy of the minor allele of each SNP was associated with increased hip BMD values with the effect size (beta) of ∼0.025 and ∼0.015 in the Chinese sample 1 and 2, respectively. However, none of these 6 SNPs showed significant association signal in the Caucasian sample, by presenting some extent of ethnic difference. Our findings, together with the prior biological evidence, suggest that the FTO gene might be a new candidate for BMD variation and osteoporosis in Chinese populations.     

Reducing basal salicylic acid enhances Arabidopsis tolerance to lead or cadmium

Aims

Phytoremediation is an emerging strategy for the removal of heavy metal contaminants. However, one of the prerequisite is to understand adequately plant resistant mechanisms. The present study was performed to assess the role of endogenous SA in plant response to Pb or Cd using wild-type (wt) Arabidopsis and its SA-accumulating mutant snc1, SA-reducing transgenic line nahG, SA signal-blocking npr1-1, and snc1/nahG (i.e. expression of nahG in snc1 plant) with a comparable level of SA to the wt.

Methods

Plants were grown hydroponically in controlled conditions. For heavy metal exposure, Pb²⁺ or Cd²⁺ at final concentrations of 50 μM, 100 μM, and 150 μM, respectively, was added to the culture solution. Unless otherwise indicated, samples were harvested after 7 d of exposure, and used for analyses.

Results

Compared to the wt level, the high endogenous SA significantly potentiated Pb- and Cd-induced plant growth retardation, whereas SA deficiency decreased the growth inhibition, and SA signaling blockage also had some protective effect. The expression of nahG in snc1 plant mitigated effectively the growth inhibition. The SA-related mechanism was involved in redox homeostasis, photosynthetic process, and soluble matter accumulation.

Conclusions

These results suggest that Pb- or Cd-induced phytotoxicity in Arabidopsis was intensified by elevated endogenous SA, whereas ameliorated by reduced SA.     

Synthesis,radioprotective activity and pharmacokinetics characteristic of a new stable nitronyl nitroxyl radical-NIT2011

A new stable nitronyl nitroxyl radical NIT2011 was synthesized and characterized. The radioprotective effect and pharmacokinetics profiles of NIT2011 were investigated. The results showed that when irradiation exposure dose was 6.5 Gy gama radiation, the survival rate in the irradiation-only group was 20% on 30th day. The survival rate was 70%, 80%, and 90% on 30th day when mice were pretreated with 0.25, 0.5 and 1.0 mmol/kg NIT2011, respectively. The pretreatment of NIT2011 increased number of spleen colonies, the numbers of bone marrow cells and protein level in bone marrow cells. Pretreatment with NIT2011 prior to radiation exposure increased the plasma SOD (superoxide dismutase) activity. 24 h after irradiation exposure, level of plasma MDA (malondialdehyde) in irradiation-only mice was 14.8 ± 2.8 nmol/mL, level of plasma MDA in NIT2011 (1 mmol/kg) pretreated mice was 9.8 ± 2.0 nmol/mL. Three days after irradiation exposure, the micronucleus ratio in irradiation-only mice is 40.2 ± 3.6, the micronucleus ratio in NIT2011 (1 mmol/kg) pretreated mice was 11.7 ± 1.2. NIT2011 was easily absorbed in mice after it was oral administrated. Compared with the intraperitoneal injection, the relative oral bioavailability of the NIT2011 was 27.5% in mice. The LD₅₀ of NIT2011 was 1510 mg/kg in mice by oral administration. Thus, NIT2011 has potential in being developed as an oral dosage form, safe and effective radioprotective agent.     

Silicon Anode with High Initial Coulombic Efficiency by Modulated Trifunctional Binder for High‐Areal‐Capacity Lithium‐Ion Batteries

High‐capacity electrode materials play a vital role for high‐energy‐density lithium‐ion batteries. Silicon (Si) has been regarded as a promising anode material because of its outstanding theoretical capacity, but it suffers from an inherent volume expansion problem. Binders have demonstrated improvements in the electrochemical performance of Si anodes. Achieving ultrahigh‐areal‐capacity Si anodes with rational binder strategies remains a significant challenge. Herein, a binder‐lithiated strategy is proposed for ultrahigh‐areal‐capacity Si anodes. A hard/soft modulated trifunctional network binder (N‐P‐LiPN) is constructed by the partially lithiated hard polyacrylic acid as a framework and partially lithiated soft Nafion as a buffer via the hydrogen binding effect. N‐P‐LiPN has strong adhesion and mechanical properties to accommodate huge volume change of the Si anode. In addition, lithium‐ions are transferred via the lithiated groups of N‐P‐LiPN, which significantly enhances the ionic conductivity of the Si anode. Hence, the Si@N‐P‐LiPN electrodes achieve the highest initial Coulombic efficiency of 93.18% and a stable cycling performance for 500 cycles at 0.2 C. Specially, Si@N‐P‐LiPN electrodes demonstrate an ultrahigh‐areal‐capacity of 49.59 mAh cm^?2. This work offers a new approach for inspiring the battery community to explore novel binders for next‐generation high‐energy‐density storage devices.     

Jumonji domain‐containing protein 6 protein and its role in cancer

The jumonji domain‐containing protein 6 (JMJD6) is a Fe(II)‐ and 2‐oxoglutarate (2OG)‐dependent oxygenase that catalyses lysine hydroxylation and arginine demethylation of histone and non‐histone peptides. Recently, the intrinsic tyrosine kinase activity of JMJD6 has also been reported. The JMJD6 has been implicated in embryonic development, cellular proliferation and migration, self‐tolerance induction in the thymus, and adipocyte differentiation. Not surprisingly, abnormal expression of JMJD6 may contribute to the development of many diseases, such as neuropathic pain, foot‐and‐mouth disease, gestational diabetes mellitus, hepatitis C and various types of cancer. In the present review, we summarized the structure and functions of JMJD6, with particular emphasis on the role of JMJD6 in cancer progression.