Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set

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Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set. / Meyer, Olivia Strunge; Salvo, Nina Mjølsnes; Kjærbye, Anne; Kjersem, Marianne; Andersen, Mikkel Meyer; Sørensen, Erik; Ullum, Henrik; Janssen, Kirstin; Morling, Niels; Børsting, Claus; Olsen, Gunn-Hege; Andersen, Jeppe Dyrberg.

I: Genes, Bind 12, Nr. 6, 821, 27.05.2021.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Meyer, OS, Salvo, NM, Kjærbye, A, Kjersem, M, Andersen, MM, Sørensen, E, Ullum, H, Janssen, K, Morling, N, Børsting, C, Olsen, G-H & Andersen, JD 2021, 'Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set', Genes, bind 12, nr. 6, 821. https://doi.org/10.3390/genes12060821

APA

Meyer, O. S., Salvo, N. M., Kjærbye, A., Kjersem, M., Andersen, M. M., Sørensen, E., Ullum, H., Janssen, K., Morling, N., Børsting, C., Olsen, G-H., & Andersen, J. D. (2021). Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set. Genes, 12(6), [821]. https://doi.org/10.3390/genes12060821

Vancouver

Meyer OS, Salvo NM, Kjærbye A, Kjersem M, Andersen MM, Sørensen E o.a. Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set. Genes. 2021 maj 27;12(6). 821. https://doi.org/10.3390/genes12060821

Author

Meyer, Olivia Strunge ; Salvo, Nina Mjølsnes ; Kjærbye, Anne ; Kjersem, Marianne ; Andersen, Mikkel Meyer ; Sørensen, Erik ; Ullum, Henrik ; Janssen, Kirstin ; Morling, Niels ; Børsting, Claus ; Olsen, Gunn-Hege ; Andersen, Jeppe Dyrberg. / Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set. I: Genes. 2021 ; Bind 12, Nr. 6.

Bibtex

@article{365e423551b5430185d2f6ab946f07ea,
title = "Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set",
abstract = "Description of a perpetrator's eye colour can be an important investigative lead in a forensic case with no apparent suspects. Herein, we present 11 SNPs (Eye Colour 11-EC11) that are important for eye colour prediction and eye colour prediction models for a two-category reporting system (blue and brown) and a three-category system (blue, intermediate, and brown). The EC11 SNPs were carefully selected from 44 pigmentary variants in seven genes previously found to be associated with eye colours in 757 Europeans (Danes, Swedes, and Italians). Mathematical models using three different reporting systems: a quantitative system (PIE-score), a two-category system (blue and brown), and a three-category system (blue, intermediate, brown) were used to rank the variants. SNPs with a sufficient mean variable importance (above 0.3%) were selected for EC11. Eye colour prediction models using the EC11 SNPs were developed using leave-one-out cross-validation (LOOCV) in an independent data set of 523 Norwegian individuals. Performance of the EC11 models for the two- and three-category system was compared with models based on the IrisPlex SNPs and the most important eye colour locus, rs12913832. We also compared model performances with the IrisPlex online tool (IrisPlex Web). The EC11 eye colour prediction models performed slightly better than the IrisPlex and rs12913832 models in all reporting systems and better than the IrisPlex Web in the three-category system. Three important points to consider prior to the implementation of eye colour prediction in a forensic genetic setting are discussed: (1) the reference population, (2) the SNP set, and (3) the reporting strategy.",
author = "Meyer, {Olivia Strunge} and Salvo, {Nina Mj{\o}lsnes} and Anne Kj{\ae}rbye and Marianne Kjersem and Andersen, {Mikkel Meyer} and Erik S{\o}rensen and Henrik Ullum and Kirstin Janssen and Niels Morling and Claus B{\o}rsting and Gunn-Hege Olsen and Andersen, {Jeppe Dyrberg}",
year = "2021",
month = may,
day = "27",
doi = "10.3390/genes12060821",
language = "English",
volume = "12",
journal = "Genes",
issn = "2073-4425",
publisher = "M D P I AG",
number = "6",

