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The 2019 novel coronavirus (2019-nCoV) is a newly discovered pathogen in 2019. The coronavirus disease (COVID-19) has spread around the world and has greatly affected global health and the world economy. It is a positive-sense single-stranded RNA virus, which generates subgenomic RNA from discontinuous transcription of the replication-transcription complex (RTC). This discontinuous transcription is regulated by transcriptional regulatory sequences/elements, produced by switching templates on genomic RNA. At present, the detection methods of subgenomic RNA include the next generation sequencing, nanopore sequencing, reverse transcription dropletdigital polymerase chain reaction, reverse transcription real-time quantitative polymerase chain reaction, etc. Subgenomic RNA is produced only when the virus infects cell, so it may be a novel marker for viral replication.
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Objective:To study the molecular phylogeny and virulence gene profile of Francisella salimarina. Methods:Phylogenetic analysis of Francisella salimarina was performed based on the global genome data of related Francisella species on GenBank database. The consistency in phylogenetic analysis based on single marker genes (such as 16S rRNA gene, rpoB gene and mdh gene) and the core genome as compared. Virulence genes and antibiotic resistance genes were annotated using the virulence factor database (VFDB) and the Comprehensive Antibiotic Resistance Database (CARD), respectively. The virulence of Francisella salimarina was analyzed with a Galleria mellonella (greater wax moth) infection model using Francisella philomiragia ATCC 25015 T as reference strain. Results:The phylogenetic analysis revealed that Francisella salimarina was closely related to Francisella philomiragia. The phylogenetic tree based on mdh gene was highly similar to that based on the core genome. Francisella salimarina could be differentiated from other related species by 16S rRNA gene or mdh gene, with the latter being more accurate. Eight Francisella salimarina strains carried multiple virulence genes, mainly involved in secretion, adhesion, immune regulation, motility and stress survival. Moreover, beta-lactam resistance gene blaFPH was identified in all eight strains. Francisella salimarina showed high lethality in the Galleria mellonella infection model, which was similar to Francisella philomiragia ATCC 25015 T. Conclusions:Francisella salimarina was a rare pathogen with similar pathogenicity to Francisella philomiragia. The mdh gene could be used as a molecular target for rapid identification of Francisella salimarina.
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Objective:To analyze the biological characteristics, phylogenic features and clinical significance of SQ219 and SQ220 isolated from clinical sputum and midstream urine specimens.Methods:The culture and biochemical characteristics of the two strains were observed. VITEK2 System, drug sensitivity testing and MALDI-TOF mass spectrometry were used for bacterial identification. Phylogenetic analysis based on 16S rRNA and core genome was performed. The average nucleotide identity (ANI) based on whole genome sequences was calculated.Results:SQ219 and SQ220 were Gram-stain-negative, aerobic, catalase- and oxidase-positive, and non-motile bacteria. Their optimum growth was observed in NaCl-free medium at 30℃ and pH7. Flexirubin-type pigments were produced by SQ220 on Colombia blood agar, but not by SQ219. Both SQ219 and SQ220 were resistant to aztreonam, amikacin, tobramycin and colistin, which was consistent with the drug resistance phenotype of genus Chryseobacterium. The genome sequences of SQ219 and SQ220 were 5.08 Mb and 4.80 Mb in length, and the G+ C contents were 36.72% and 36.36%, respectively. Both strains carried β-lactam resistance gene ( blaCGA). 16S rRNA phylogenetic analysis showed that SQ219 and SQ220 were closely related to Chryseobacterium gambrini DSM18014 T with the similarities of 98.93% and 98.36%, respectively. Core genome phylogenetic analysis revealed that SQ219 and SQ220 were highly homologous to Chryseobacterium gambrini DSM18014 T. However, the ANI values between the two strains and Chryseobacterium gambrini DSM18014 T were 92.49% and 93.27%, respectively, below the threshold for prokaryotic species identification. Conclusions:Based on the phenotypic and phylogenetic data, SQ219 and SQ220 represent a novel species of the genus Chryseobacterium. This study would help promote the understanding of the evolution of Chrysobacterium and provide reference for the identification of new species of Chrysobacterium.
