Profile of specific antibodies to the SARS-CoV-2.

In this work, we studied the profile of IgM and IgG antibody responses to SARS-CoV-2 in 32 patients with COVID-19 from day 1 to day 24. IgM remained measurable for a much shorter period than IgG, suggesting that IgG antibody may represent the primary immune response.

Evolutionary and phylodynamic analyses of Dengue virus serotype I in Guangdong Province, China, between 1985 and 2015.

To determine the evolutionary and phylodynamic history of DENV-1 in Guangdong, the strains detected between 1985 and 2015 were determined with phylogenetic and Bayesian analyses of the E gene. Three DENV-1 genotypes (I, V, and VI) were circulating in Guangdong, and genotype I was detected most frequently. The evolutionary rate of DENV-1 was estimated to be 1.03 × 10-3 nucleotide substitutions/site/year. The most recent ancestor of the viruses existed approximately 141 years ago. The observed epidemiological dynamics correlated with similar fluctuations in diversity, and the epidemiological dynamics of DENV-1 transmission reflect dramatic changes in the viral population sizes. Two recombination events were identified in those strains. The selection pressures were estimated and revealed an abundance of negatively selected sites but few positively selected sites. These data improve our understanding of the evolution and molecular epidemiology of DENV-1 and provide insights that will facilitate the surveillance and control of DENV-1.

A sensitive and practical method to detect the T790M mutation in the epidermal growth factor receptor.

The current study aimed to develop a method to rapidly, sensitively and practically screen for the epidermal growth factor receptor (EGFR) T790M mutation. This method combines an allele-specific competitive blocker (ACB) with a TaqMan quantitative polymerase chain reaction (PCR) amplification refractory mutation system (ARMS) in a one-step reaction. Using a mimic of a human genomic DNA panel containing serially diluted mutant alleles, the performance efficacy of this method was assessed. Using this method, the EGFR T790M mutation was detected in tyrosine kinase inhibitor (TKI)-naïve samples obtained from 27 non-small cell lung cancer (NSCLC) patients with EGFR-activating mutations. The association between de novo T790M mutations and the clinical benefit of EGFR-TKI treatment was also analysed. The sensitivity of this method was as low as 0.01%. In the samples from the 27 NSCLC patients, this method identified 6 mutant patients (22.2%), which was higher than the detection rate with scorpion ARMS (0.0%). No clinical variables were associated with the occurrence of a de novo T790M mutation. The median progression-free survival time in the TKI-naïve patients with a T790M mutation was shorter that that of patients without the mutation, but the difference was not significant (3.2 vs. 19.5 months, respectively; P=0.256). The median overall survival time in the groups with or without T790M mutation also did not significantly differ (10 vs. 20 months, respectively; P=0.689). Overall, the ACB-ARMS PCR method could be useful for detecting the EGFR T790M mutation in clinical samples that contain only a small number of mutant alleles. The clinical significance of a de novo T790M mutation should be further investigated.

Detection of low-level DNA mutation by ARMS-blocker-Tm PCR.

BACKGROUND: Low-level DNA mutations play important roles in cancer prognosis and treatment. However, most existing methods for the detection of low-level DNA mutations are insufficient for clinical applications because of the high background of wild-type DNA. DESIGN AND METHOD: In this study, a novel assay based on Tm-dependent inhibition of wild type template amplification was developed. The defining characteristic of this assay is an additional annealing step was introduced into the ARMS-blocker PCR. The temperature of this additional annealing step is equal to the Tm of the blocker. Due to this additional annealing step, the blocker can preferentially and specifically bind the wild-type DNA. Thus, the inhibition of wild type template is realized and the mutant DNA is enriched. RESULTS: The sensitivity of this assay was between 10(-4) and 10(-5), which is approximately 5 to 10 times greater than the sensitivity of the assay without the additional annealing step. To evaluate the performance of this assay in detecting K-ras mutation, we analyzed 100 formalin-fixed paraffin-embedded (FFPE) specimens from colorectal cancer patients using this new assay and Sanger sequencing. Of the clinical samples, 27 samples were positive for K-ras mutation by both methods. CONCLUSIONS: Our results indicated that this new assay is a highly selective, convenient, and economical method for detecting rare mutations in the presence of higher concentrations of wild-type DNA.

