15 research outputs found
Clinical data of patients included in this study.
<p>Clinical data of patients included in this study.</p
Lipid transfer proteins (LTP) included in the homemade array were separated by SDS-PAGE and stained with Coomassie Blue.
<p>Replicas were electrotransferred and incubated with polyclonal antibodies produced against peach LTP (dilution 1â¶500). The name of the proteins corresponds to Table I.</p
Frequency of LTP sensitization.
<p><b>A</b>. Recognition frequencies of food and pollen LTPs comparing fruit allergic patients with and without pollen sensitization (Pollen Fruit Allergy and Fruit Allergy, respectively). The recognition frequencies, shown as percentage of positive response (%), were obtained incubating the LTP microarray with single sera from allergic patients. <b>B</b>. Analysis of LTP crossreactivities by inhibition assays using the LTP microarray as solid phase and Pru p 3, Art v 3 and Cas s 8 (5, 1, 0.1, 0.01 ”g/mL) as inhibitors. The inhibition percentage of the IgE binding capacity is indicated. Means (nâ=â3) and SDs (bars) are represented. All tests were performed in triplicate.</p
Purified proteins included in the LTP microarray.
<p>r recombinant protein;</p>*<p>non-LTPs or control proteins included in the array are marked with an asterisk.</p
Pollen counts (grains/m<sup>3</sup> of air) of the regions included in the study.
*<p>Average pollen counts (grains/m<sup>3</sup>). The period is indicated in brackets.</p><p>Data were obtained as the average of the previous years (period in parentheses), from the ComitĂ© de AerobiologĂa-SEAIC (<a href="http://www.polenes.com/concentraciones.html" target="_blank">http://www.polenes.com/concentraciones.html</a>) and the PIA-Punto de informaciĂłn de AerobiologĂa-UAB (<a href="http://lap.uab.cat/aerobiologia/" target="_blank">http://lap.uab.cat/aerobiologia/</a>).</p
Co-sensitization graph of LTP allergens.
<p>Each node represents one allergen (LTP, white ovals non-LTP allergens, blue squares) and the links represent co-sensitization of one or more sera for the linked allergens. The weight of each link, between 0 and 1, measures the degree of co-sensitization. For the sake of clarity, only the 35 links of weights greater than 0.55 of the total 190 existing links are plotted.</p
Average weight of allergens included in the co-sensitization graph.
<p>Average weight of allergens included in the co-sensitization graph.</p
Recognition frequencies of food and pollen LTPs by geographical area.
<p>The recognition frequencies, shown as percentage of positive response (%), were obtained incubating the LTP microarray with single sera from allergic patients. Only LTPs with a positive response of more than 20% (taking all patients into account) are represented. Percentage positive responses and significant differences (p<0.05) are indicated.</p
Co-sensitization graph of TLP allergens.
<p>Each node represents one allergen (TLP as white ellipses, non-TLP allergens as blue square nodes, and LTP-allergen Pru p 3 as a green diamond) and the links represent co-sensitization of one or more sera for the linked allergens. The weight of each link, ranging between 0 and 1, measures the degree of co-sensitization. For the sake of clarity, only the 25 links of weight greater than 0.50 out of the total 253 existing links were plotted.</p
Frequency of sensitization in the different geographical areas using the homemade microarray and sera from fruit-allergic (FAG) patients, and non-food pollen-allergic (PAG) subjects.
<p>Only TLPs with more than 10% positive response were represented: Pru p 2.0201, Pru p 2.0101, chestnut, plane, lettuce and cabbage TLPs.</p