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Objective:To analyze the molecular epidemiological characteristics of Campylobacter fetus subsp. testudinum ( Cft). Methods:Fifteen strains of Cft collected in our laboratory from 2010 to 2022 were subjected to whole-genome sequencing. Their epidemiological characteristics were analyzed based on the global genome data of Cft on GenBank database. MLST-GrapeTree software was used to obtain the genetic structure of Cft strains. A phylogenetic tree was constructed using core-genome single nucleotide polymorphism (cgSNP) analysis, and the sequence clusters were identified using rhierBAPS. Virulence genes and drug resistance genes of Cft strains were annotated using CARD, ResFinder and VFDB database. Their susceptibility to antibiotics was tested using E-test method and the results were analyzed using the CLSI-M45 sensitivity standard for Campylobacter jejuni/ Campylobacter coli. Results:Based on average nucleotide identity (ANI) analysis, the genome data of 41 Cft strains including 24 isolated from human, 13 from animals and four of unknown sources were collected from GenBank database. Among the 24 human-derived strains, 20 were linked to Asian descent and only one was linked to Caucasian descent (spouse of Asian descent), showing statistically significant differences in human ethnicity. All of the 13 animal-derived strains were originated from reptilian sources, including six from turtles, four from snakes and three from lizards. MLST revealed that ST46 was the predominant ST in China, while ST15 was the major sequence type in the United States. Grapetree analysis also demonstrated that the genetic diversity in China was greater than that in the United States. The phylogenetic tree constructed based on cgSNP and BAPS identified six distinct sequence clusters. The Chinese isolates were scattered in diverse sequence clusters and closely related to animal-derived strains, while the American isolates mainly belonged to ST15. The genes encoding virulence factors such as flagella, glycosylation systems and adhesins were carried by all of the 41 Cft strains (100.00%). The invasion-related virulence genes, such as the genes encoding the IV type secretion system ( virB4, virB9, virD4) and the resistance-related tetO efflux pump gene were specifically identified in the emerging ST74 clones. In vitro drug susceptibility testing of 15 Chinese isolates revealed 46.67% of the Cft strains were resistant to ciprofloxacin and 100.00% were sensitive to erythromycin. Conclusions:The global sequence clusters of Cft isolates showed a great genetic diversity. Most of the people with Cft infection had basic immune diseases and might have eaten or had contact with reptiles. Notably, the Chinese domestic infection of ST46 and the emerging ST74 should arouse our more attention.
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Objective:To identify a pathogenic strain JM-1 isolated from the pus of a patient stabbed by a sea shrimp and to analyze its antibiotic susceptibility and virulence genes, aiming to provide reference for screening clinically related infections caused by Cysteiniphilum litorale as a rare pathogen and improving prognosis. Methods:Biochemical phenotype identification, matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS), 16S rRNA gene sequencing, analysis of average nucleotide identity (ANI) and average amino acid identity (AAI) based on the whole genome and phylogenetic analysis of the 16S rRNA gene and the whole genome were performed to accurately determine the taxonomic status of the strain JM-1. E-test was used to detect antibiotic susceptibility, and the results were interpreted according to the interpretation standards of Francisella tularensis in CLSI M45-A3. The virulence factor database (VFDB) was used for genome-wide annotation and analysis of virulence genes. Results:After culturing the strain JM-1 on the Columbia blood plate for 3 d, some grey-white, medium-sized, smooth, round and convex hemolytic colonies were observed. Gram staining result showed lightly colored Gram-negative Coccobacillus. API NH identification results suggested that the isolate JM-1 was Moraxella catarrhalis (biochemical code: 3010), while there was no identification result in Vitek2 system NH card (biochemical code: 0211002121). The EXS3000 mass spectrometer self-built database identified the isolate JM-1 as Cysteiniphilum litorale. The phylogenetic analysis based on the 16S rRNA gene and the whole genome showed that the isolate JM-1 and Cysteiniphilum litorale DSM 101832 T clustered into the same branch, and the ANI and AAI values between the two strains were 95.07% and 95.65%, respectively. The biochemical phenotype identification indicated the isolate JM-1 producing β-lactamase and penicillinase. Antibiotic susceptibility test results showed the strain was resistant to penicillin and sensitive to gentamicin, streptomycin, doxycycline, tetracycline, ciprofloxacin, levofloxacin, and chloramphenicol. Genome annotation suggested the virulence genes of the isolate JM-1 were similar to those of Francisella, including Francisella pathogenicity island (FPI), type Ⅳ fimbriae, capsule and lipopolysaccharide. Conclusions:Cysteiniphilum litorale was a rare pathogen with virulence genes similar to those of Francisella, and its antibiotic susceptibility was also similar to that of Francisella. This study confirmed a case of clinical infection caused by Cysteiniphilum litorale. The self-built MALDI-TOF MS system could be used for its rapid identification.
