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Published November 25, 1989 | Published
Journal Article Open

PCR amplification of DNA microdissected from a single polytene chromosome band: a comparison with conventional microcloning

Saunders, Robert D. C.
Glover, David M. ORCID icon
Ashburner, Michael
Siden-Kiamos, Inga
Louis, Christos
Monastirioti, Maria
Savakis, Charalambos
Kafatos, Fotis

Abstract

A novel alternative to microcloning for the production of region specific chromosomal DNA is described. In this method, 'microamplification', single bands are dissected from polytene chromosomes and digested with Sau3A. Oligonucleotide adaptors are ligated to these fragments to provide convenient priming sites for polymerase chain reaction amplification. In this way, as much as 1μg of DNA can be amplified from a single band. Probes made from PCR amplified DNA from two such dissections have been used to probe cloned DNA form a 100kb chromosome walk. Whereas conventional microcloning has generated cloned EcoRI fragments corresponding to 3–4kb of the walk, the PCR probes cover greater than 90% of this chromosomal region. Thus microamplification is significantly more effective than microcloning in providing probes for establishing chromosomal walks.

Additional Information

© 1989 IRL Press Limited. Creative Commons Attribution Non-Commercial licence (CC BY-NC). Received September 4, 1989; Accepted October 10, 1989. This work was supported by an Operation contract of the Stimulation Programme of the European Economic Community number ST2P-0477-C(TT). The early work on the asp region was supported by an MRC project grant to RDCS and DMG. DMG also wishes to acknowledge a career development award from the Cancer Research Campaign. We wish to acknowledge the following colleagues: P.F.R. Little for much helpful discussion, and pointing out the useful characteristics of DpnI, C.Gonzalez for help with the cytogenetics of the asp region, and H. Jaeckle for advice concerning microcloning, and A. Cheshire for help with photography.

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August 19, 2023
Modified:
October 20, 2023