Abstract
Dacron (polyethylenetherephthalate) is proposed as a matrix for dot-ELISA procedures, as an alternative to nitrocellulose. Plates of dacron were partially hydrazinolyzed and hydrazide groups introduced were converted to azide groups. The derivative dacron-antigen was covalently linked on to the plates through these azide groups. The derivative dacron-antigen was exaustively washed according to CROOK and antigen was still fixed onto the plates. Protein F1A purified from Yersinia pestis was used as a model. Triration of sera from immunized and non immunized rabbits against this protein was carried out by employing the dot-ELISA method. No significant difference was observed using dacron-antigen and nitrocellulose-antigen preparations. However, both procedures showed to have a significant better performance in comparasion with the passive hemagglutination method. The specificity and reproductibility of the dot-ELISA assay using both preparations showed a similar behaviour. Nitrocellulose preparation was stable at 4ºC, 28ºC and -20ºC for 90 days, whereas the dacron-antigen derivative was stable only when stored at 4ºC. Dacron-antigen derivative could be re-used when the spot developing was proceeded using 4-chloro-1-naphtol as substrate.
dacron; dot-ELISA; Yersinia pestis
The use of dacron plates for DOT enzyme-linked immunosorbent assay (DOT-ELISA)
Silvia M. L. Montenegro1
Alzira M. P. de Almeida1
Alexandre B. de Carvalho1
Luiz B. de Carvalho Júnior2
FIOCRUZ, Centro de Pesquisas Aggeu Magalhaes, Recife, Brasil
UFPE, Centro de Ciências Biológicas, Departamento de Bioquímica. Laboratório de Enzimologia, Recife, Brasil
Dacron (polyethylenetherephthalate) is proposed as a matrix for dot-ELISA procedures, as an alternative to nitrocellulose. Plates of dacron were partially hydrazinolyzed and hydrazide groups introduced were converted to azide groups. The derivative dacron-antigen was covalently linked on to the plates through these azide groups. The derivative dacron-antigen was exaustively washed according to CROOK and antigen was still fixed onto the plates. Protein F1A purified from Yersinia pestis was used as a model. Triration of sera from immunized and non immunized rabbits against this protein was carried out by employing the dot-ELISA method. No significant difference was observed using dacron-antigen and nitrocellulose-antigen preparations. However, both procedures showed to have a significant better performance in comparasion with the passive hemagglutination method. The specificity and reproductibility of the dot-ELISA assay using both preparations showed a similar behaviour. Nitrocellulose preparation was stable at 4ºC, 28ºC and -20ºC for 90 days, whereas the dacron-antigen derivative was stable only when stored at 4ºC. Dacron-antigen derivative could be re-used when the spot developing was proceeded using 4-chloro-1-naphtol as substrate.
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Publication Dates
-
Publication in this collection
29 June 2009 -
Date of issue
Dec 1991