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We have adopted various smart tools and applied multiple teaching models to smoothly carry out our on-line teaching. Aiming at encouraging students' self-learning and independent thinking, the first task is to cultivate students' self-learning ability and independent thinking way of clinical microbiology. Our online teaching model is based on the asynchronous small private online course (SPOC) of the Chinese University MOOC, the core part of our teaching model, and supplemented by the Sojump questionnaire test and WeChat, the inter-action channels among teachers and students. All of these build up an integrated teaching system which fully embodies the "student-oriented" teaching concept and pushes forward the promotion and application of online teaching in college specialized courses.
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ObjectiveQuorum-sensing (QS) and small regulatory RNA (sRNA) play key regulatory roles in many signaling cascades of Pseudomonas aeruginosa. To investigate whether sRNA is involved in P. aeruginosa QS system, screening QS system-related sRNA, and to construct sRNA overexpression and deletion strains of Pseudomonas aeruginosa for further study of sRNA function.MethodsSRNA associated with the QS system was screened by qPCR and RNA-sequencing (RNA-seq). The target gene were amplified by PCR and inserted into the overexpression vector pROp200 or the homologous recombination vector pGSM-MR, respectively. The connection reaction solution of pROp200-sRNA and pGSM-ΔsRNA was transformed into Escherichia coli DH5a and SM10lp, respectively. The recombinant vectors were identified by PCR. The pROp200-sRNA was transformed into PAO1 by heat shock method, and the pGSM-ΔsRNA was transferred from SM10lp to PAO1 by conjugation. SRNA overexpression and deletion strains were identified by PCR, DNA sequencing and qPCR, the determination of the growth curves and the pyocyanin levels of strains.ResultsFive QS -associated sRNA P26, P5316.1, P30, P34 and AmiL were successfully screened by RNA-seq and qPCR. PCR, DNA sequencing and qPCR showed that sRNA of AmiL, P30 and P34 overexpression and knockout were successful. Compared with wild-type strain, sRNA overexpression and knockout had no significant effect on bacterial growth curve. It were notably that overexpression of AmiL and P30 inhibited and increase the production of pyocyanin, respectively (P0.05).ConclusionThe sRNA overexpression and deletion strains have been successfully constructed and can be used to study the regulatory relationship between sRNA and QS systems, and to further functional study.
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Objective@#To identify and characterize the 4 strains of Prototheca isolated from the clinical samples of skin or ascites samples in China. @*Methods@#The taxonomic position of 4 yeast-like organisms was revealed by polyphasic taxonomic approach, i.e., cultural and morphologic characteristics, commercial biochemical systems of Vitek 2 (YST kit) and Vitek matrix-assisted laser desorption/ionization time of flight (MALDI-TOF) mass spectrometry (MS) systems in combination with phylogenetic analysis based on the gene sequences of 16S and 28S rRNA. @*Results@#The 4 strains of Prototheca were characterized as cream-white, smooth, moist yeast-like colonies on Sabouraud gentamicin chloramph agar after incubation for 3 days. However, round, oval-shaped or elliptical sporangiums with mulberry-like or strawberry-like endospores were observed by optical microscope, which showed distinct differences from the general yeast species. The 4 isolates were identified as Prototheca wickerhamii with Vitek YST kits by Vitek 2 systems and Vitek MALDI-TOF MS systems. The genome for the 4 isolates was characterized with the existence of the prokaryotic 16S rRNA gene and eukaryotic 28S rRNA gene. The 16S rRNA gene sequence of the 4 strains showed more than 99.7% similarity to that of P. wickerhamii. Sequence analysis of 28S rRNA gene showed that the organisms included multiple copies of different sequences, which showed sequence similarities of 91.9% to 100% even in the same strain. The phylogenetic dendrogram based on 16S rRNA and 28S rRNA gene sequences showed that the 4 strains of Prototheca formed a cluster along with P. wickerhamii. @*Conclusion@#The 4 yeast-like organisms could be identified as P. wickerhamii, and 16S rRNA gene should be the suitable molecular target for the identification.
