Site-specific recombination by fC31 integrase and other large serine recombinases

Margaret C. M. Smith, William R. A. Brown, Andrew McEwan, Paul Andrew Rowley

Research output: Contribution to journalArticlepeer-review

102 Citations (Scopus)


Most temperate phages encode an integrase for integration and excision of the prophage. Integrases belong either to the lambda Int family of tyrosine recombinases or to a subgroup of the serine recombinases, the large serine recombinases. Integration by purified serine integrases occurs efficiently in vitro in the presence of their cognate (similar to 50 bp) phage and host attachment sites, attP and attB respectively. Serine integrases require an accessory protein, Xis, to promote excision, a reaction in which the products of the integration reaction, attL and attR, recombine to regenerate attP and attB. Unlike other directional recombinases, serine integrases are not controlled by proteins occupying accessory DNA-binding sites. Instead, it is thought that different integrase conformations, induced by binding to the DNA substrates, control protein-protein interactions, which in turn determine whether recombination proceeds. The present review brings together the evidence for this model derived from the studies on phi C31 integrase, Bxb1 integrase and other related proteins.

Original languageEnglish
Pages (from-to)388-394
Number of pages7
JournalBiochemical Society Transactions
Issue number2
Publication statusPublished - 1 Apr 2010


  • bacteriophage
  • excision
  • phi C3 integrase
  • integration
  • protein-DNA interaction
  • protein-protein interaction
  • serine recombinase
  • gamma-delta-resolvase
  • lactococcal bacteriophage TP901-1
  • conjugative transposon TN5397
  • C-terminal domain
  • clostridium-perfringens
  • DNA-binding
  • central dinucleotide
  • genomic integration
  • BXB1 integration


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