ライフサイエンスコーパス: farm animal

1 ies barrier for transmission of the virus to farm animals.

2 analyses of complex genetic architectures in farm animals.

3 logy to improve the health and well-being of farm animals.

4 ing) or microbial sources on this process in farm animals.

5 of medication use, and exposure to pets and farm animals.

6 human, major vertebrate model organisms and farm animals.

7 (FMDV) causes an acute vesicular disease of farm animals.

8 jor cause of diarrheal disease in humans and farm animals.

9 ch has opened the door to genome research in farm animals.

10 rynebacteria that cause various illnesses in farm animals.

11 erinary isolates of Salmonella enterica from farm animals.

12 ful target for genetic manipulation in other farm animals.

13 eir effects on the health and performance of farm animals.

14 n wild aquatic birds, occasionally infecting farm animals.

15 tunities for controlling future epidemics in farm animals.

16 L affecting a trait of major importance to a farmed animal.

17 astrophic effects of infectious outbreaks in farmed animals.

18 wide variety of genotypes and phenotypes in farmed animals.

19 ver, or stream (0%-5.1%); and contact with a farm animal (2.1%-12.7%).

20 of an avian-specific DNA fragment (68bp) in farm animal and pet feeds.

21 otics used for human therapy, as well as for farm animals and even for fish in aquaculture, resulted

22 gether with restrictions on movement of both farm animals and humans, during the outbreak of FMD in 2

23 mplicated as a cause of diarrheal disease in farm animals and humans.

24 More prudent use of antimicrobial agents in farm animals and more effective disease prevention on fa

25 f processed foods and decreased contact with farm animals and pets, which limit exposure to environme

26 ses among inbred lines of model organisms or farm animals and plants.

27 sociation between early exposure to dogs and farm animals and the risk of asthma was evaluated and in

28 ens that cause chronic systemic infection in farm animals and zoonotic infection in humans.

29 cterial whole-genome sequences isolated from farmed animals and human infections, using the amino aci

30 iour and suggests that the interplay between farmed animals and their housed environment plays an imp

31 reveal potential virus transmission between farmed animals and wild animals, and from humans to farm

32 ] exposed to dogs and 1729 [0.5%] exposed to farm animals) and 276,298 school-aged children (22,629 [

33 A total of 56 isolates from humans, farm animals, and food were subjected to multilocus viru

34 silencing to combat viral disease in crops, farm animals, and people, although there are complicatio

35 Humans, farm animals, and wildlife in these areas may have been

36 s, including the first regulatory builds for farmed animals, and have updated key tools and resources

37 ssion from its major natural hosts, ruminant farm animals; and other aspects of its epidemiology, its

38 Farm animals are now well placed to bridge the gap betwe

39 s paper, we provide an informatics primer on farm animal bioinformatics and genome project resources

40 attention in recent years as a major goal of farm animal breeding programs.

41 o evaluate the genetic structure of domestic farm animal breeds.

42 gy to prevent airway bacterial infections in farm animals by bacteria-inducible tissue-specific expre

43 rly-life exposures including early childhood farm animal contact and raw milk consumption.

44 n species and that biomarkers, identified in farm animals could also act as potential biomarker candi

45 ten face limitations when handling extensive farm animal datasets, as demonstrated in this study.

46 In swine farming, animals develop diseases that require the use o

47 The spatial-temporal dynamics of farm animal diseases depend both on disease specific pro

48 ort the hypothesis that exposure to dogs and farm animals during the first year of life reduces the r

49 ident with the peak in rates of infection in farm animals (during lambing and calving time).

50 Farm animal exposure was associated with a reduced risk

51 lminth treatment, sunlight exposure, pet and farm animal exposure, cigarette smoke, and household coo

52 assessed: indoor and outdoor dogs and cats, farm animals, farming, visit to a stable, day care, and

53 The supplementation of Zn to farm animal feed and the excretion via manure leads to a

54 se findings suggest that exposure to diverse farm animals, feed, and bedding during the prenatal peri

55 s of two types of compound feeds: industrial farm animal feeds (n=60) subjected to extreme temperatur

56 sms for planned surgery (eg, raising donated farm animals for cash in Zimbabwe, Ethiopia, and India),

57 y is now available for commercial cloning of farm animals for food production, but is the food safe f

58 a key role in improving the productivity of farmed animals for decades.

59 cocci isolated from humans, retail food, and farm animals from geographically diverse areas and provi

60 strategy of using food additives to protect farm animals from the toxin may also provide effective a

61 ven fabrics are several reasons for thriving farm animal genome activity.