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Objective@#Establishing the mass spectrum library of a new Campylobacter- " C.fetus subsp.testudinum" for rapid species identification in clinical microbiology laboratory.@*Methods@#Illumina second generation sequencing platform 2000/miSeq was used to carry out high flux genome sequencing for the strains which were collected to establish mass spectrum library.The analysis oforthologous average nucleotide identity (OrthoANI) between collected strains and reference strains was performed at JAVA 8 operation environment. Then, the mass spectrums ofcollected strains andreference strains were acquired using MALDI-TOF MS. And the mass spectrum library of C. fetus subsp.testudinum. were established and verified.@*Results@#The OrthoANI analysis showed that the OrthoANI value of the collected strains and the reference strain C. fetus subsp.testudinum03-427 was 99.30%-99.96%, while the OrthoANI values of collected strains and C. fetus subsp.venerealisNCTC10354 orC.fetus subsp.fetus82-40 were 91.05%-92.26%. With reference to OrthoANI ≥ 95% as the basis for the determination of the same strain, the strains which collected to establish mass spectrum library was finally identified as " C. fetus subsp.testudinum" . The identification accuracy rate of the mass spectrum library was 100% (consistent with gene sequencing), and the confidence interval was 82.3%-99.9%, identification of the same strain is 100% reproducible.@*Conclusions@#The new" gold standard" based on high throughput sequencing and total genome analysis has provided the ideal reference value for the establishment of mass spectrum library.And the accurate and objective reference spectrum of the" C.fetus subsp.testudinum" provides a new platform for the rapid diagnosis of fetal Campylobacter infection. (Chin J Lab Med, 2018, 41: 583-588)
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Objective To investigate the effect of 3-oxo-C12-HSL on autophagy in mouse alveolar macrophages MH-S cells. Methods MH-S cells were treated with culture supernatants of the mutant and wild type Pseudomonas aeruginosa(PA) strains of LasI gene(3-oxo-C12-HSL synthetic gene) and chemically synthesized 3-oxo-C12-HSL signaling molecules. GFP puncta was observed by laser confocal fluorescence microscopy and the ratio of LC3Ⅱ/LC3Ⅰ was detected by Western blot to detect the formation of autophagic.Autophagic flux was also detected by mo-nitoring the degradation of p62 and the change of chloroquine to LC3Ⅱ/LC3Ⅰratio. Results The supernatant of the culture medium of the wild type PA strain increased the GFP puncta of the MH-S cells(P<0.05) and the ra-tio of LC3Ⅱ/LC3Ⅰ(P<0.01),The mutant PA strain of LasI gene could not cause the above changes related to autophagy. The chemically synthesized 3-oxo-C12-HSL signal molecules could increase the number of autophagic bodies and the expression of LC3Ⅱ (P<0.01). Autophagic substrate p62 was degraded by 3-oxo-C12-HSL. Chloroquine, a lysosomal inhibitor, enhanced LC3Ⅱaccumulation caused by 3-oxo-C12-HSL (P<0.05,P<0.01).Conclusions 3-oxo-C12-HSL increases the level of autophagy in MH-S cells.
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Objective To investigate the changes of antimicrobial peptide LL-37 and C-reactive protein (CRP ) in the patients with Pseudomonas aeruginosa positive sputum culture and their mutual relation . Methods Fifty cases of Pseudomonas aeruginosa positive sputum culture and 27 cases undergoing physical ex-amination in the Guangdong Provincial Hospital of Chinese Medicine from September 2016 to May 2017 were selected as the research subjects .The level of antimicrobial peptide LL-37 was detected by double antibody sandwich ELISA and the CRP level was detected by immunoturbidimetry .Results The levels of antimicrobial peptide LL-37 and CRP in the Pseudomonas aeruginosa positive sputum culture group were significantly high-er than those in the healthy control group ,the difference was statistically significant (P< 0 .05) ,and they showed the positive correlation (r=0 .411 ,P<0 .05) .Conclusion In positive sputum culture of Pseudomonas aeruginosa ,antimicrobial peptide LL-37 and CRP levels are increased ,which has a certain clinical application value for the early diagnosis of infection .
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In order to deal with the increasing number of multidrug resistant Enterobacteriaceae , polymyxins were re-introduced into clinical practice .The resistance of polymyxins had gained global attention.In addition to chromosomal mediated drug resistance , a new plasmid-mediated colistin-resistance gene mcr-1 made transferation of polymyxins resistance more easily .Here, the mechanisms of chromosome mediated polymyxin resistance and plasmide-mediated drug resistance , including the distribution , prevalence, transfer mechanism, and genetic environments of mcr-1, current methods for polymyxins susceptibility testing methods and novel qualitative detection techniques were reviewed to provide information to cope with the growing problem of bacterial drug resistance .
