Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
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Query: UNIPROT:P20366 (
substance P
)
21,176
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Acacia
caven (Mol.) Molina pollen causes pollinosis in South America. The aim of this work was to isolate, purify, and characterize the proteolytic enzymes of A. caven pollen, and study their influence on allergy. A series of chromatographic steps were applied to purify the proteolytic extract of A. caven pollen. The purified fraction was partially characterized, and then it was assayed on airway bioactive peptides (
substance P
, vasoactive intestinal peptide, and bradykinin), and peptide degradation was visualized by direct protein sequencing. The cellular detachment of an airway-derived epithelial cell line (A-549) was measured by methylene blue binding assay. The degradation of proteins from intercellular junctions (occludin, claudin, and E-cadherin) was visualized by Western blot. A 75-kDa peptidase, named acaciain peptidase, was purified and classified as a serine peptidase. Acaciain peptidase degraded bioactive peptides involved in the maintenance and recovery of the bronchomotor tone; it caused cellular detachment of A-549 cell line, and degradation of intercellular junction proteins. Acaciain peptidase can alter the integrity of the epithelium barrier, causing cell permeability, increasing the allergic sensitization and exacerbating the overall bronchoconstrictive effect detected in asthmatic lungs. This novel serine peptidase constitutes a relevant therapeutic target in the treatment of allergic disorders.
...
PMID:Acaciain peptidase: The first South American pollen peptidase potentially involved in respiratory allergy. 3162 71
Fertilizer is applied widely to improve the productivity of plantations. Traditionally, fertilization is conducted in spring and/or in the early rainy season, and it is believed to support the growth of planted trees in the growing season. Little attention to date has been paid on identification of the optimal timing of fertilization and fertilizer dose. In this study, application of the fine root monitoring technique in identifying optimal fertilization timing for an
Acacia
plantation in Vietnam is described. The study used two fertilizer doses (100 and 200 g
NPK
/tree) and three fertilization timings (in spring; in the early rainy season; and based on the fine root monitoring technique to identify when the fine roots reach their growth peak). As expected fertilization timings significantly affected growth and above-ground biomass (AGB) of the plantation. Fertilization based on the fine root monitoring technique resulted in the highest growths and AGB, followed by fertilization in the early rainy season and then in spring. Applying fertilizer at 200 g
NPK
/tree based on the fine root monitoring technique increased diameter at breast height (DBH) by 16%, stem height by 8%, crown diameter (Dc) by 16%, and AGB by 40% as compared to early rainy season fertilization. Increases of 32% DBH, 23% stem height, 44% Dc, and 87% AGB were found in fertilization based on fine root monitoring technique compared to spring fertilization. This study concluded that forest growers should use the fine root monitoring technique to identify optimal fertilization timing for higher productivity.
...
PMID:Monitoring fine root growth to identify optimal fertilization timing in a forest plantation: A case study in Northeast Vietnam. 3176 11
