Topic:Cloning
Cloning in horses involves the process of creating a genetically identical copy of an original horse through somatic cell nuclear transfer (SCNT). This technique involves transferring the nucleus of a somatic cell from the donor horse into an enucleated oocyte, which is then stimulated to develop into an embryo and implanted into a surrogate mare. Cloning has been utilized for various purposes, including the preservation of valuable genetics, reproduction of geldings, and research into genetic diseases. The practice raises discussions on genetic diversity, animal welfare, and ethical considerations. This page compiles peer-reviewed research studies and scholarly articles that explore the methodologies, applications, and implications of cloning in equine science.
Cloning and characterization of an equine cutaneous papillomavirus. Equine papillomaviruses (EqPV) from naturally occurring cases of cutaneous papillomatosis in several ponies and one horse were isolated, cloned, and characterized. Group specific papillomavirus structural antigens were detected in sections of the papillomas by the peroxidase-antiperoxidase technique, and virions were observed in the in the nuclei of cells in the stratum granulosum and corneum. Negatively stained virions purified from papilloma homogenates by isopycnic CsCl centrifugation were 55 nm in diameter and had typical papillomavirus morphology. The entire viral genomes of two separate ...
Generation of packaging-defective DNA molecules of equine adenovirus. Equine adenovirus (EAd) DNA prepared from infected bovine kidney (MDBK) cells contained additional sequences of about 100 to 700 bp at the left-hand end of the genome. These aberrant viral genomes were produced even after the first passage of the wild type EAd in MDBK cells and their relative amounts did not change significantly during serial passage. The left terminal fragments of two defective viral DNAs were cloned into the plasmid vector pBR322 and the nucleotide sequences of their terminal regions were analyzed. The data indicate that one viral DNA contained a duplication of the inverted ...
DNA sequences from the quagga, an extinct member of the horse family. To determine whether DNA survives and can be recovered from the remains of extinct creatures, we have examined dried muscle from a museum specimen of the quagga, a zebra-like species (Equus quagga) that became extinct in 1883 (ref. 1). We report that DNA was extracted from this tissue in amounts approaching 1% of that expected from fresh muscle, and that the DNA was of relatively low molecular weight. Among the many clones obtained from the quagga DNA, two containing pieces of mitochondrial DNA (mtDNA) were sequenced. These sequences, comprising 229 nucleotide pairs, differ by 12 base substitu...
Production of monozygotic (identical) horse twins by embryo micromanipulation. The blastomeres of 192- to 8-cell embryos recovered surgically 1-3 days after ovulation from 23 Pony mares were mechanically separated and inserted, in various combinations, into evacuated pig zonae pellucidae to make 27 'half' and 17 'quarter' micromanipulated embryos. These were embedded in agar and cultured in vivo in the ligated oviducts of ewes for 3.5-5 days to allow development to the late morula/early blastocyst stage. Subsequent surgical or non-surgical transfer of 13 'half' and 17 'quarter' embryos to mares resulted in 10 established pregnancies, including 2 monozygotic pairs. Surgic...
Molecular cloning of equine herpesvirus type 1 DNA: analysis of standard and defective viral genomes and viral sequences in oncogenically transformed cells. Genomic DNA sequences of equine herpesvirus type 1 (EHV-1) have been cloned as BamHI and EcoRI restriction fragments into the plasmid pBR322 and propagated in Escherichia coli. With the exception of two EcoRI restriction fragments that reside in the S region of the viral genome, all of the cloned fragments demonstrated the same electrophoretic mobilities, restriction cleavage sites, and blot-hybridization patterns as did the parent fragments produced by BamHI or EcoRI digestion of virion DNA. The EcoRI J fragment and the BamHI E fragment of the L-region terminus were cloned after the addition ...