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Scandinavian Journal of Clinical and Laboratory Investigation Volume 68, 2008 - Issue 8
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Original Article

ALIS‐FLP: Amplified ligation selected fragment‐length polymorphism method for microbial genotyping

Anna Brillowska‐Dąbrowska Department of Microbiology, Division of Chemistry, Gdańsk University of Technology, Poland
,
Magdalena Wianecka Department of Microbiology, Division of Chemistry, Gdańsk University of Technology, Poland
,
Sławomir Dąbrowski The Bioprocess Science and Technology Research Group, BioCentrum, Technical University of Denmark, Denmark
,
Zuzana Mladenovska The Bioprocess Science and Technology Research Group, BioCentrum, Technical University of Denmark, Denmark
,
Józef Kur Department of Microbiology, Division of Chemistry, Gdańsk University of Technology, Poland
&
Birgitte K. Ahring The Bioprocess Science and Technology Research Group, BioCentrum, Technical University of Denmark, Denmark
Pages 720-730 | Received 13 Mar 2008, Accepted 25 Apr 2008, Published online: 08 Jul 2009
 
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Abstract

A DNA fingerprinting method known as ALIS‐FLP (amplified ligation selected fragment‐length polymorphism) has been developed for selective and specific amplification of restriction fragments from TspRI restriction endonuclease digested genomic DNA. The method is similar to AFLP, but differs in that only one specific restriction enzyme (TspRI) is used. The cohesive ends of the DNA fragments are ligated with two types of oligonucleotide. A long oligonucleotide containing the primer site and the specific 9 nt 3 prime end, which is complementary to specific 9 nt, cohesive 3 prime end of the TspRI genomic DNA fragment, and a short, degenerated, oligonucleotide covering the remaining TspRI cohesive ends. Other cohesive ends are covered by a short degenerated oligonucleotide lacking the primer site. The ligation mixture is used as a template for amplification using a single primer corresponding to the 5 prime end of the long, specific oligonucleotide. The selection of TspRI digested genomic DNA fragments for amplification is achieved by sequence selective ligation of the specific long oligonucleotide carrying the primer site to both ends of the specific target fragment. This technique allows for differentiation of the organisms without previous knowledge of their DNA sequence. The usefulness of the method is confirmed by genotyping of 70 previously characterized clinical E. coli isolates. The grouping obtained was identical to the results of REA‐PFGE. Versatility of the method is highlighted, i.e. its combining the advantages of the AFLP technique with a simple, rapid and cheap polymerase chain reaction product detection method.

Acknowledgement

We thank Thomas Lausten for Methanothermobacter cultures and genomic DNA.

Declaration of interest: The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.

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