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1  and activation of inflammatory cells in the respiratory mucosa.
2 s a key player that regulates the process in respiratory mucosa.
3  Ly6C(hi) monocytes and prime T cells at the respiratory mucosa.
4 lass switching in B cells of the human upper respiratory mucosa.
5 ulin A (IgA) antibodies in secretions at the respiratory mucosa.
6 ulin A (IgA) antibodies in secretions at the respiratory mucosa.
7  memory CD4+ T cells from the intestinal and respiratory mucosa.
8 nds, although not in the nasal olfactory and respiratory mucosa.
9 e that this highly lethal cancer arises from respiratory mucosa.
10  which begins with colonization of the upper respiratory mucosa.
11  initiates infection by colonizing the upper respiratory mucosa.
12 ganism begins with colonization of the upper respiratory mucosa, a process facilitated by adhesive fi
13 isease begins with colonization of the upper respiratory mucosa, a process that involves evasion of l
14 ccination site and in distal LN draining the respiratory mucosa, although in lower numbers.
15  obligate parasite that lives in human upper respiratory mucosa and can be cultivated only on rich me
16 coplasma gallisepticum colonizes the chicken respiratory mucosa and mediates a severe inflammatory re
17 ergens prevents inflammatory symptoms in the respiratory mucosa and provides protection against infla
18 ocal immunity induced by FMD vaccines at the respiratory mucosa, and local responses induced in vacci
19              We found that a subset of upper respiratory mucosa B cells expressed TLR3 and responded
20 tive TLR3 signaling and ongoing CSR in upper respiratory mucosa B cells from patients with CD40 signa
21 occus pneumoniae normally inhabits the upper respiratory mucosa but can also invade and replicate in
22 trate that T cells secreting TGF-beta in the respiratory mucosa can indeed regulate Th2-induced airwa
23 occus pneumoniae, an inhabitant of the upper respiratory mucosa, causes respiratory and invasive infe
24 rect delivery of aerosolized vaccines to the respiratory mucosa elicits both systemic and mucosal res
25                             Adherence to the respiratory mucosa is a crucial event in its pathogenesi
26                             Furthermore, the respiratory mucosa is enriched with extracellular matrix
27 ophilus influenzae, a commensal of the human respiratory mucosa, is an important cause of localized a
28 us influenzae (Hi), a commensal of the human respiratory mucosa, is an important cause of localized a
29 organelle) directs colonization of the human respiratory mucosa, leading to bronchitis and atypical p
30 dies in rodents suggest that exposure of the respiratory mucosa may be an efficient pathway.
31 duction in its ability to colonize the upper respiratory mucosa of mice.
32 sion was not enhanced in either digestive or respiratory mucosa of pigs following a 2-day infection w
33                     T cells within the human respiratory mucosa produce IL-10, which is capable of in
34 f immunobiotic Lactobacillus directly to the respiratory mucosa protects mice from the lethal sequela
35                                          The respiratory mucosa provides a key microbial interface wh
36 ogens, especially those entering through the respiratory mucosa, such as Mycobacterium tuberculosis.
37 ctor would elicit protective immunity at the respiratory mucosa, the portal of entry and the primary
38 sal microbiota in regulating immunity in the respiratory mucosa through the proper activation of infl
39 ng from IgM to IgD occurs in the human upper respiratory mucosa to generate IgD-secreting B cells tha
40 mpted a rapid local antibody response in the respiratory mucosa, triggered upon oronasal challenge an
41 sed in response to protective priming of the respiratory mucosa with Lactobacillus plantarum; transcr
42     We have shown previously that priming of respiratory mucosa with live Lactobacillus species promo

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