Genetic sex determination of mice by simplex PCR
Abstract Background Investigating fetal development in mice necessitates the determination of fetal sex. However, whilst the sex of adult and juvenile mice can be readily distinguished from anogenital distance, the sex of fetal and neonatal mice cannot be identified visually. Instead, genetic sex mu...
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doaj-e66cc1e8692c4d729d2d8de07f0fb9ca2020-11-24T22:24:01ZengBMCBiology of Sex Differences2042-64102017-10-01811410.1186/s13293-017-0154-6Genetic sex determination of mice by simplex PCRSimon James Tunster0Centre for Trophoblast Research, Department of Physiology, Development and Neuroscience, University of CambridgeAbstract Background Investigating fetal development in mice necessitates the determination of fetal sex. However, whilst the sex of adult and juvenile mice can be readily distinguished from anogenital distance, the sex of fetal and neonatal mice cannot be identified visually. Instead, genetic sex must be determined by PCR amplification of X chromosome genes with divergent Y chromosome gametologs. Existing simplex PCR methods are confounded by small size differences between amplicons, amplification of unexpected products, and biased amplification of the shorter amplicon. Results Primers were designed flanking an 84 bp deletion of the X-linked Rbm31x gene relative to its Y-linked gametolog Rbm31y. A single product was amplified from XX samples, with two products amplified from XY samples. Amplicons were resolved by gel electrophoresis for 20 min, with unbiased amplification of both products observed in XY samples. Conclusion This method achieves rapid and unequivocal genetic sex determination of mice in low volume PCR reactions, reducing reagent usage and simultaneously eliminating shortcomings of previous methods.http://link.springer.com/article/10.1186/s13293-017-0154-6Sex genotyping of miceSimplex PCRRbm31xRbm31y |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Simon James Tunster |
spellingShingle |
Simon James Tunster Genetic sex determination of mice by simplex PCR Biology of Sex Differences Sex genotyping of mice Simplex PCR Rbm31x Rbm31y |
author_facet |
Simon James Tunster |
author_sort |
Simon James Tunster |
title |
Genetic sex determination of mice by simplex PCR |
title_short |
Genetic sex determination of mice by simplex PCR |
title_full |
Genetic sex determination of mice by simplex PCR |
title_fullStr |
Genetic sex determination of mice by simplex PCR |
title_full_unstemmed |
Genetic sex determination of mice by simplex PCR |
title_sort |
genetic sex determination of mice by simplex pcr |
publisher |
BMC |
series |
Biology of Sex Differences |
issn |
2042-6410 |
publishDate |
2017-10-01 |
description |
Abstract Background Investigating fetal development in mice necessitates the determination of fetal sex. However, whilst the sex of adult and juvenile mice can be readily distinguished from anogenital distance, the sex of fetal and neonatal mice cannot be identified visually. Instead, genetic sex must be determined by PCR amplification of X chromosome genes with divergent Y chromosome gametologs. Existing simplex PCR methods are confounded by small size differences between amplicons, amplification of unexpected products, and biased amplification of the shorter amplicon. Results Primers were designed flanking an 84 bp deletion of the X-linked Rbm31x gene relative to its Y-linked gametolog Rbm31y. A single product was amplified from XX samples, with two products amplified from XY samples. Amplicons were resolved by gel electrophoresis for 20 min, with unbiased amplification of both products observed in XY samples. Conclusion This method achieves rapid and unequivocal genetic sex determination of mice in low volume PCR reactions, reducing reagent usage and simultaneously eliminating shortcomings of previous methods. |
topic |
Sex genotyping of mice Simplex PCR Rbm31x Rbm31y |
url |
http://link.springer.com/article/10.1186/s13293-017-0154-6 |
work_keys_str_mv |
AT simonjamestunster geneticsexdeterminationofmicebysimplexpcr |
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