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MAB858-2
Sigma-AldrichAnti-RSV Antibody, glycoprotein, all type A, B strains, clone 131-2G
Detect Respiratory Syncytial Virus using this Anti-RSV Antibody, glycoprotein, all type A, B strains, clone 131-2G validated for use in ELISA & IF.
More>>Detect Respiratory Syncytial Virus using this Anti-RSV Antibody, glycoprotein, all type A, B strains, clone 131-2G validated for use in ELISA & IF. Less<<
SDB (Sicherheitsdatenblätter), Analysenzertifikate und Qualitätszertifikate, Dossiers, Broschüren und andere verfügbare Dokumente.
Anti-RSV Antibody, glycoprotein, all type A, B strains, clone 131-2G
Alternate Names
RSV
Background Information
RSV is a labile paramyxovirus that produces a characteristic fusion of human cells in tissue culture--the syncytial effect. Two subtypes, A and B, have been identified. Subtype B are characterized as the asymptomatic strains of the virus. The more severe clinical illnesses involve Subtype A strains.
References
Product Information
Format
Purified
HS Code
3002 15 90
Presentation
Purified immunoglobulin. 1 mg/mL in 0.02M PB with 0.25M NaCl, pH=7.6 containing 0.1% sodium azide.
Final working dilutions must be determined by end user.
Biological Information
Immunogen
A2
Epitope
some type B strains
Clone
131-2G
Concentration
Please refer to the Certificate of Analysis for the lot-specific concentration.
Host
Mouse
Specificity
Glycoprotein, 89 kD. Recognizes both A and B strains.
Isotype
IgG1κ
Species Reactivity
Human
Antibody Type
Monoclonal Antibody
Physicochemical Information
Dimensions
Materials Information
Toxicological Information
Safety Information according to GHS
Safety Information
Product Usage Statements
Usage Statement
Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses or any type of consumption or application to humans or animals.
Storage and Shipping Information
Storage Conditions
Maintain at 2 to 8° C in aliquots for up to 12 months after date of receipt. Do not store in diluted format.
Packaging Information
Material Size
100 µg
Transport Information
Supplemental Information
Specifications
Global Trade Item Number
Bestellnummer
GTIN
MAB858-2
04053252504365
Documentation
Anti-RSV Antibody, glycoprotein, all type A, B strains, clone 131-2G SDB
The cell response to virus infection and virus perturbation of that response is dynamic and is reflected by changes in cell susceptibility to infection. In this study, we evaluated the response of human epithelial cells to sequential infections with human respiratory syncytial virus strains A2 and B to determine if a primary infection with one strain will impact the ability of cells to be infected with the second as a function of virus strain and time elapsed between the two exposures. Infected cells were visualized with fluorescent markers, and location of all cells in the tissue culture well were identified using imaging software. We employed tools from spatial statistics to investigate the likelihood of a cell being infected given its proximity to a cell infected with either the homologous or heterologous virus. We used point processes, K-functions, and simulation procedures designed to account for specific features of our data when assessing spatial associations. Our results suggest that intrinsic cell properties increase susceptibility of cells to infection, more so for RSV-B than for RSV-A. Further, we provide evidence that the primary infection can decrease susceptibility of cells to the heterologous challenge virus but only at the 16 h time point evaluated in this study. Our research effort highlights the merits of integrating empirical and statistical approaches to gain greater insight on in vitro dynamics of virus-host interactions.
Comparison of a real-time reverse transcriptase PCR assay and a culture technique for quantitative assessment of viral load in children naturally infected with respiratory syncytial virus. Perkins, SM; Webb, DL; Torrance, SA; El Saleeby, C; Harrison, LM; Aitken, JA; Patel, A; DeVincenzo, JP Journal of clinical microbiology
43
2356-62
2004
Respiratory syncytial virus (RSV) is the most common cause of lower respiratory infection of children. Understanding RSV pathogenesis and evaluating interventions requires quantitative RSV testing. Previous studies have used the plaque assay technique. Real-time reverse transcriptase PCR (RTrtPCR) offers possible greater sensitivity, stability after freeze/thaw, and lower cost, thus facilitating multicenter studies. We developed RTrtPCR assays based upon the RSV N and F genes. The N-gene assay detected greater RSV quantity and was further evaluated. Standard curves utilized both extractions from RSV culture supernatants of known quantity and cloned purified copies of the target DNA. In vitro, the ratio of RSV subgroup A (RSV-A) genome copies to PFU was 153:1. A total of 462 samples collected quantitatively from 259 children were analyzed in duplicate by RTrtPCR. Results were compared with those of RSV plaque assays performed on fresh aliquots from the same children. Duplicate RTrtPCR results were highly correlated (r2 = 0.9964). The mean viral load from nasal washes obtained on the first study day was 5.75 +/- standard error of the mean 0.09 log PFU equivalents (PFUe)/ml. Viral load by RTrtPCR correlated with plaque assay results (r2 = 0.158; P less than 0.0001). Within individuals, upper and lower respiratory tract secretions contained similar viral concentrations. RSV-A-infected children had 1.17 log PFUe higher viral loads than did those with RSV-B (P less than 0.0001). RSV quantification by RTrtPCR of the N gene is precise and has significant, though limited, correlation with quantitative culture. The utility of the RTrtPCR quantification technique for clinical studies would be solidified after its correlation with RSV disease severity is established.
Natural infection of infants with respiratory syncytial virus subgroups A and B: a study of frequency, disease severity, and viral load. Devincenzo, JP Pediatric research
56
914-7
2004
Heterogeneity in respiratory syncytial virus (RSV) disease severity likely is due to a combination of host and viral factors. Infection with RSV subgroup A is thought to produce more severe disease than RSV-B. Higher RSV loads correlate with greater disease severity in hospitalized infants. Whether subgroup-specific variations in disease severity result from differences in RSV load has not been studied. A total of 102 RSV-hospitalized infants less than 2 y of age were studied. Nasal washes were collected in a standardized manner and were cultured in less than 3 h in parallel with an RSV quantitative standard in a HEp-2 plaque assay. RSV-A (72%) was more frequent than RSV-B. Disease severity risk factors were similar between subgroups. RSV loads were similar between A and B subgroups (4.77 versus 4.68 log PFU/mL). Measures of disease severity were also similar between subgroups.