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1 nchronized strain surveillance in humans and domestic animals.
2 n humans and a welfare and economic issue in domestic animals.
3 as sleeping sickness in humans and nagana in domestic animals.
4 al to humans and also pose a serious risk to domestic animals.
5 ing since it is more valuable than meat from domestic animals.
6 mes cause devastating diseases in humans and domestic animals.
7 ve the most frequent contact with humans and domestic animals.
8 orts might reduce transmission to humans and domestic animals.
9 onsequently, likely affect their mixing with domestic animals.
10 s and subsequent evolution and demography of domestic animals.
11 the domestication syndrome observed in other domestic animals.
12 ial relevance to the welfare of group-housed domestic animals.
13 type B causes enteritis and enterotoxemia in domestic animals.
14 are caused by pathogens shared with wild or domestic animals.
15 r necrotizing enteritis and enterotoxemia in domestic animals.
16 hesis that have been described in humans and domestic animals.
17 al disease in humans and in horses and other domestic animals.
18 -celled apicomplexan parasites of humans and domestic animals.
19 al disease in humans and in horses and other domestic animals.
20 nesis of C. perfringens type B infections in domestic animals.
21 smission cycle (in wild animals) and that in domestic animals.
22 ons, including enterotoxemias, in humans and domestic animals.
23 ies is to implement vaccination programs for domestic animals.
24 irus, are widespread pathogens of humans and domestic animals.
25 for most Salmonella infections in humans and domestic animals.
26 ship with humans, going beyond that of other domestic animals.
27 that induces chronic infection in humans and domestic animals.
28 to E) with gastrointestinal (GI) diseases in domestic animals.
29 n, associated with suppurative infections in domestic animals.
30 conditions and may enhance muscle growth in domestic animals.
31 -site sanitation coverage; (2) determine how domestic animals affect fecal contamination; and (3) ass
32 ikely that increases in mite, cockroach, and domestic animal allergens have been sufficient to explai
33 nsitive detection and quantitation of common domestic animal and bird species DNA from complex biomat
34 es are reservoirs of pathogens that threaten domestic animal and human health; second, wildlife EIDs
35 grated One Health approach, targeting human, domestic animal and wildlife interfaces, provide modern
37 ogen that causes abortion and infertility in domestic animals and a severe debilitating febrile illne
38 The toxins cause several fatal diseases in domestic animals and are associated with esophageal canc
39 parasites worldwide, infecting many wild and domestic animals and causing zoonotic infections in huma
40 lates, which cause rapidly fatal diseases in domestic animals and enteritis necroticans in humans, co
41 contributed to rapid phenotypic evolution in domestic animals and how alleles in domestic animals may
42 ecies disease transmission between wildlife, domestic animals and humans is an increasing threat to p
43 fication of markers in homologous regions in domestic animals and humans, which may be utilized to as
48 on's vector mosquitoes feed predominantly on domestic animals and only secondarily on human beings, t
50 is threatened simultaneously by disease from domestic animals and rapid changes in food availability
52 rimental effects on the health of humans and domestic animals, and diminished recreational value of w
57 za A viruses are major pathogens for humans, domestic animals, and wildlife, and these viruses occasi
60 economic impact of type C-induced diseases, domestic animals are commonly vaccinated with crude type
62 ted marker in urban slum environments, where domestic animals are exposed to human feces that have be
63 obial surveillance that include wildlife and domestic animals as well as humans, and recognition that
64 ishment of agricultural economies based upon domestic animals began independently in many parts of th
65 logical remains such as charcoal, seeds, and domestic animal bones suggest that people have inhabited
68 y samples from cases of rabies in humans and domestic animals diagnosed in Venezuela between 1990 and
69 uce the risk of human infection by excluding domestic animals, especially infected dogs, from bedroom
70 ckground, tame behavior in rabbits and other domestic animals evolved by shifts in allele frequencies
71 e has opened a new opportunity to manipulate domestic animal genomes via homologous recombination.
74 y viruses that are significant for human and domestic animal health, but the dynamics of these infect
75 ibodies against both GI and GII human NVs in domestic animals highlights the importance of further st
77 other clinical syndromes of both humans and domestic animals; in this strain the polysialic acid cap
78 y associated with clostridial GI diseases in domestic animals, including necrotic enteritis in piglet
79 he climate sensitivity of European human and domestic animal infectious pathogens, and the characteri
82 ution in domestic animals and how alleles in domestic animals may evolve by the accumulation of multi
83 uman African sleeping sickness and nagana in domestic animals, myo-inositol is taken up via a specifi
84 of the historical development of cloning in domestic animals, of its application to the propagation
85 KV can be found by evaluating arboviruses in domestic animals, of which there are at least seven NT v
89 hinitis in swine and pasteurellosis in other domestic animals, produces an extracellular polysacchari
90 ucing the abundance of their hosts; however, domestic animal production and complex life cycles can m
94 ions and limits the rate of muscle growth in domestic animals, the proteolytic system responsible for
95 the most dangerous pathogens for humans and domestic animals, their monoxenous relatives have freque
96 : (i) EIDs associated with "spill-over" from domestic animals to wildlife populations living in proxi
97 so met all criteria except for exceeding the domestic animal toxicity limit for shoot accumulation of
98 humans and enteritis and enterotoxaemias of domestic animals, typically produce (at minimum) beta to
100 f those not receiving RPEP), often because a domestic animal was unavailable for observation or testi
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