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1 o be a part of the infection process of this pathogenic microorganism.
2 he detection of nucleic acids derived from a pathogenic microorganism.
3 e growth, differentiation and virulence of a pathogenic microorganism.
4 related to the presence of food spoilage and pathogenic microorganisms.
5 en to obtain information about commensal and pathogenic microorganisms.
6 epithelial surfaces colonized by potentially pathogenic microorganisms.
7 the pectin/pectate lyases from several plant pathogenic microorganisms.
8 tors for use as antibacterial agents against pathogenic microorganisms.
9 ) is a naturally occurring Ag common to many pathogenic microorganisms.
10 as a novel ecological niche for potentially pathogenic microorganisms.
11 lity to infections caused by a wide range of pathogenic microorganisms.
12 important in the innate host defense against pathogenic microorganisms.
13 s the main reason for antigenic variation in pathogenic microorganisms.
14 sed molecular basis for silver resistance in pathogenic microorganisms.
15 e another important virulence determinant in pathogenic microorganisms.
16 o mediate protection against a wide range of pathogenic microorganisms.
17 ce determinants is an important attribute of pathogenic microorganisms.
18 in cytotoxicity and cytostasis against many pathogenic microorganisms.
19 to afford protection against colonization by pathogenic microorganisms.
20 y contribute to the survival of commensal or pathogenic microorganisms.
21 tracellular spaces of plants challenged with pathogenic microorganisms.
22 and cytotoxic activities with regard to some pathogenic microorganisms.
23 l activity against clinically isolated human pathogenic microorganisms.
24 R3-independent killing of a diverse array of pathogenic microorganisms.
25 iving leads to reduced childhood exposure to pathogenic microorganisms.
26 cies and cultivars and the identification of pathogenic microorganisms.
27 el to discourage ingestion of food harboring pathogenic microorganisms.
28 he determination of microcystin residues and pathogenic microorganisms.
29 ssential for innate immune responses against pathogenic microorganisms.
30 us commensal, environmental, and potentially pathogenic microorganisms.
31 esis of Clostridium difficile and many other pathogenic microorganisms.
32 nization (and more importantly infection) by pathogenic microorganisms.
33 complex array of defensive responses against pathogenic microorganisms.
34 the innate and adaptive immune responses to pathogenic microorganisms.
35 The same peptide motifs are contained in pathogenic microorganisms.
36 sks to human health, including chemicals and pathogenic microorganisms.
37 al surfaces serve as transmission routes for pathogenic microorganisms.
38 long-lived Ab responses that protect against pathogenic microorganisms.
39 residence to both beneficial and potentially pathogenic microorganisms.
40 sponds to diverse structures associated with pathogenic microorganisms.
41 nes encoding the enzyme are found in several pathogenic microorganisms.
42 abel-free detection of low concentrations of pathogenic microorganisms.
43 rs for the direct or indirect recognition of pathogenic microorganisms.
44 t against the attack of foreign, potentially pathogenic, microorganisms.
45 to introduce a protective immune response to pathogenic microorganisms after mucosal colonization.
46 ic bottle sets (systems) were compared, more pathogenic microorganisms (again with the exception of S
47 Mucosal sites are continuously exposed to pathogenic microorganisms and are therefore equipped to
49 loped to identify and measure target DNAs of pathogenic microorganisms and eliminated the need of PCR
50 ence of periodontal pockets which can harbor pathogenic microorganisms and evoke a host response coul
52 bations (East London cohort) for analysis of pathogenic microorganisms and inflammatory indices (sput
53 antibiotics that target iron acquisition in pathogenic microorganisms and is especially effective ag
54 d NO work together in mediating responses to pathogenic microorganisms and microbe-associated molecul
55 ing technologies for the characterization of pathogenic microorganisms and monitoring of their global
57 ctions reveal the evolutionary properties of pathogenic microorganisms and the dynamic relationships
58 and particularly in the relationship between pathogenic microorganisms and their host that involves p
59 innate immune system senses the invasion of pathogenic microorganisms and tissue injury through Toll
60 nced to simultaneously prevent infections by pathogenic microorganisms and tolerate the endogenous fl
63 ctivities for antimicrobial activity against pathogenic microorganisms, and assessed structure-functi
64 ve immune response against a wide variety of pathogenic microorganisms, and they represent the protot
65 cin (1) resistance proteins FosA and FosX in pathogenic microorganisms are related to a catalytically
68 The human body is exposed to potentially pathogenic microorganisms at barrier sites such as the s
69 o heavy metals, organic micropollutants, and pathogenic microorganisms attract stakeholder concern.
