4 results on '"Yao, Hui"'
Search Results
2. Hypervirulent group A Streptococcus emergence in an acaspular background is associated with marked remodeling of the bacterial cell surface.
- Author
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Galloway-Peña, Jessica, DebRoy, Sruti, Brumlow, Chelcy, Li, Xiqi, Tran, Truc T., Horstmann, Nicola, Yao, Hui, Chen, Ken, Wang, Fang, Pan, Bih-Fang, Hawke, David H., Thompson, Erika J., Arias, Cesar A., Jr.Fowler, Vance G., Bhatti, Micah M., Kalia, Awdhesh, Flores, Anthony R., and Shelburne, Samuel A.
- Subjects
VIRULENCE of bacteria ,STREPTOCOCCUS ,BACTERIAL cells ,CELL membranes ,GENETIC mutation ,TRANSMISSION electron microscopy - Abstract
Inactivating mutations in the ontrol f irulence two-component regulatory system (covRS) often account for the hypervirulent phenotype in severe, invasive group A streptococcal (GAS) infections. As CovR represses production of the anti-phagocytic hyaluronic acid capsule, high level capsule production is generally considered critical to the hypervirulent phenotype induced by CovRS inactivation. There have recently been large outbreaks of GAS strains lacking capsule, but there are currently no data on the virulence of covRS-mutated, acapsular strains in vivo. We investigated the impact of CovRS inactivation in acapsular serotype M4 strains using a wild-type (M4-SC-1) and a naturally-occurring CovS-inactivated strain (M4-LC-1) that contains an 11bp covS insertion. M4-LC-1 was significantly more virulent in a mouse bacteremia model but caused smaller lesions in a subcutaneous mouse model. Over 10% of the genome showed significantly different transcript levels in M4-LC-1 vs. M4-SC-1 strain. Notably, the Mga regulon and multiple cell surface protein-encoding genes were strongly upregulated–a finding not observed for CovS-inactivated, encapsulated M1 or M3 GAS strains. Consistent with the transcriptomic data, transmission electron microscopy revealed markedly altered cell surface morphology of M4-LC-1 compared to M4-SC-1. Insertional inactivation of covS in M4-SC-1 recapitulated the transcriptome and cell surface morphology. Analysis of the cell surface following CovS-inactivation revealed that the upregulated proteins were part of the Mga regulon. Inactivation of mga in M4-LC-1 reduced transcript levels of multiple cell surface proteins and reversed the cell surface alterations consistent with the effect of CovS inactivation on cell surface composition being mediated by Mga. CovRS-inactivating mutations were detected in 20% of current invasive serotype M4 strains in the United States. Thus, we discovered that hypervirulent M4 GAS strains with covRS mutations can arise in an acapsular background and that such hypervirulence is associated with profound alteration of the cell surface. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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3. Early transcriptional responses of bovine chorioallantoic membrane explants to wild type, ΔvirB2 or ΔbtpB Brucella abortus infection
- Author
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Juliana Pinto da Silva Mol, Alex F. Carvalho, Renée M. Tsolis, Yao Hui Sun, Renato L. Santos, Tatiane A. Paixão, Érica Azevedo Costa, and Dellagostin, Odir A
- Subjects
Bacterial Diseases ,Transcription, Genetic ,Operon ,Mutant ,Brucella abortus ,Chorioallantoic Membrane ,Pathogenesis ,Brucellosis, Bovine ,Pregnancy ,Zoonoses ,Medicine and Health Sciences ,2.1 Biological and endogenous factors ,Aetiology ,Multidisciplinary ,Bovine ,Up-Regulation ,Chorioallantoic membrane ,Infectious Diseases ,Veterinary Diseases ,Medicine ,Female ,Transcription ,Research Article ,General Science & Technology ,Science ,Biology ,Brucellosis ,Proinflammatory cytokine ,Microbiology ,Vaccine Related ,Immune system ,Genetic ,Biodefense ,MD Multidisciplinary ,Genetics ,Animals ,Inflammatory and Immune System ,Secretion ,Inflammation ,Prevention ,Wild type ,Biology and Life Sciences ,Emerging Infectious Diseases ,Tissue Array Analysis ,Immunology ,Veterinary Science ,Cattle - Abstract
The pathogenesis of the Brucella-induced inflammatory response in the bovine placenta is not completely understood. In this study we evaluated the role of the B. abortus Type IV secretion system and the anti-inflammatory factor BtpB in early interactions with bovine placental tissues. Transcription profiles of chorioallantoic membrane (CAM) explants inoculated with wild type (strain 2308), ΔvirB2 or ΔbtpB Brucella abortus were compared by microarray analysis at 4 hours post infection. Transcripts with significant variation (>2 fold change; P
- Published
- 2014
4. Application of the ITS2 Region for Barcoding Medicinal Plants of Selaginellaceae in Pteridophyta.
- Author
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Gu, Wei, Song, Jingyuan, Cao, Yuan, Sun, Qingwen, Yao, Hui, Wu, Qinan, Chao, Jianguo, Zhou, Juanjuan, Xue, Wenda, and Duan, Jinao
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MEDICINAL plants ,SELAGINELLACEAE ,PTERIDOPHYTA ,PHANEROGAMS ,PLANT evolution ,GENETIC barcoding ,PLANT species - Abstract
Background: Selaginellaceae is a family of nonseed plants with special evolutionary significance. Plants of the family Selaginellaceae are similarly shaped and easily confused, complicating identification via traditional methods. This study explored, for the first time, the use of the DNA barcode ITS2 to identify medicinal plants of the Selaginellaceae family. Methodology/Principal Findings: In our study, 103 samples were collected from the main distribution areas in China; these samples represented 34 species and contained almost all of the medicinal plants of Selaginellaceae. The ITS2 region of the genome was amplified from these samples and sequenced using universal primers and reaction conditions. The success rates of the PCR amplification and sequencing were 100%. There was significant divergence between the interspecific and intraspecific genetic distances of the ITS2 regions, while the presence of a barcoding gap was obvious. Using the BLAST1 and nearest distance methods, our results proved that the ITS2 regions could successfully identify the species of all Selaginellaceae samples examined. In addition, the secondary structures of ITS2 in the helical regions displayed clear differences in stem loop number, size, position, and screw angle among the medicinal plants of Selaginellaceae. Furthermore, cluster analysis using the ITS2 barcode supported the relationship between the species of Selaginellaceae established by traditional morphological methods. Conclusion: The ITS2 barcode can effectively identify medicinal plants of Selaginellaceae. The results provide a scientific basis for the precise identification of plants of the family Selaginellaceae and the reasonable development of these resources. This study may broaden the application of DNA barcoding in the medicinal plant field and benefit phylogenetic investigations. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
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