Referencias y Bibliografía

1.           Budowle, B. & van Daal, A. Extracting evidence from forensic DNA analyses: future molecular biology directions. BioTechniques 46, 339–40, 342–50 (2009).

2.           Budowle, B. & van Daal, A. Forensically relevant SNP classes. BioTechniques 44, 603–8, 610 (2008).

3.           Butler, J. M. Current Protocols in Human Genetics Short Tandem Repeat Analysis for Human Identity Testing Short Tandem Repeat Analysis for Human Identity Testing.

4.           Butler, J. M., Coble, M. D. & Vallone, P. M. STRs vs. SNPs: thoughts on the future of forensic DNA testing. Forensic Science, Medicine, and Pathology 3, 200–205 (2007).

5.           Divne, A.-M. & Allen, M. A DNA microarray system for forensic SNP analysis. Forensic science international 154, 111–21 (2005).

6.           Equipo de docencia e investigación UBA - Derecho Regulación Jurídica de las Biotecnologías. Investigación e implementación de sistemas de identificación de individuos por tecnicas de biologia molecular at <http://www.biotech.bioetica.org/docta62.htm>

7.           Hammond, H. a, Jin, L., Zhong, Y., Caskey, C. T. & Chakraborty, R. Evaluation of 13 short tandem repeat loci for use in personal identification applications. American journal of human genetics 55, 175–89 (1994).

8.           Hegele, R. A. & South-, T. implications and limitations. 141, (1989).

9.           Jarreta, M. B. M. La prueba del ADN en medicina forense. (Masson: 1999).

10.         Johll, M. E. Identificación de víctimas: Análisis del DNA. Química e investigación criminal 404–422 (2008).

11.         Jonathan J. Koehler, Audrey Chia, S. L. The Random Match Probability in DNA evidence: irrelevant and prejudicial? Jurimetrics Journal 201, (1995).

12.         Kayser, M. & de Knijff, P. Improving human forensics through advances in genetics, genomics and molecular biology. Nature reviews. Genetics 12, 179–92 (2011).

13.         Lari, M., Pilli, E. & Caramelli, D. Recover and analysis of ancient degraded DNA: Problems, methods and applications for anthropology and forensics. Recent Advances in Molecular Biology and Evolution: Aplications to Biological Anthropology. 251–288 (2007).

14.         Lawrence, N. eHow. Molecular Techniques in Forensic Science at <http://www.ehow.com/>

15.         Sobrino, B., Brión, M. & Carracedo, A. SNPs in forensic genetics: a review on SNP typing methodologies. Forensic science international 154, 181–94 (2005).

16.         Perfil genético individual. at <http://www.allelyus.com/es/servicios/genetica-forense/servicios/perfil-genetico-individuall>

17.         SEBBM - Sociedad Española de Bioquímica y Biología Molecular. ADN forense, investigación criminal y búsqueda de desaparecidos at <http://www.sebbm.es/ES/divulgacion-ciencia-para-todos_10/>

18.         ISFG - International Society for Forensic Genetics. at <http://www.isfg.org/>

19.         DNA initiative: Advancing Criminal Justice Through DNA Technology. at <http://www.dna.gov>

20.         FBI — CODIS. at <http://www.fbi.gov/about-us/lab/biometric-analysis/copy_of_codis>

21.         CSI Effect Theory: Strategies and Views. at <http://projects.nfstc.org/csieffect/>

22.         ORNL - Oak Ridge National Laboratory. DNA Forensics - Human Genome Project Information at <http://www.ornl.gov/sci/techresources/Human_Genome/elsi/forensics.shtml>

23.          Polimorfismos y marcadores genéticos - Short tandem repeats (STR). At <http://www.allelyus.com/index.php/es/servicios/genetica-forense/conceptos-basicos/polimorfismos-y-marcadores-geneticos?start=2>