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Objective Reference standard of the RPOB(rifampin resistance)gene recommended by CLSI-MM18A(Interpretive Criteria for Identification of Bacteria and Fungi by DNA Target Sequencing) was used to evaluate the ability of MALDI-TOFMS techniques for the identification and classification of non-tuberculous Mycobacterium.Methods Fifty five clinicalstrains were collected from 2012 to 2016 with different sources.The RPOB gene was sequenced, and results were applied to phylogenetics analysis. MALDI-TOF MS technology was implemented to identify the strains, and cluster analysis was conducted based on protein fingerprint.The consistency of two methods for NTM identification and typing was evaluated.Results The RPOB gene method showed a good ability of identification(similarity>99.0%) and subtyping(to subspeciesof the complex level).The French BioMérieux MALDI-TOF MS identified 89.1% of 55 strains to genus level and 78.2% to species level.The phylogeneticsanalysis of protein fingerprint by SARAMS Premium software also showed good typing ability.Conclusions MALDI-TOF MS technology can identify and classify non-tuberculous Mycobacterium effectively,which is rapid and easy.It is complementary to RPOB gene method in laboratory application.
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The perpetual challenge was found for the diagnosis of newly emerging infectious diseases and reemerging infectious diseases .At present , reference laboratories for clinical microbiology were urgently demanded to deal with the challenge in China . Therefore , some suggestions for constructing reference laboratories were put forward in this paper , which may provide guidance for the future design of building comprehensive clinical microbiology laboratory .
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Objectives To identify the Francisella strain isolated from blood of a patient with drowning-associated pneumonia.Methods The whole genome of the strain,designated Wenzhou1,was sequenced using the high throughput sequencing technology by 2000/miSeq system of Illumina platform,and the obtained genome draft was assembled by MicrobeTrakr Plus software.The phylogenetic neighbors of Wenzhou1 were obtained by NCBI BLAST analysis from GenBank database for the gene sequences of 16S rRNA,malate dehydrogenase(mdh),DNA-directed RNA polymerase subunit beta (rpoB) and succinate dehydrogenase subunit alpha (sdhA).The average nucleotide identity(ANI) between Wenzhou1 and its phylogenetic neighbors was analyzed by the software OrthoANI using NCBI BLAST search under the Java Runtime Environment Version 8.Results The genome size of Wenzhou1 was 1.96 × 106 bp,containing 74 contigs.The genomic G + C mol% of Wenzhou1 was 32.1%,which was similar to the other species of genus Francisella and Allofranicella.Based on the analysis of NCBI BLAST of GenBank for the similarities of 16S rRNA gene,mdh gene,rpoB gene and sdbA gene sequences,Wenzhou1 was most closely related to F.hispaniensis FSC454 and Francisella cf.novicida 3523.The ANI of Wenzhou1 was 97.8% to F.hispaniensis FSC454,97.5% to 97.6% to Francisella cf.novicida 3523,but only 91.3% to 91.5% to the four subspecies of F.tularensis.Conclusion ANI analysis based on whole genome sequence should be an accurate,effective method for bacterial identification.Wenzhou1 could be identified as F.hispaniensis by ANI with high-throughput whole genome sequencing technology.
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Objectives To identify and characterize 10 strains of Francisella philomiragia-like organisms isolated from blood samples and environmental water.Methods The 10 clinical and environmental isolates were identified by traditional morphological examination and biochemical characterization,matrix-assisted laser desorption/ionization time of flight(MALDI-TOF) mass spectrometry(MS) systems and sequencing based on 16S rRNA gene.The minimum inhibitory concentrations were tested by E-test methods.Results All the 10 isolates were gram-negative coccobacilli appearing tiny and faint counterstain of safranin,negative for urease,nitrate reduction and X and/or V factor requirement,but positive for oxidase and catalase.The isolates grew rapidly in sheep blood agar,chocolate agar and BCYE plate forming white opaque,colorless transparent or gray smooth colonies with about 2-mm diameters,but did not grow in M-H agar and MacConkey agar.The sequencing for 16S rRNA gene indicated that the 10 isolates shared more than 99.6% similarity to Francisella philomiragia,and fell into the same clusters of Francisella philomiragia on phylogenetic tree.The MALDI-TOF MS analysis also showed the typical peaks with 6 153 m/z,5 180 m/z,7 757 m/z and 9 392 m/z which were similar to Francisella philomiragia ATCC 25015.However,they may be misidentified to be Sphingomonas paucimobilis by using Vitek 2 GN cards,Neisseria cinerea by using Vitek 2 NH cards,Myroides odoratimimus by using API 20NE strips and Haemophilus by using API NH cards.The results of antimicrobial susceptibility showed that they were all sensitive to chloramphenicol,doxycycline,tetracycline,gentamicin,ofloxacin and ciprofloxacin.Conclusion The 10 isolates could be identified as Francisella philomiragia,so we should pay more attention to the infrequent pathogen for its inactive biochemical reaction and the misidentification by commercial detection systems.
