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    • 1. 发明授权
    • Associations of single nucleotide polymorphisms and haplotype with feed intake and feed efficiency in beef cattle
    • 单核苷酸多态性和单倍体与肉牛饲料摄取和饲料效率的关系
    • US08097406B2
    • 2012-01-17
    • US11969795
    • 2008-01-04
    • Stephen Stewart MooreEsther Laura ShermanJoshua Donald Nkrumah
    • Stephen Stewart MooreEsther Laura ShermanJoshua Donald Nkrumah
    • C12Q1/68C12P19/34
    • C12Q1/6888C12Q2600/156G06Q10/063G06Q10/0639
    • The physiological regulation of intake, growth and energy partitioning in animals is under the control of multiple genes, which may be important candidates for unraveling the genetic variation in economically relevant traits in beef production. The present invention relates to the identification of single nucleotide polymorphisms (SNPs) and their haplotypes, across the bovine genome in genes encoding polypeptides associated with feed efficiency, and their associations with residual feed intake in beef production. The invention further encompasses methods and systems, including network-based processes, to manage the SNP data, haplotype data and other data relating to specific animals and herds of animals, veterinarian care, diagnostic and quality control data and management of livestock which, based on genotyping, have predictable meat quality traits, husbandry conditions, animal welfare, food safety information, audit of existing processes and data from field locations.
    • 动物的摄入,生长和能量分配的生理调节受多种基因的控制,这可能是解决牛肉生产中经济相关性状遗传变异的重要候选物。 本发明涉及在编码与饲料效率相关的多肽的基因中的牛基因组中识别单核苷酸多态性(SNP)及其单倍型,以及它们与牛肉生产中残留饲料摄入的关系。 本发明还包括方法和系统,包括基于网络的过程,用于管理SNP数据,单倍型数据和与特定动物和动物群体有关的其他数据,兽医护理,诊断和质量控制数据以及牲畜的管理,其基于 基因分型,具有可预测的肉质特征,畜牧条件,动物福利,食品安全信息,对现场流程和现场数据的审计。
    • 2. 发明申请
    • Associations of single nucleotide polymorphisms and haplotype with feed intake and feed efficiency in beef cattle
    • 单核苷酸多态性和单倍体与肉牛饲料摄取和饲料效率的关系
    • US20080177597A1
    • 2008-07-24
    • US11969795
    • 2008-01-04
    • Stephen Stewart MooreEsther Laura ShermanJoshua Donald Nkrumah
    • Stephen Stewart MooreEsther Laura ShermanJoshua Donald Nkrumah
    • G06Q10/00C12Q1/68
    • C12Q1/6888C12Q2600/156G06Q10/063G06Q10/0639
    • The physiological regulation of intake, growth and energy partitioning in animals is under the control of multiple genes, which may be important candidates for unraveling the genetic variation in economically relevant traits in beef production. The present invention relates to the identification of single nucleotide polymorphisms (SNPs) and their haplotypes, across the bovine genome in genes encoding polypeptides associated with feed efficiency, and their associations with residual feed intake in beef production. The invention further encompasses methods and systems, including network-based processes, to manage the SNP data, haplotype data and other data relating to specific animals and herds of animals, veterinarian care, diagnostic and quality control data and management of livestock which, based on genotyping, have predictable meat quality traits, husbandry conditions, animal welfare, food safety information, audit of existing processes and data from field locations.
    • 动物的摄入,生长和能量分配的生理调节受多种基因的控制,这可能是解决牛肉生产中经济相关性状遗传变异的重要候选物。 本发明涉及在编码与饲料效率相关的多肽的基因中的牛基因组中识别单核苷酸多态性(SNP)及其单倍型,以及它们与牛肉生产中残留饲料摄入的关系。 本发明还包括方法和系统,包括基于网络的过程,用于管理SNP数据,单倍型数据和与特定动物和动物群体有关的其他数据,兽医护理,诊断和质量控制数据以及牲畜的管理,其基于 基因分型,具有可预测的肉质特征,畜牧条件,动物福利,食品安全信息,对现场流程和现场数据的审计。