69dolly: A Final Report

Rhind, Susan; Cui, Weiguo; King, Tim; Ritchie, William A.; Wylie, Daniel B.; Wilmut, Ian

doi:10.1071/rdv16n1ab69

Cited by 9 publications

(5 citation statements)

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“…Oversized cloned offspring add to the birth complications. They are larger than IVP, artificially inseminated or naturally-mated controls (52). It has been reported that somatic cloned calves are heavier than embryonic clones (21).…”

Section: Parturition Difficultiesmentioning

confidence: 97%

“…Telomeres are regions of DNA at the ends of chromosomes which progressively shorten after each cell division in most somatic cell types. Whilst Dolly may have developed arthritis and was euthanised at a relatively young age because of a virallyinduced lung tumour (52), this may have resulted from her largely indoor housing and handling rather than the fact that she was a clone. Other studies have been contradictory with regard to telomere length in clones, with reports of restoration to normal in cattle (3,64) and mice (69) and even instances of extended telomere lengths (32).…”

Section: Clone-specific Phenotypesmentioning

confidence: 99%

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Problemas y perspectivas de la clonación de animales

Dn¹

2005

Rev. Sci. Tech. OIE

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An efficient animal cloning technology would provide many new opportunities for livestock agriculture, human medicine, and animal conservation. Nuclear cloning involves the production of animals that are genetically identical to the donor cells used in a technique known as nuclear transfer (NT). However, at present it is an inefficient process: in cattle, only around 6% of the embryos transferred to the reproductive tracts of recipient cows result in healthy, longterm surviving clones. Of concern are the high losses throughout gestation, during birth and in the post-natal period through to adulthood. Many of the pregnancy losses relate to failure of the placenta to develop and function correctly. Placental dysfunction may also have an adverse influence on postnatal health. These anomalies are probably due to incorrect epigenetic reprogramming of the donor genome following NT, leading to inappropriate patterns of gene expression during the development of clones. Whilst some physiological tests on surviving clones suggest normality, other reports indicate a variety of post-natal clone-associated abnormalities. This variability in outcome may reflect species-specific and/or cloning methodological differences. Importantly, to date it appears that these clone-associated phenotypes are not transmitted to offspring following sexual reproduction. This indicates that they represent epigenetic errors, rather than genetic errors, which are corrected during gametogenesis. Whilst this needs confirmation at the molecular level, it provides initial confidence in the first application of NT in agriculture, namely, the production of small numbers of cloned sires from genetically elite bulls, for natural mating, to effectively disseminate genetic gain. In addition to the animal welfare concerns with the technology, the underlying health of the animals and the consequential effect on food safety are critical aspects that require investigation to gain regulatory and consumer acceptance. Future improvements in animal cloning will largely arise from a greater understanding of the molecular mechanisms of reprogramming.

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Section: Parturition Difficultiesmentioning

confidence: 97%

Section: Clone-specific Phenotypesmentioning

confidence: 99%

Problemas y perspectivas de la clonación de animales

Dn¹

2005

Rev. Sci. Tech. OIE

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“…Such problems tend to disappear after 1 year of age. Finally, the report on Dolly's death indicated that she died of Jaagsiekte sheep retrovirus infection, but that she was previously healthy (apart from arthritis, which was treated with anti-inflammatory drugs) and fertile (Rhind et al, 2004).…”

Section: Fetal Developmentmentioning

confidence: 99%

Pregnancy and Neonatal Care of SCNT Animals

Chavatte-Palmer

Lee

Bertolini

et al. 2014

Principles of Cloning

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“…The conference abstract by Rhind et al . 1 reported that Dolly 2 had OA of the left stifle (knee) at 5½ years of age. Radiographs of her right stifle were reportedly normal at that stage.…”

Section: Introductionmentioning

confidence: 99%

Radiographic assessment of the skeletons of Dolly and other clones finds no abnormal osteoarthritis

Corr

Gardner

Langley‐Hobbs

et al. 2017

Sci Rep

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Our recent report detailing the health status of cloned sheep concluded that the animals had aged normally. This is in stark contrast to reports on Dolly (first animal cloned from adult cells) whose diagnoses of osteoarthritis (OA) at 5½ years of age led to considerable scientific concern and media debate over the possibility of early-onset age-related diseases in cloned animals. Our study included four 8-year old ewes derived from the cell line that gave rise to Dolly, yet none of our aged sheep showed clinical signs of OA, and they had radiographic evidence of only mild or, in one case, moderate OA. Given that the only formal record of OA in Dolly is a brief mention of a single joint in a conference abstract, this led us to question whether the original concerns about Dolly’s OA were justified. As none of the original clinical or radiographic records were preserved, we undertook radiographic examination of the skeletons of Dolly and her contemporary clones. We report a prevalence and distribution of radiographic-OA similar to that observed in naturally conceived sheep, and our healthy aged cloned sheep. We conclude that the original concerns that cloning had caused early-onset OA in Dolly were unfounded.

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69dolly: A Final Report

Cited by 9 publications

References 0 publications

Problemas y perspectivas de la clonación de animales

Problemas y perspectivas de la clonación de animales

Pregnancy and Neonatal Care of SCNT Animals

Radiographic assessment of the skeletons of Dolly and other clones finds no abnormal osteoarthritis

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