University of Hertfordshire

From the same journal

  • M.R Walker
  • L.J Bevan
  • J Daniels
  • M.A Rottier
  • Ralph Rapley
  • A.M Roberts
View graph of relations
Original languageEnglish
Pages (from-to)77-85
Number of pages9
JournalJournal of Immunological Methods
Publication statusPublished - 27 Apr 1992


In order to establish the feasibility of applying recombinatorial library technologies to investigate human in vivo IgE responses, and as a pre-requisite of recombinatorial library construction, we have attempted to determine workable peripheral blood sample volumes required for isolation of mRNA for polymerase chain reaction (PCR) amplification of human IgE Fd encoding sequences. Cells secreting chimeric human IgE monoclonal antibody specific for the hapten NIP were used to establish the conditions for specific amplification of Cε1 domain and Fd encoding sequences, as determined by Southern hybridisation. Amplification of Cε1 domain sequences could be achieved using as few as ten cultured cells as the source of RNA. Specific IgE+ B cell enrichment using immuno-magnetic particles prior to RNA extraction was, however, required to obtain amplification of IgE Cε1 and Fd fragments from lymphocytes prepared from 40 ml human peripheral blood. IgG1+ B cell enrichment from similar samples was not required for detectable amplification of human Cγ1 cDNA sequences. However, this procedure improved amplification efficiency. Optimisation of methods to separate specific B cell populations, or specific RNA/cDNA sequences, will facilitate in vitro generation of human IgE Fab fragments from peripheral blood.


Matthew R. Walker, et al, 'Isolation and amplification of human IgE Fd encoding mRNA from human peripheral blood lymphocytes', Journal of Immunological Methods, Vol. 149 (1): 77-85, April 1992. doi:

ID: 10330666