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1 s, particularly in species causing human and animal disease.
2 al have been detected in models of human and animal disease.
3 ruses responsible for considerable human and animal disease.
4 igate the role of these viruses in human and animal disease.
5 ccount for a significant number of human and animal diseases.
6 NA viruses that cause a variety of human and animal diseases.
7 ntribute to a variety of important human and animal diseases.
8 ed variation in host behaviour when managing animal diseases.
9 n virulence and host resistance in plant and animal diseases.
10 d bases, and ingestion of FB1 causes several animal diseases.
11 otential to impact a wide range of human and animal diseases.
12 function, is implicated in several human and animal diseases, although both betaglycan actions and th
13              Anthrax is a globally important animal disease and zoonosis.
14 ly of parasites that causes lethal human and animal diseases and also serves as a model for studies o
15 ia are responsible for a number of human and animal diseases and are classical intracellular pathogen
16 he major disease signs and lesions of type D animal disease are usually attributed to epsilon toxin,
17                   The control strategies for animal diseases are carried out and financed by livestoc
18 ses are responsible for a range of human and animal diseases, but how their RNA genome is packaged re
19 rotection against many detrimental human and animal diseases, but reversion to virulence by mutation
20    Thus, a biological model for toxicity and animal disease can be assayed using an electrochemical a
21        The spatial-temporal dynamics of farm animal diseases depend both on disease specific processe
22 are susceptibility test data between aquatic animal disease diagnostic laboratories.
23                   In experimental autoimmune animal diseases, "epitope spreading" seems to have signi
24                    Initially, a USDA Foreign Animal Disease (FAD) investigation confirmed the presenc
25                                              Animal diseases gain political attention by their inclus
26 wth promotion or for treatment or control of animal diseases generates reservoirs of antibiotic-resis
27                                    The first animal disease homolog of human Sanfilippo syndrome type
28  most economically important arthropod-borne animal disease in the United States.
29 ns responsible for a wide range of human and animal disease including sepsis, meningitis, urinary tra
30 are etiologic agents of a range of human and animal diseases, including both mild and severe respirat
31 positive pathogen that causes many human and animal diseases, including food poisoning and gas gangre
32 that are responsible for important human and animal diseases, including malaria, toxoplasmosis, crypt
33 -U.S. meat samples tested, in both human and animal diseases is now facilitated by knowledge of their
34 o that of the wild-type parent, the National Animal Disease Laboratory strain of BVDV.
35 ifacient strains followed by selection in an animal disease model and whole-genome sequence analysis.
36 reclinical studies of a DVD-Ig protein in an animal disease model demonstrate its potential for thera
37 omyelitis in mice, a prototypic Th1-mediated animal disease model for multiple sclerosis.
38 logic importance of these interactions in an animal disease model has not been established.
39                       The availability of an animal disease model is essential for understanding path
40 disease incidence and severity in an in vivo animal disease model of multiple sclerosis.
41 been shown to modify the pathobiology in any animal disease model.
42 e variations, for the critical enzymes in an animal disease model.
43  the way for future in vivo studies on small animal disease models (in the mid-term future) and human
44 ne the therapeutic potentials of selenium in animal disease models and in human.
45 transmitters in specific brain structures in animal disease models and in response to drug treatments
46 Here, the use of different rodent species as animal disease models for REBOV was investigated.
47                                              Animal disease models had revealed the antithetic effect
48         Testing potential drug treatments in animal disease models is a decisive step of all preclini
49 gic and spinal motor neurons in vitro and in animal disease models making them attractive therapeutic
50 ogenesis gained from their identification in animal disease models may impact the treatment of human
51 dels, this approach can be extended to other animal disease models where macrophages are implicated a
52 isualization of genetically labeled cells in animal disease models with micrometer-level resolution w
53 has been notoriously difficult to restore in animal disease models, but limited data from human trial
54 PK1 inhibition confers resistance in various animal disease models, suggesting that inflammation caus
55  are studied both in vitro and in vivo using animal disease models.
56 hich are observed in psychiatric illness, in animal disease models.
57 eriments, stem-cell differentiation data and animal disease models.
58 ional implications of mechanistic studies in animal disease models.
59 and culminated with the preclinical tests on animal disease models.
60  use for the noninvasive assessment of small animal disease models.
61 several have failed despite positive data in animal disease models.
62 ia-based treatments shown to be effective in animal disease models.
63 ill discuss new data from the study of novel animal disease models.
64 ign viral proteins are protective in several animal disease models.
65  studies of chronic physiological changes in animal disease models.
66 cacy of SSOs has been established in various animal disease models; however, the application of SSOs
67 ty contribute to multiple forms of human and animal disease on a single plasmid presents further chal
68 pecimens has been used to estimate human and animal disease prevalence.
69 pecimens has been used to estimate human and animal disease prevalence.
70 ed hosts by chemotherapy, whereas control of animal diseases relies on reducing tsetse populations as
71 s showed that Clostridium perfringens type D animal disease strain CN3718 uses NanI sialidase for adh
72                                 Experimental animal disease studies included murine experimental auto
73 , Parkinson's, and Creutzfeldt-Jakob, and in animal diseases such as BSE.
74 es cause serious, life-threatening human and animal diseases, such as malaria, cryptosporidiosis, tox
75     While these viruses cause many human and animal diseases, such studies leave us with a lesser und
76 ial information for the design of risk-based animal disease surveillance and control strategies.
77 arasites; (ii) building integrated human and animal disease surveillance infrastructure and technical
78 icomplexan parasites cause serious human and animal diseases, the treatment of which requires identif
79 he oceans to lead to new cures for human and animal disease; the exploitation of natural drugs has al
80  produced in the intestines during human and animal disease, these findings suggest that intestinal p
81                             RP was the first animal disease to be globally eradicated in 2011 and is
82              The use of antibiotics to treat animal diseases was followed by the surprising discovery

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