DNA Fingerprinting and Forensic Medicine

Sullivan, Karen M.

doi:10.1385/0-89603-205-1:273

Karen M. Sullivan²

Part of the book series: Methods in Molecular Biology ((MIMB,volume 9))

5664 Accesses

Abstract

DNA fingerprinting without doubt represents one of the most significant advances in forensic science this century. Central to this technology, which is based on the analysis of the genetic component of cells, is the use of DNA probes to regions of the human genome that exhibit great variability between individuals (1). These probes fall into two main categories. The first group comprises those that can detect a large number of these “hypervariable” loci simultaneously, namely multilocus probes (MLPs). On autoradiography, these give rise to a band pattern that is reminiscent of the bar code on supermarket goods, the main advantage of which is that a single such test provides a lot of information very rapidly. MLPs are, therefore, the probes of choice when the amount of material for testing is not limiting, e.g., a blood sample for paternity testing. In many forensic cases, however, the material evidence available for testing is minute, such as a few hair roots or a tiny semen stain, and the situation is often complicated by the presence of tissue from more than one person.

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution

Protocol: USD 49.95; Price excludes VAT (USA)

eBook: USD 89.00; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

References

Jeffreys, A. J., Wilson, V, and Thein, S. L. (1985) Hypervariable ‘rmnisatelhte’ regions in human DNA. Nature 314, 67–73
Article PubMed CAS Google Scholar
Wong, Z, Wilson, V, Jeffreys, A J, and Thein, S. L. (1986) Cloning a selected fragment from a human DNA fingerprint. Isolation of an extremely polymorphic minisatellite. Nucleic Acids Res 14, 4605–4616
Article PubMed CAS Google Scholar
Jeffreys, A. J, Brookfield, J F Y, and Semeonoff, R (1985) Positive identification of an immigration test-case using human DNA fingerprints. Nature 317, 818,819.
Article PubMed CAS Google Scholar
Rittner, C., Shacker, U, Rittner, G., and Schneider, P. M. (1988) Application of DNA polymorphisms in paternity testing in Germany: Solution of an incest case using bacteriophage Ml3 hybridisation with hypervariable minisatellite DNA J Adv Forensic Haemogenet 2, 388–391.
Google Scholar
Jones, L, Thein, S L Jeffreys, A. J, Apperley, J. F., Catovsky, D, and Goldman, J M (1987) Identical twin marrow transplantation for 5 patients with chronic myeloid leukemia: Role of DNA fingerprinting to confirm monozygosity in 3 cases Eur J Haematol. 39,144–147.
Google Scholar
Gill, P, Jeffreys, A J, and Werrett, D. J (1985) Forensic Applications of DNA ‘fingerprints.’ Nature 318, 577–579.
Article PubMed CAS Google Scholar

Download references

Author information

Authors and Affiliations

Taylor Knight Associates, Devonshire House, West Ferry, Dundee, Scotland, UK
Karen M. Sullivan

Authors

Karen M. Sullivan
View author publications
You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

United Medical and Dental Schools of Guy’s, St. Thomas’s Hospitals, London, UK
Christopher G. Mathew

Rights and permissions

Reprints and permissions

Copyright information

About this protocol

Cite this protocol

Sullivan, K.M. (1991). DNA Fingerprinting and Forensic Medicine. In: Mathew, C.G. (eds) Protocols in Human Molecular Genetics. Methods in Molecular Biology, vol 9. Springer, Totowa, NJ. https://doi.org/10.1385/0-89603-205-1:273

Download citation

DOI: https://doi.org/10.1385/0-89603-205-1:273
Publisher Name: Springer, Totowa, NJ
Print ISBN: 978-0-89603-205-7
Online ISBN: 978-1-59259-496-2
eBook Packages: Springer Protocols

Publish with us

Policies and ethics