Equine cloning: applications and outcomes.
Abstract: Cloning is one of several new assisted reproductive techniques being developed for clinical use in the equine industry. Potential uses of equine cloning include: (1) the preservation of genetics from individual animals that would otherwise not be able to reproduce, such as geldings; (2) the preservation of genetic material of endangered and/or exotic species, such as the Mongolian wild horse (Przewalski's horse); and (3) because of the companion animal role that horses fill for some individuals, it is likely that some horse owners will have individual animals cloned for emotional fulfillment. Although equine cloning has been successful, like other species, it remains a very inefficient process (<3% success). In most species, the inefficiency of cloning results from a high incidence of embryonic, fetal and/or placental developmental abnormalities that contribute to extremely high rates of embryonic loss, abortion and stillbirths throughout gestation and compromised neonatal health after birth. The present review describes some of the ultrasonographic, endocrinological and histopathological characteristics of successful (produced viable offspring) and unsuccessful (resulted in pregnancy failure) cloned equine (mule and horse) pregnancies we have produced. A total of 21 cloned mule pregnancies were established using fetal fibroblast cells, whereas a total of seven cloned horse pregnancies were established using adult cumulus cells. Three of the cloned mule conceptuses were carried to term, resulting in the birth of three healthy clones. This information adds to an accumulating body of knowledge about the outcome of cloned equine pregnancies, which will help to establish when, and perhaps why, many cloned equine pregnancies fail.
Publication Date: 2006-02-16 PubMed ID: 16478606DOI: 10.1071/rd05130Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The study investigates the use of cloning in the reproduction of equines (horses), detailing its potential applications, challenges, and successful examples. Despite the cloning process still proving inefficient (less than 3% success rate), the research offers insights into why many cloned equine pregnancies fail – probing reasons from embryonic to placental developmental abnormalities.
Purpose of Research
- This research focuses on exploring the application of cloning as an assisted reproductive technique in the equine industry. Cloning has diverse potential uses, including preserving the genetics of geldings, ensuring the survival of endangered animal species like the Przewalski’s horse, and appeasing horse owners who desire to clone their companion animals.
Process of Equine Cloning & its Challenges
- Equine cloning, like other species, is an inefficient process, with success rates lower than 3%. This inefficiency is attributed primarily to high rates of embryonic loss, abortion, stillbirths and various abnormalities in the development phases that affect neonatal health. This results in very few pregnancies successfully being carried to term.
Outcome of the Study’s Efforts
- The researchers have successfully established 21 cloned mule pregnancies using fetal fibroblast cells and seven cloned horse pregnancies using adult cumulus cells. Out of the cloned mule pregnancies, three were carried to full-term, resulting in the birth of three healthy clones.
Importance of the Research
- This research contributes significantly to the growing body of knowledge on the outcome of cloned equine pregnancies. It provides essential insights into understanding the points of failure in the cloning process and suggests possible solutions or areas of focus where success rates might be improved in future.
Cite This Article
APA
Vanderwall DK, Woods GL, Roser JF, Schlafer DH, Sellon DC, Tester DF, White KL.
(2006).
Equine cloning: applications and outcomes.
Reprod Fertil Dev, 18(1-2), 91-98.
https://doi.org/10.1071/rd05130 Publication
Researcher Affiliations
- Northwest Equine Reproduction Laboratory, Department of Animal and Veterinary Science and Center for Reproductive Biology, University of Idaho, Moscow, ID 83844, USA. dirkv@uidaho.edu
MeSH Terms
- Abortion, Spontaneous
- Animals
- Animals, Newborn
- Animals, Wild
- Cloning, Organism / methods
- Endocrine System / metabolism
- Equidae / physiology
- Female
- Horses / physiology
- Male
- Placenta / diagnostic imaging
- Pregnancy
- Ultrasonography, Prenatal
Citations
This article has been cited 1 times.- Cortez JV, Hardwicke K, Méndez-Calderón CE, Grupen CG. Effect of Pre-IVM Duration with cAMP Modulators on the Production of Cloned Equine Embryos and Foals. Animals (Basel) 2025 Jul 3;15(13).
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