}

RIS

TY - JOUR

T1 - Prediction of Eye Colour in Scandinavians Using the EyeColour 11 (EC11) SNP Set

AU - Meyer, Olivia Strunge

AU - Salvo, Nina Mjølsnes

AU - Kjærbye, Anne

AU - Kjersem, Marianne

AU - Andersen, Mikkel Meyer

AU - Sørensen, Erik

AU - Ullum, Henrik

AU - Janssen, Kirstin

AU - Morling, Niels

AU - Børsting, Claus

AU - Olsen, Gunn-Hege

AU - Andersen, Jeppe Dyrberg

PY - 2021/5/27

Y1 - 2021/5/27

N2 - Description of a perpetrator's eye colour can be an important investigative lead in a forensic case with no apparent suspects. Herein, we present 11 SNPs (Eye Colour 11-EC11) that are important for eye colour prediction and eye colour prediction models for a two-category reporting system (blue and brown) and a three-category system (blue, intermediate, and brown). The EC11 SNPs were carefully selected from 44 pigmentary variants in seven genes previously found to be associated with eye colours in 757 Europeans (Danes, Swedes, and Italians). Mathematical models using three different reporting systems: a quantitative system (PIE-score), a two-category system (blue and brown), and a three-category system (blue, intermediate, brown) were used to rank the variants. SNPs with a sufficient mean variable importance (above 0.3%) were selected for EC11. Eye colour prediction models using the EC11 SNPs were developed using leave-one-out cross-validation (LOOCV) in an independent data set of 523 Norwegian individuals. Performance of the EC11 models for the two- and three-category system was compared with models based on the IrisPlex SNPs and the most important eye colour locus, rs12913832. We also compared model performances with the IrisPlex online tool (IrisPlex Web). The EC11 eye colour prediction models performed slightly better than the IrisPlex and rs12913832 models in all reporting systems and better than the IrisPlex Web in the three-category system. Three important points to consider prior to the implementation of eye colour prediction in a forensic genetic setting are discussed: (1) the reference population, (2) the SNP set, and (3) the reporting strategy.

AB - Description of a perpetrator's eye colour can be an important investigative lead in a forensic case with no apparent suspects. Herein, we present 11 SNPs (Eye Colour 11-EC11) that are important for eye colour prediction and eye colour prediction models for a two-category reporting system (blue and brown) and a three-category system (blue, intermediate, and brown). The EC11 SNPs were carefully selected from 44 pigmentary variants in seven genes previously found to be associated with eye colours in 757 Europeans (Danes, Swedes, and Italians). Mathematical models using three different reporting systems: a quantitative system (PIE-score), a two-category system (blue and brown), and a three-category system (blue, intermediate, brown) were used to rank the variants. SNPs with a sufficient mean variable importance (above 0.3%) were selected for EC11. Eye colour prediction models using the EC11 SNPs were developed using leave-one-out cross-validation (LOOCV) in an independent data set of 523 Norwegian individuals. Performance of the EC11 models for the two- and three-category system was compared with models based on the IrisPlex SNPs and the most important eye colour locus, rs12913832. We also compared model performances with the IrisPlex online tool (IrisPlex Web). The EC11 eye colour prediction models performed slightly better than the IrisPlex and rs12913832 models in all reporting systems and better than the IrisPlex Web in the three-category system. Three important points to consider prior to the implementation of eye colour prediction in a forensic genetic setting are discussed: (1) the reference population, (2) the SNP set, and (3) the reporting strategy.

U2 - 10.3390/genes12060821

DO - 10.3390/genes12060821

M3 - Journal article

C2 - 34071952

VL - 12

JO - Genes

JF - Genes

SN - 2073-4425

IS - 6

M1 - 821

ER -

ID: 274119344