摘要:
The invention relates to a method for determining calving characteristics in bovine subjects, wherein calving characteristics comprise stillbirth, calving difficulty and calf size at birth, which are all economically important factors. In particular, the method of the invention involves identification of genetic markers and/or Quantitative Trait Locus (QTL) for the determination of calving characteristics in a bovine subject. The determination of calving characteristics involves resolution of the specific microsatellite status. Furthermore, the invention relates to a diagnostic kit for detection of genetic marker(s) associated with calving characteristics. The method and kit of the present invention can be applied for selection of bovine subjects for breeding purposes. Thus, the invention provides a method of genetically selecting bovine subjects with calving characteristics that will yield cows less prone to stillbirth, calving difficulties and undesired calf size at birth.
摘要:
Genetic markets for identifying bovine carriers of complex vertebral malformation (CVM) disease gene are described. The genetic markers, including the microsatellite markers, BM4129, INRAA003, BMS2790, ILSTS029, INRA123, BM220, HUJ246, BMS862, BMS937, BL1048, BMS2095 and BMS1266 and the bovine SLC35A3 gene, are located on bovine chromosome BTA3. The G/T polymorphism at position 559 of the bovine SLC35A3 gene is identified as being causative and diagnostic for CVM in cattle.
摘要:
The invention relates to a method for determining udder health characteristics in bovine subjects, wherein udder health characteristics comprise sub-clinical and clinical mastitis. In particular, the method of the invention involves identification of genetic markers and/or Quantitative Trait Locus (QTL) for the determination of udder health characteristics in a bovine subject. The determination of udder health characteristics involves resolution of the specific microsatellite status. Furthermore, the invention relates to a diagnostic kit for detection of genetic marker(s) associated with udder health. The method and kit of the present invention can be applied for selection of bovine subjects for breeding purposes. Thus, the invention provides a method of genetically selecting bovine subjects with udder health characteristics that will yield cows less prone to mastitis.
摘要:
Genetic markets for identifying bovine carriers of complex vertebral malformation (CVM) disease gene are described. The genetic markers, including the microsatellite markers BM4129, INRAA003, BMS2790, ILSTS029, INRA123, BM220, HUJ246, BMS862, BMS937, BL1048, BMS2095 and BMS1266 and the bovine SLC35A3 gene, are located on bovine chromosome BTA3. The G/T polymorphism at position 559 of the bovine SLC35A3 gene is identified as being causative and diagnostic for CVM in cattle.
摘要:
Genetic markets for identifying bovine carriers of complex vertebral malformation (CVM) disease gene are described. The genetic markers, including the microsatellite markers, BM4129, INRAA003, BMS2790, ILSTS029, INRA123, BM220, HUJ246, BMS862, BMS937, BL1048, BMS2095 and BMS1266 and the bovine SLC35A3 gene, are located on bovine chromosome BTA3. The G/T polymorphism at position 559 of the bovine SLC35A3 gene is identified as being causative and diagnostic for CVM in cattle.
摘要:
The present invention discloses a non-human animal model for a hereditary autosomal dominant disease. The non-human animal model expresses at least one phenotype associated with the disease and is obtained by a genetic determinant. The invention also relates to sperm cells and embryos comprising the genetic determinant for an autosomal dominant disease. Furthermore, methods for producing the non-human animal model, sperm cell, and embryos are disclosed.
摘要:
The present invention discloses a non-human animal model for a hereditary autosomal dominant disease. The non-human animal model expresses at least one phenotype associated with the disease and is obtained by a genetic determinant. The invention also relates to sperm cells and embryos comprising the genetic determinant for an autosomal dominant disease. Furthermore, methods for producing the non-human animal model, sperm cell, and embryos are disclosed.
摘要:
The invention relates to a method for determining mastitis resistance in bovine subjects, wherein mastitis resistance comprise resistance to both sub-clinical and clinical mastitis. In particular, the method of the invention involves identification of genetic markers and/or Quantitative Trait Locus (QTL) for the determination of mastitis resistance in a bovine subject. The determination of mastitis resistance involves resolution of the specific microsatellite status. Furthermore, the invention relates to a diagnostic kit for detection of genetic marker(s) associated with mastitis resistance. The method and kit of the present invention can be applied for selection of bovine subjects for breeding purposes. Thus, the invention provides a method of genetically selecting bovine subjects with mastitis resistance, thereby yielding cows less prone to mastitis.
摘要:
The present invention relates to methods for manufacturing a composite cable, cables resulting from the manufacturing process and use of a composite cable in a well. According to the invention there are several elements to enhance a composite cable, where among a preheating process of conductors before joining them with a matrix, aligning the fibers in the matrix in parallel with each other and the conductors, adding exothermic starting agent to the liquid resin, forming the matrix.
摘要:
A method for manufacturing a composite cable comprises providing a number of electrical conductors which are each covered by insulation, providing a number of fibres for strength, coating the fibres with a liquid thermosetting or thermoplastic resin to form a fibre-resin matrix comprising a number of resin-coated fibres, combining the resin-coated fibres and the conductors to form the cable, and pulling the resultant cable through a curing station to cure the fibre-resin matrix. Before the curing station, the resin-coated fibres are passed through a pre-shaper stage where the fibres are arranged with an orientation parallel to each other and to the conductors and are guided through two guiding plates and at least one pre-shaper element.