Early fetal sexing in the rhinoceros by detection of male‐specific genes in maternal serum

Stoops, Monica A.; Winget, G.Douglas; DeChant, Christopher J.; Ball, Ray L.; Roth, Terri L.

doi:10.1002/mrd.22953

Cited by 7 publications

(7 citation statements)

References 48 publications

(74 reference statements)

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“…In investigations of ccffDNA, the extraction method used plays a crucial role, therefore a highly-effective protocol with an increased digestion capacity was used for the purpose of avoiding protein inhibition. Concentration of total ccffDNA was 1–1.2 ng/μL for each plasma sample investigated, which was able to be increased by a larger initial volume of maternal plasma 16,25 . Following PCR amplification with fluorescently-labelled primers, an accurate and highly-sensitive capillary electrophoresis method was performed to detect male and female-specific amplicons.…”

Section: Resultsmentioning

confidence: 89%

“…Molecular sexing methods in elephants using short amplicons (<200 bp) also have a substantial relevance in the areas of population ecology, conservation genetics 11,12 as well as in wildlife forensics 13 . Early and reliable diagnosis of sex in the fetuses of domestic animals has wide-spread and significant commercial and research applications in the livestock industry 10,14,15 , but there is similarly an increasing need for the early determination of fetal sex during pregnancy in zoo species using non-invasive methods and comparable genetic techniques 16 . Ultrasonographic fetal sexing techniques are of limited practical use in larger zoo mammals, particularly in elephants, as the fetus is lying between the huge-sized internal organs of the cow/dam during gestation and is not reachable with ultrasound scanning 17 .…”

Section: Introductionmentioning

confidence: 99%

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Sex determination using circulating cell-free fetal DNA in small volume of maternal plasma in elephants

Vincze

Gáspárdy

Biácsi³

et al. 2019

Sci Rep

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The genetic sexing of animals having long gestation periods offers significant benefits in regard to breeding management among their populations living in captivity. In our study, a new increased-sensitivity PCR method for fetal sexing was developed and tested successfully on elephants, from only a small volume of maternal plasma. Suitable sensitivity was obtained by using short, reduced amplicon lengths with fluorescent labelling for capillary electrophoresis detection. The fundamental principle for this technique was based on the detection of two Y-specific markers (AmelY and SRY), the presence of which indicates the mother is carrying a male fetus and the absence of these markers designates a female fetus. As a reaction control, the X-chromosomal marker (PlpX) was used. To the best of our knowledge, this is the first report on this topic, confirming the presence of fetal cell-free DNA from the plasma of a pregnant captive elephant, and demonstrating a new opportunity for non-invasive assessment in fetal sex determination.

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Section: Resultsmentioning

confidence: 89%

Section: Introductionmentioning

confidence: 99%

Sex determination using circulating cell-free fetal DNA in small volume of maternal plasma in elephants

Vincze

Gáspárdy

Biácsi³

et al. 2019

Sci Rep

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“…The sex-determination envisaged to be a valuable tool for managing assisted reproduction of the managed in captivity (Stoops et al 2018) Sika deer (Cervus nipon)…”

Section: Prenatal Sex Determination Pcr-amplification Of Sry-genesmentioning

confidence: 99%

Biotechnology for Wildlife

Singh

Mal

Gautam

et al. 2019

Advances in Animal Biotechnology

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Wildlife is of paramount significance to welfare of humans. In modern era, the wild animals are the sources of income, food, fur, micro-organisms, and other products besides its role in maintaining ecological balance. Shrinking habitat, diseases and pest prevalence, and illegal hunting are the major threats due to which many wild species have become extinct and many are endangered. Scientific interventions are being used to not only harnessing the potential of wildlife, but conserving them through assisted reproduction, genomics, and public awareness. Key points• Wildlife is an essential component of natural ecosystem • Wild natural flora and fauna are declining rapidly • Biotechnological interventions should be used conserve and increase wild animals.

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“…; Roly et al. ; Stoops et al ). The lack of a gene causes the undifferentiated gonad to transform into an ovary.…”

Section: Introductionmentioning

confidence: 99%

“…It is known that the genes determining sex, as well as molecular mechanisms have an influence on the further development of gonads and other parts of the genital system (Capel et al 1999;Hashimoto, 2003;Guioli et al 2007;Orvis & Behringer, 2007;Mullen & Behringer, 2014). An important factor in the differentiation of gonads is the SRY gene, located on the short arm of the Y chromosome (Saberivand & Ahsan, 2016;Katsura et al 2018;Roly et al 2018;Stoops et al 2018). The lack of a gene causes the undifferentiated gonad to transform into an ovary.…”

Section: Introductionmentioning

confidence: 99%

Innervation of internal female genital organs in the pig during prenatal development

et al. 2019

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This study investigated the innervation of internal genital organs in 5‐, 7‐ and 10‐week‐old female pig foetuses using single and double‐labelling immunofluorescence methods. The structure and topography of the organs was examined using a scanning electron microscope (SEM). The investigations revealed differences in the innervation between the three developmental periods. Immunostaining for protein gene product 9.5 (PGP; general neural marker) disclosed solitary nerve fibres in the external part of the gonadal ridge and just outside of the mesenchyme surrounding mesonephric ducts in 5‐week‐old foetuses. Double‐labelling immunohistochemistry revealed that nerve fibres associated with the ridge expressed dopamine β‐hydroxylase (DβH; adrenergic marker) or vesicular acetylcholine transporter (VAChT; cholinergic marker). In 7‐week‐old foetuses, the PGP‐positive nerve terminals were absent from the gonad but some of them ran outside and along, and sometimes penetrated into the mesenchyme surrounding the tubal and uterine segments of the paramesonephric ducts and uterovaginal canal. Few axons penetrated into the mesenchyme. DβH‐positive fibres were found in single nerve strands or bundles distributed at the edge of the mesenchyme. VAChT‐positive nerve terminals formed delicate bundles located at the edge of the mesenchyme, and the single nerves penetrated into the mesenchyme. DβH was also expressed by neurons which formed cell clusters comprising also DβH‐ or VAChT‐positive nerve fibres. In 10‐week‐old foetuses, PGP‐positive nerve fibres were still absent from the ovary but some were distributed in the mesenchyme associated with the uterovaginal canal and uterine and a tubal segment of the paramesonephric ducts, respectively. DβH‐ or VAChT‐positive nerve fibres were distributed at the periphery of the mesenchyme associated with the uterovaginal canal. Some DβH‐ and many VAChT‐positive nerve fibres were evenly distributed throughout the mesenchyme. The clusters of nerve cells comprised DβH‐positive perikarya and DβH‐ or VAChT‐positive nerve fibres. The investigations revealed no DβH/VAChT‐positive nerve fibres or neurons as well as no nerve structures stained for calcitonin gene‐related peptide and/or substance P (sensory markers) associated with the genital organs in the studied prenatal periods.

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Early fetal sexing in the rhinoceros by detection of male‐specific genes in maternal serum

Cited by 7 publications

References 48 publications

Sex determination using circulating cell-free fetal DNA in small volume of maternal plasma in elephants

Sex determination using circulating cell-free fetal DNA in small volume of maternal plasma in elephants

Biotechnology for Wildlife

Innervation of internal female genital organs in the pig during prenatal development

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