A male-specific sex marker for the endangered western sawshelled turtle (Myuchelys bellii) using in silico whole-genome subtraction

Dissanayake, Duminda S B; Streeting, Louise M; Georges, Arthur; Bower, Deborah S

doi:10.1007/s12686-022-01266-3

Author(s)

Dissanayake, Duminda S B

Streeting, Louise M

Georges, Arthur

Bower, Deborah S

Publication Date

2022-06

Abstract

Artificial incubation of eggs for the mass release of hatchlings is a common conservation intervention for imperilled turtle species. Programs designed to reinforce wild populations need to ensure that they are releasing appropriate male to female ratios into the wild. In many turtle species, the sex of juveniles cannot be identified using external morphology until they approach sexual maturity. For the endangered western sawshelled turtle, Myuchelys bellii, sexual dimorphism does not occur until at least 6 years of age. We aimed to develop a molecular test to identify the sex of M. bellii during the life stages where they cannot be sexed morphologically-embryos, hatchlings and small juveniles. We used in silico whole-genome subtraction of a female M. bellii (XX) from a male (XY) to identify a Y chromosome-specific sequence which we characterized and developed into a PCR sex test. Our research is the first to use a whole-genome subtraction method in-silico to successfully establish sex chromosome markers in a freshwater turtle species. Developing this technology provides an opportunity for conservation programs to ensure that populations are supplemented with a proportionate number of male and female hatchlings. Further, it allows large scale measurement of naturally occurring sex ratios in hatchlings and small juveniles, which in turn enables estimates of sex ratios within wild populations free from age-at-maturity bias. The application of sex-specific marker technology also provides an opportunity to quantify the influence of sex on behaviour, movement and survival in the segment of populations that cannot be morphologically sexed.

Citation

Conservation Genetics Resources, 14(2), p. 231-236

ISSN

1877-7260

1877-7252

Link

https://hdl.handle.net/1959.11/52869

Language

en

Publisher

Springer Netherlands

Rights

Attribution 4.0 International

Title

A male-specific sex marker for the endangered western sawshelled turtle (Myuchelys bellii) using in silico whole-genome subtraction

Type of document

Journal Article

Entity Type

Publication

Author(s)	Dissanayake, Duminda S B Streeting, Louise M Georges, Arthur Bower, Deborah S
Publication Date	2022-06
Abstract	<p>Artificial incubation of eggs for the mass release of hatchlings is a common conservation intervention for imperilled turtle species. Programs designed to reinforce wild populations need to ensure that they are releasing appropriate male to female ratios into the wild. In many turtle species, the sex of juveniles cannot be identified using external morphology until they approach sexual maturity. For the endangered western sawshelled turtle, <i>Myuchelys bellii</i>, sexual dimorphism does not occur until at least 6 years of age. We aimed to develop a molecular test to identify the sex of <i>M. bellii</i> during the life stages where they cannot be sexed morphologically-embryos, hatchlings and small juveniles. We used in silico whole-genome subtraction of a female <i>M. bellii</i> (XX) from a male (XY) to identify a Y chromosome-specific sequence which we characterized and developed into a PCR sex test. Our research is the first to use a whole-genome subtraction method in-silico to successfully establish sex chromosome markers in a freshwater turtle species. Developing this technology provides an opportunity for conservation programs to ensure that populations are supplemented with a proportionate number of male and female hatchlings. Further, it allows large scale measurement of naturally occurring sex ratios in hatchlings and small juveniles, which in turn enables estimates of sex ratios within wild populations free from age-at-maturity bias. The application of sex-specific marker technology also provides an opportunity to quantify the influence of sex on behaviour, movement and survival in the segment of populations that cannot be morphologically sexed.</p>
Citation	Conservation Genetics Resources, 14(2), p. 231-236
ISSN	1877-7260 1877-7252
Link	https://hdl.handle.net/1959.11/52869
Language	en
Publisher	Springer Netherlands
Rights	Attribution 4.0 International
Title	A male-specific sex marker for the endangered western sawshelled turtle (Myuchelys bellii) using in silico whole-genome subtraction
Type of document	Journal Article
Entity Type	Publication

A male-specific sex marker for the endangered western sawshelled turtle (Myuchelys bellii) using in silico whole-genome subtraction

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