62 ormation on resources and updates concerning farm animal genome projects.

63 Widespread interest in farm animal genomics as a method for identifying genes c

64 Farm animal genomics is of interest to a wide audience o

65 We here introduce the Farm Animal Genotype-Tissue Expression (FarmGTEx) Projec

66 Here, as part of the Farm Animal Genotype-Tissue Expression (FarmGTEx) projec

67 The Farm Animal Genotype-Tissue Expression (FarmGTEx) projec

68 attleGTEx) as part of the pilot phase of the Farm animal GTEx (FarmGTEx) project for the research com

69 he 10 most prevalent serotypes isolated from farm animals in England and Wales in 1999.

70 Exposure to farm animals in infants and their mothers during pregnan

71 s in muscle tissue samples of commonly eaten farm animals in Pakistan and Nigeria.

72 me stewardship in diverse species, including farm animals, in order to support their healthy growth.

73 utic concentrations to promote the growth of farm animals, including chickens.

74 animals and wild animals, and from humans to farmed animals, indicating that fur farming represents a

75 iotics produced in the world are used in the farm animal industry.

76 mpacts of housing conditions for intensively farmed animals is a complex and emotive subject, yet poo

77 The rearing of farmed animals is a vital component of global food produ

78 evident, enhancing performance resilience of farm animals may contribute to mitigation against advers

79 Farm animals may harbor viral pathogens, some with zoono

80 In farm animals, mitochondrial DNA mutations exist widely a

81 Three farm animals, namely laying hens, broilers, and pigs, we

82 Three farm animals, namely laying hens, broilers, and pigs, we

83 hed people with no occupational exposures to farm animals (non-farmers).

84 more dominant in North America in humans and farm animals, only later emerging in Europe.

85 s expected due to climate change will affect farm animal performance, probably resulting in lower qua

86 the detrimental effects of climate change on farm animal performance.

87 Farm animal personality traits are of interest since the

88 may affect infectious disease prevalence in farmed animal populations and the prospects and time sca

89 The massive usage of antibiotics during farm animal production has caused rapid development of a

90 te movement networks for other sets of data, farm animal production systems, and geographic regions.

91 roach for reducing the use of antibiotics in farm animal production, we produced transgenic mice carr

92 lity of inducing bacterial resistance during farm animal production.

93 n and implantation is critical for improving farm animal reproduction but is hampered by a limited su

94 e and showcase its adoption by six EuroFAANG farmed animal research consortia.

95 ty, plasticity and social effects impact how farm animals respond to changes and can inform managemen

96 survey of viruses in the feces of intensely farmed animals revealed frequent coinfections with a hig

97 Exposure to farm animal sheds was inversely related to wheeze (aOR,

98 consequence of its proliferation in multiple farm animal species and its transmission via contaminate

99 aps uniquely achievable with poultry, of all farm animal species, since the genetics of 85% of the 60

100 Goats (Capra hircus) are an important farm animal species.

101 d the risk that AS might represent for other farmed animal species remains largely unknown.

102 The goat (Capra hircus) is one of the first farm animals that have undergone domestication and exten

103 For farm animals the supplementation of exogenous enzymes, l

104 In farm animals this could impact the response to managemen

105 technology beyond rodents and use transgenic farm animals to directly generate and produce human sequ

106 The administration of anabolic agents in farm animals to improve meat production has been prohibi

107 iversity, and exposure to endotoxins through farm animals to the effects of pollution, climate, and d

108 on with the reduction in the number of young farm animals, together with restrictions on movement of

109 commercially available for field testing of farm animals using milk samples.

110 . coli (a model resistant strain excreted by farm animals) versus Pseudomonas aeruginosa (a model bac

111 Maternal and infant exposure to farms and farm animals was associated with nonsignificant trends f

112 Although the genomics of farm animals was relatively late to arrive on the scene

113 Concerns for farm animal welfare have led to the use of environmental

114 For the most part solutions to farm animal welfare issues, such as piglet mortality, ar

115 %] exposed to dogs and 958 [0.3%] exposed to farm animals) were included in the analyses.

116 mouth disease (FMD), an important disease of farmed animals, which is endemic in many parts of the wo

117 ions of Animal that varied in valence (pets, farm animals, wild animals, and vermin; experiments 1-2)

118 nued molecular characterization of crops and farm animals with ever sharper tools is essential for fu

119 causes a fast-spreading disease that affects farm animals, with economically and socially devastating