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Non-coding small RNA in bacteria is usually not translated and comprise a size range between 50 and 500 nucleotides.With the development of high-density tiling arrays and RNA deep sequencing,studies of non-coding small RNAs attracts more and more attention,and meanwhile it is evident that non-coding small RNAs play a crucial role in many biological processes such as environmental sensing and stress adaptation, virulence and infectivity of intracellular bacteria, as well as development and metabolism.This article expound non-coding small RNA from following aspects:the concept and structure, the characteristics and the classification,its regulatory mechanism and its effect on the biology of bacteria, thus providing a more comprehensive and clear understanding.
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Objective Parainfluenza virus is an important pathogen of lower respiratory tract infections in infants and young children.This study was to search for a method for rapid culture and identification of human parainfluenza viruses from nasal swabs. Methods Nasal swab specimens were collected from 0-5 years old children with acute respiratory tract infection.The specimens were inoculated onto 96 plates with prefabricated LLC-MK2 cells and then centrifuged for 1 hour at 3000 r/min and also inoculated using the traditional culture method, followed by addition of virus mainte-nance medium containing 4 μg/mL TPCK trypsin.The cytopathic effect was observed daily, and hemagglutination and blood absorption tests were done at 2, 5, and 8 days after inoculation.In case of posi-tive result of either test, the specimen was subjected to immunofluo-rescence staining. Results Six strains of parainfluenza virus were isolated from the 83 nasal swab specimens, with a positive rate of 7.2%.There was a significant difference in the rate of separation be-tween the rapid and traditional culture methods after 2 days of culturing (7.2%vs 0%, P<0.05).The infected cells produced a cy-topathic effect that characterized by syncytium and crush formation.Hemagglutination and blood adsorption tests were positive at 4℃and negative at the room temperature.Immunofluorescence staining exhibited specific apple green fluorescence. Conclusion The method for rapid culture and identification of human parainfluenza viruses in nasal swab specimens was successfully established, which can be used to obtain and identify parainfluenza viruses with virulence and biological activity in 2 days.
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Objective To identify one acid‐fasting bacteria isolated from wound secretion of breast abscess .Methods The acid‐fasting strain was identified by the morphological characteristics ,API 20A strips ,classical biochemical reaction ,and 16S rRNA gene sequencing .Results Cells of the strain was anaerobic ,non‐spore‐forming ,pleomorphic ,straight or curved rods ,which Gram and acid‐fast stain both were positive .After incubation for 5 days on sheep blood agar ,colonies were than 2 mm in diameter ,circular , smooth ,entire ,bump ,rice cream‐like withβ‐hemolysis .The 16S rRNA gene sequences were 100% identity to Propionibacterium av‐idum .The API 20A profile was 44365062 with positive Voges‐Proskauer test ,which was also consistent to Propionibacterium avi‐dum .Conclusion The pathogens of breast abscess is Proionibacterium avidum ,which is the first acid‐fasting Propionibacterium re‐ported in China .
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Objectives Use ITS gene sequence analysis to identify 15 strains of dematiaceous fungi , to learn the types of pathogenic strains and clinical treatment. Methods By observing the colony morphology and microscope morphological of the dematiaceous fungi isolated from superficial mycoses , and identified by ITS gene sequence analysis. Results 15 strains were identified by morphological observation as dematiaceous fungi.The amplified bands were identified by Tanon-3500 gel imaging system between 500 ~ 700 bp. Blast sequencing results show that 2 strains Alternaria alternate , 2 strains Cladosporium sphaerospermum. 2 strains Exophiala dermatitis, 1 strains Cladosporium cladosporioides, Curvularia lunata, Talaromyces rugulosus, Phaeobotryon cupressi, Cladosporium tenuissimum, Fonseceea pedrosoi, Exophiala werneckii, Exophiala oligosperma and Fonsecaea monophora. Conclusion ITS gene sequence analysis can identify dematiaceous fungi effectively , avoided undetected and misdiagnose cause by the lack of clinical experience.