70 in microorganisms, and also the virulence of pathogenic microorganisms, because cooperative traits su
71 hoglycerate isomers is catalysed in numerous pathogenic microorganisms by a cofactor-independent muta
72 g extracellular effector proteins from plant pathogenic microorganisms by combining data mining of ex
73 d by neutrophils that inhibits the growth of pathogenic microorganisms by sequestering essential meta
76 ex gastrointestinal microbial community by a pathogenic microorganism causes reproducible and signifi
77 nactive against a wide range of commensal or pathogenic microorganisms comprising panels of 25 aerobi
82 ented aerobic FA (FA) medium for recovery of pathogenic microorganisms from adult patients with bacte
83 BACTEC Plus Aerobic/F medium for recovery of pathogenic microorganisms from adult patients with bacte
86 ection of single-nucleotide polymorphisms in pathogenic microorganisms has normally been carried out
87 Although a wealth of studies focusing on pathogenic microorganisms has revealed much about the ra
93 tem cells as a defense mechanism against the pathogenic microorganisms, have the ability to damage nu
94 the patients with neutrophilic asthma had a pathogenic microorganism in BAL culture, which suggested
97 toring to detect carbapenemase activity from pathogenic microorganisms in a rapid and quantitative ma
98 be part of inflammatory responses induced by pathogenic microorganisms in cancer, but not nonmalignan
101 se but also humoral immune responses against pathogenic microorganisms in several animal models.
104 with quite an efficient defence against some pathogenic microorganisms in the event of their penetrat
105 imary physical barrier against commensal and pathogenic microorganisms in the gastrointestinal (GI) t
107 udies on the interactions between plants and pathogenic microorganisms indicate that the processes of
109 ring the earliest possible identification of pathogenic microorganisms is critical for selecting the
111 istance gene-dependent disease resistance to pathogenic microorganisms is mediated by genetically sep
112 responses to polysaccharides associated with pathogenic microorganisms is of importance for improving
113 a depuration step that aims to nullify their pathogenic microorganism load and decrease chemical cont
116 Transgenic plants expressing antigens from pathogenic microorganisms offer many advantages as low-c
118 stress response mechanisms used by different pathogenic microorganisms often involved in food-borne d
120 by the consumption of food contaminated with pathogenic microorganisms or their toxins have very seri
122 e epithelial layer and in protection against pathogenic microorganisms, overproduction of NO has been
123 a key role in host resistance to a range of pathogenic microorganisms, particularly during the initi
125 Food resources contaminated with spoilage or pathogenic microorganisms pose severe problems to all hi
129 Infectious plant diseases are caused by pathogenic microorganisms such as fungi, bacteria, virus
130 ate immune response is a key barrier against pathogenic microorganisms such as human immunodeficiency
134 , sometimes redundant, mechanisms to contain pathogenic microorganisms that are always evolving to ev
136 virulence factor expression is critical for pathogenic microorganisms that must sense and adapt to a
137 re evaluated against a panel of prototypical pathogenic microorganisms: the Gram-positive Enterococcu
138 to mediate the direct killing of a range of pathogenic microorganisms through an as-yet-undefined me
139 ng edge of locomoting cells and rocketing of pathogenic microorganisms through host cell cytoplasm.
141 requires modification to improve recovery of pathogenic microorganisms to make it competitive with ot
143 and pharmaceuticals) and in the detection of pathogenic microorganisms, toxic agents, and pesticides
147 h a density and surface charge comparable to pathogenic microorganisms were found to be mobile in gro
148 more often from VITAL aerobic bottles, more pathogenic microorganisms were recovered from BACTEC NR6
150 significantly decreased, but OTU richness of pathogenic microorganisms were significantly increased i
151 nd iron availability is a signal that alerts pathogenic microorganisms when they enter the hostile ho
152 f virulence-associated surface structures on pathogenic microorganisms, which prevents host humoral i
153 vironments, there are numerous phenotypes of pathogenic microorganisms, which vary considerably in ch
155 is largely due to the increasing presence of pathogenic microorganisms with resistance to existing an
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