M. D. Bishop scite author profile

Here we describe a procedure for cloning pigs by the use of in vitro culture systems. Four healthy male piglets from two litters were born following nuclear transfer of cultured somatic cells and subsequent embryo transfer. The initiation of five additional pregnancies demonstrates the reproducibility of this procedure. Its important features include extended in vitro culture of fetal cells preceding nuclear transfer, as well as in vitro maturation and activation of oocytes and in vitro embryo culture. The cell culture and nuclear transfer techniques described here should allow the use of genetic modification procedures to produce tissues and organs from cloned pigs with reduced immunogenicity for use in xenotransplantation.

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A medium-density genetic linkage map of the bovine genome

Barendse

et al. 1997

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A cattle genetic linkage map was constructed which covers more than 95 percent of the bovine genome at medium density. Seven hundred and forty six DNA polymorphisms were genotyped in cattle families which comprise 347 individuals in full sibling pedigrees. Seven hundred and three of the loci are linked to at least one other locus. All linkage groups are assigned to chromosomes, and all are orientated with regards to the centromere. There is little overall difference in the lengths of the bull and cow linkage maps although there are individual differences between maps of chromosomes. One hundred and sixty polymorphisms are in or near genes, and the resultant genome-wide comparative analyses indicate that while there is greater conservation of synteny between cattle and humans compared with mice, the conservation of gene order between cattle and humans is much less than would be expected from the conservation of synteny. This map provides a basis for high-resolution mapping of the bovine genome with physical resources such as Yeast and Bacterial Artificial Chromosomes as well as providing the underpinning for the interpolation of information from the Human Genome Project.

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Genome-Wide Epigenetic Alterations in Cloned Bovine Fetuses1

Cezar

Bartolomei

Forsberg³

et al. 2003

114

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To gain a better understanding of global methylation differences associated with development of nuclear transfer (NT)-generated cattle, we analyzed the genome-wide methylation status of spontaneously aborted cloned fetuses, cloned fetuses, and adult clones that were derived from transgenic and nontransgenic cumulus, genital ridge, and body cell lines. Cloned fetuses were recovered from ongoing normal pregnancies and were morphologically normal. Fetuses generated by artificial insemination (AI) were used as controls. In vitro fertilization (IVF) fetuses were compared with AI controls to assess effects of in vitro culture on the 5-methylcytosine content of fetal genomes. All of the fetuses were female. Skin biopsies were obtained from cloned and AI-generated adult cows. All of the adult clones were phenotypically normal and lactating and had no history of health or reproductive disorders. Genome-wide cytosine methylation levels were monitored by reverse-phase HPLC, and results indicated reduced levels of methylated cytosine in NT-generated fetuses. In contrast, no differences were observed between adult, lactating clones and similarly aged lactating cows produced by AI. These data imply that survivability of cloned cattle may be closely related to the global DNA methylation status. This is the first report to indicate that global methylation losses may contribute to the developmental failure of cloned bovine fetuses.

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Ontogeny of Cloned Cattle to Lactation

Pace¹,

Augenstein²,

Betthauser³

et al. 2002

110

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Central to the success of large animal cloning is the production of healthy animals that can provide products for human health, food, and other animal agriculture applications. We report development of cloned cattle derived from 34 genetically unique, nonembryonic cell lines using nuclear transfer performed between 1 January 1998 and 29 February 2000. Nearly 25% (535/2170) of the recipients receiving reconstructed embryos initiated pregnancy. Overall, 19.8% (106/535) of the initiated pregnancies resulted in live births, while 77% (82/106) of these cattle clones remain healthy and productive today. Although a wide variation in birth weight of clone calves was observed, their growth rates, reproductive performance, and lactation characteristics are similar to that found in noncloned dairy cattle. Our data represent the most comprehensive information on cattle derived from nuclear transfer procedures and indicate that this emerging reproductive technology offers unique opportunities to meet critical needs in both human health care and agriculture.

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Development of a bovine X chromosome linkage group and painting probes to assess cattle, sheep, and goat X chromosome segment homologies.

León¹,

Ambady²,

Hawkins³

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

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Production of Cloned Cattle from In Vitro Systems

Forsberg¹,

Strelchenko²,

Augenstein³

et al. 2002

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The pregnancy initiation and maintenance rates of nuclear transfer embryos produced from several bovine cell types were measured to determine which cell types produced healthy calves and had growth characteristics that would allow for genetic manipulation. Considerable variability between cell types from one animal and the same cell type from different animals was observed. In general, cultured fetal cells performed better with respect to pregnancy initiation and calving than adult cells with the exception of cumulous cells, which produced the highest overall pregnancy and calving rates. The cell type that combined relatively high pregnancy initiation and calving rates with growth characteristics that allowed for extended proliferation in culture were fetal genital ridge (GR) cells. Cultured GR cells used in nuclear transfer and embryo transfer initiated pregnancies in 40% of recipient heifers (197), and of all recipients that received nuclear transfer embryos, 9% produced live calves. Cultured GR cells doubled as many as 85 times overall and up to 75 times after dilution to single-cell culture. A comparison between transfected and nontransfected cells showed that transfected cells had lower pregnancy initiation (22% versus 32%) and calving (3.4% versus 8.9%) rates.

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Construction and characterization of a bovine BAC library with four genome-equivalent coverage

et al. 2001

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-A bovine artificial chromosome (BAC) library of 105 984 clones has been constructed in the vector pBeloBAC11 and organized in 3-dimension pools and high density membranes for screening by PCR and hybridization. The average insert size, determined after analysis of 388 clones, was estimated at 120 kb corresponding to a four genome coverage. Given the fact that a male was used to construct the library, the probability of finding any given autosomal and X or Y locus is respectively 0.98 and 0.86. The library was screened for 164 microsatellite markers and an average of 3.9 superpools was positive for each PCR system. None of the 50 or so BAC clones analysed by FISH was chimeric. This BAC library increases the international genome coverage for cattle to around 28 genome equivalents and extends the coverage of the ruminant genomes available at the Inra resource center to 15 genome equivalents. bovine / BAC library / mapping

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A genetic linkage map for cattle.

et al. 1994

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We report the most extensive physically anchored linkage map for cattle produced to date. Three-hundred thirteen genetic markers ordered in 30 linkage groups, anchored to 24 autosomal chromosomes (n = 29), the X and Y chromosomes, four unanchored syntenic groups and two unassigned linkage groups spanning 2464 cM of the bovine genome are summarized. The map also assigns 19 type I loci to specific chromosomes and/or syntenic groups and four cosmid clones containing informative microsatellites to chromosomes 13, 25 and 29 anchoring syntenic groups U11, U7 and U8, respectively. This map provides the skeletal framework prerequisite to development of a comprehensive genetic map for cattle and analysis of economic trait loci (ETL).

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M. D. Bishop

Production of cloned pigs from in vitro systems

A medium-density genetic linkage map of the bovine genome

Genome-Wide Epigenetic Alterations in Cloned Bovine Fetuses1

Ontogeny of Cloned Cattle to Lactation

Development of a bovine X chromosome linkage group and painting probes to assess cattle, sheep, and goat X chromosome segment homologies.

Production of Cloned Cattle from In Vitro Systems

Construction and characterization of a bovine BAC library with four genome-equivalent coverage

A genetic linkage map for cattle.

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