Evaluation of genetic data


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You have been given a dataset containing Identifiler® genotypes from 200 individuals. Your first task is to analyse this dataset in terms of its potential usefulness as a database for individual identification purposes.
In an investigation being carried out in an Arab country, a match has been observed between a DNA profile generated from a crime scene stain and the DNA profile generated from a white Caucasian male arrested by police. The DNA profile generated is shown below:
D8S1179 8, 17
D21S11 34, 34.2
D7S820 9, 9
CSF1PO 8, 14
D3S1358 14, 14
TH01 8, 10
D13S317 9, 10
D16S539 14, 15
D2S1338 19, 19
D19S433 11, 14.2
vWA 18, 18
TPOX 10, 10
D18S51 11, 19
D5S818 8, 9
FGA 18.2, 19.2
Match probability estimates using this database have been provided for the investigation but the defence team has raised the inappropriateness of the database as an issue.Your second task is to evaluate why the defence team may have raised this issue.
You must present your results in a scientific manner (take a look at published articles) detailing every analysis carried out and discussing the results obtained.
Hi
Please work on my paper, produce tables, graphs ….etc.. and I will upload previous work who someone done it last year but please use some of the references and look at the tables how it was produced. but please this paper is in the university database therefore avoid copying it…. I don’t need the writing the only thing I need produce all required tables, but I am not sure this paper is correct %100
thank you
Referencing Requirements:
References
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ALENIZI, M., GOODWIN, W., ISMAEL, S. & HADI, S. 2008. STR data for the AmpFlSTR® Identifiler® loci in Kuwaiti population. Legal Medicine, 10, 321-325.
ALSHAMALI, F., ALKHAYAT, A. Q., BUDOWLE, B. & WATSON, N. D. 2005. STR population diversity in nine ethnic populations living in Dubai. Forensic Science International, 152, 267-279.
BALDING, D. J et al. 1994. DNA profile match probability calculation: how to allow for population stratification, relatedness, database selection and single bands. Forensic Science International, 64, 125-140.
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BUCKLETON, J. S., CURRAN, J. M. & WALSH, S. J. 2006. How reliable is the sub-population model in DNA testimony? Forensic Science International, 157, 144-148.
BUDOWLE, B., MORETTI, T. R., BAUMSTARK, A. L., DEFENBAUGH, D. A. & KEYS, K. M. 1999. Population data on the thirteen CODIS core short tandem repeat loci in African Americans, U.S. Caucasians, Hispanics, Bahamians, Jamaicans, and Trinidadians. J Forensic Sci, 44, 1277-1286.
CARRACEDO, Á., BUTLER, J. M., GUSMÃO, L., LINACRE, A., PARSON, W., ROEWER, L. & SCHNEIDER, P. M. 2013. New guidelines for the publication of genetic population data. Forensic Science International: Genetics, 7, 217-220.
CHEN, J.-G., PU, H.-W., CHEN, Y., CHEN, H.-J., MA, R., XIE, S.-T. & ZHANG, L.-P. 2012. Population genetic data of 15 autosomal STR loci in Uygur ethnic group of China. Forensic Science International: Genetics, 6, e178-e179.
CZARNY, J., GRZYBOWSKI, T., DERENKO, M. V., MALYARCHUK, B. A. & SLIWKA, D. M. 2005. Genetic variation of 15 STR loci (D3S1358, vWA, FGA, TH01, TPOX, CSF1PO, D5S818, D13S317, D7S820, D16S539, D2S1338, D8S1179, D21S11, D18S51, and D19S433) in populations of north and central Poland. Forensic Science International, 147, 97-100.
ELMRGHNI, S., DIXON, R. A., COULSON-THOMAS, Y. M. & WILLIAMS, D. R. 2012. Genetic data provided by 15 autosomal STR loci in the Libyan population living in Benghazi. Forensic Science International: Genetics, 6, e93-e94.
EXCOFFIER, L., LAVAL, G. & SCHNEIDER, S. 2007. Arlequin (version 3.0): An integrated software package for population genetics data analysis. Evolutionary Bioinformatics, 1, 0-0.
EXCOFFIER, L. & LISCHER, H. E. L. 2010. Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and Windows. Molecular Ecology Resources, 10, 564-567.
GOODWIN, W., LINACRE, A. & HADI, S. 2011. An Introduction to Forensic Genetics, Wiley-Blackwell.
HARTL, D. L. & CLARK, A. G. 2007. Principles of Population Genetics, Sinauer Associates.
HILL, C. R., DUEWER, D. L., KLINE, M. C., COBLE, M. D. & BUTLER, J. M. U.S. population data for 29 autosomal STR loci. Forensic Science International: Genetics.
KOROSTISHEVSKY, M., LOEWENTHAL, R., SLOMOV, Y. & GAZIT, E. 2004. Erroneous identification in a mixed population: simulation using Israeli STR data. International Journal of Legal Medicine, 118, 111-114.
LEWONTIN, R. C. 1995. The Apportionment of Human Diversity. In: DOBZHANSKY, T., HECHT, M. & STEERE, W. (eds.) Evolutionary Biology. Springer US.
OMRAN, G. A., RUTTY, G. N. & JOBLING, M. A. 2009. Genetic variation of 15 autosomal STR loci in Upper (Southern) Egyptians. Forensic Science International: Genetics, 3, e39-e44.
PORRAS, L., BELTRÁN, L., ORTIZ, T., SANCHEZ-DIZ, P., CARRACEDO, A. & HENAO, J. 2008. Genetic polymorphism of 15 STR loci in central western Colombia. Forensic Science International: Genetics, 2, e7-e8.
RUBI-CASTELLANOS, R., ANAYA-PALAFOX, M., MENA-ROJAS, E., BAUTISTA-ESPAÑA, D., MUÑOZ-VALLE, J. F. & RANGEL-VILLALOBOS, H. 2009. Genetic data of 15 autosomal STRs (Identifiler kit) of three Mexican Mestizo population samples from the States of Jalisco (West), Puebla (Center), and Yucatan (Southeast). Forensic Science International: Genetics, 3, e71-e76.
TEREBA, A. 1995. Tools for analysis of population statistics. Profiles DNA, 2, 14-16.
You can find the followings references useful for the course work if you type them in Google please:
1. Genetic variation and population structure of Sudanese populations as indicated by 15 Identifiler sequence-tagged repeat



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