Detection of Zaire Ebola virus by real-time reverse transcription-polymerase chain reaction, Sierra Leone, 2014.

During the 2014 Ebola virus disease (EVD) outbreak, a real-time quantitative polymerase chain reaction was established to detect and identify the Zaire Ebola virus. We describe the use of this assay to screen 315 clinical samples from EVD suspected person in Sierra Leone. The detection rate in blood samples was 77.81% (207/266), and there were relatively higher detection rate (79.32% and 81.42%, respectively) during the first two weeks after onset of symptoms. In the two weeks that followed, the detection rate declined to 66.67% and 25.00%, respectively. There was the highest virus load at the first week and then decreased. The detection rate in swab samples was 89.79% (44/49). This may be benefit from the included patients. 46 of 49 swab samples were collected from died patients. Taken together, the results presented here indicate that the assay specifically and sensitively detects Zaire Ebola virus.

Detection of avian influenza A/H7N9/2013 virus by real-time reverse transcription-polymerase chain reaction.

The first case of avian influenza A/H7N9 infection was reported in Shanghai in mid-February, 2013; by May 1, 2013, it had infected 127 people and caused 26 deaths in 10 provinces in China. Therefore, it is important to obtain reliable epidemiological data on the spread of this new infectious agent, a need that may be best met by the development of novel molecular methods. Here, a new method was described for the detection of avian influenza A/H7N9 using real-time reverse transcription-polymerase chain reaction (rRT-PCR). Using serial dilutions of avian influenza A H7N9 cultures, the detection limit of the assay was determined to be approximately 3.2×10(-4) HAUs (hemagglutination units) for the H7 gene and 6.4×10(-4) HAUs for N9 gene. In tests of serial dilutions of in vitro-transcribed avian influenza A H7 and N9 gene RNA, positive results were obtained for target RNA containing at least three copies of the H7 gene and six copies of the N9 gene. Thirteen throat swabs from H7N9 patients were tested; all tested positive in the assay. Specificity was evaluated by testing 18 other subtypes of influenza viruses; all tested negative. A total of 180 throat swabs from patients infected with influenza virus, including 60 from patients infected with seasonal influenza A/H1N1 virus, 60 from patients infected with pandemic influenza A/H1N1/2009 virus, 30 from patients infected with seasonal influenza A/H3N2 virus and 30 from patients infected with influenza B virus, were also tested; all tested negative.

The mechanism of the G0/G1 cell cycle phase arrest induced by activation of PXR in human cells.

CONTEXT: Pregnane X receptor (PXR) is an important transcriptional regulator that plays important roles in the cell metabolism and cell growth by regulating the transcriptional of a sort of metabolizing enzymes. OBJECTIVE: To investigate whether rifampicin effected HepG2 cells growth and the inhibition was due to the G0/G1 phase arrest. METHODS: PXR-knockdown experiments using RNAi showed that the cell cycle phase arrest mediated by rifampicin based on activation of PXR. The results also indicated that cell phase arrest by rifampicin could protect cells form UVB-induced DNA damage. Retinoid X receptor alpha (RXRα) expression level in cells is another key factor for cell cycle phase arrest mediated by rifampicin. Both over expression and lacking expression of RXRα in cell reduced the cell arrest efficiency mediated by rifampicin. In the study, we found that rifampicin inhibited HepG2 cells growth and demonstrated that the inhibition is due to the G0/G1 phase arrest through flow cytometry analysis. CONCLUSION: The results showed that RXRα promote cell cycle phase transition rate of HepG2. Competitive bind of rifampicin-activated PXR with RXRα is one main reason to arrest cell cycle phase through inhibiting combination of RXRα with other partners. Rifampicin could promote cell growth rate when RXRα expressed more excessively than PXR in cells.