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Keywords = red angico

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12 pages, 1241 KiB  
Article
Physical and Mechanical Properties of Juvenile Wood of Anadenanthera peregrina (L.) Speg. from Thinning
by Emilly Soares Gomes Silva, Fabricio Gomes Gonçalves, Pedro Gutemberg Alcântara Segundinho, Cleyton Machado Prata Filho, Yonny Martinez Lopez, Izabella Luzia Silva Chaves, Donatian Gustave, Michelângelo Vargas Fassarella and Bruno Miguel Morais Lemos Esteves
Forests 2024, 15(7), 1240; https://doi.org/10.3390/f15071240 - 16 Jul 2024
Cited by 1 | Viewed by 1443
Abstract
Reducing the rotation period through thinning and changing planting spacing can influence the technological properties of wood, with little attention paid to the effects of these variables on the raw material, which limits its processing in the wood sector. This work aimed to [...] Read more.
Reducing the rotation period through thinning and changing planting spacing can influence the technological properties of wood, with little attention paid to the effects of these variables on the raw material, which limits its processing in the wood sector. This work aimed to evaluate the physical and mechanical properties of wood from Anadenanthera peregrina juveniles thinned in three planting spacings (3 m × 3 m, 4 m × 4 m, and 5 m × 5 m). The physical properties in the base-top and pith–shell directions and the mechanical properties of the samples were evaluated. The results indicate better technological properties for wood with larger spacings. The physical properties showed decreasing trends in the base-top direction and increasing trends in the pith-bark direction, with a distinct trend in the degree of collapse. The average basic density of the different planting spacings varied between 0.47 g cm−3 and 0.63 g cm−3. The mechanical properties obtained for the 4 m × 4 m spacing were superior to those of the other spacings. Wood from young A. peregrina is an alternative for industrial processing, as wood from higher planting densities is more suitable for purposes that require resistance and rigidity. Full article
(This article belongs to the Section Wood Science and Forest Products)
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27 pages, 4543 KiB  
Article
Biopolymer Extracted from Anadenanthera colubrina (Red Angico Gum) Exerts Therapeutic Potential in Mice: Antidiarrheal Activity and Safety Assessment
by Thiago S. L. Araújo, Taiane M. de Oliveira, Nayara A. de Sousa, Luan K.M. Souza, Francisca B. M. Sousa, Ana P. de Oliveira, Lucas A. D. Nicolau, Alfredo A. V. da Silva, Alyne R. Araújo, Pedro J. C. Magalhães, Daniel F. P. Vasconcelos, Hugo R. de Jonge, Marcellus H. L. P. Souza, Durcilene A. Silva, Regina C. M. Paula and Jand Venes R. Medeiros
Pharmaceuticals 2020, 13(1), 17; https://doi.org/10.3390/ph13010017 - 18 Jan 2020
Cited by 21 | Viewed by 5828
Abstract
Anadenanthera colubrina var. cebil (Griseb.) Altschul (Fabaceae family), commonly known as the red angico tree, is a medicinal plant found throughout Brazil’s semi-arid area. In this study, a chemical analysis was performed to investigate the antidiarrheal activity and safety profile of red angico [...] Read more.
Anadenanthera colubrina var. cebil (Griseb.) Altschul (Fabaceae family), commonly known as the red angico tree, is a medicinal plant found throughout Brazil’s semi-arid area. In this study, a chemical analysis was performed to investigate the antidiarrheal activity and safety profile of red angico gum (RAG), a biopolymer extracted from the trunk exudate of A. colubrina. Upon FT-IR spectroscopy, RAG showed bands in the regions of 1608 cm−1, 1368 cm−1, and 1029 cm−1, which relate to the vibration of O–H water molecules, deformation vibration of C-O bands, and vibration of the polysaccharide C-O band, respectively, all of which are relevant to glycosidic bonds. The peak molar mass of RAG was 1.89 × 105 g/mol, with the zeta potential indicating electronegativity. RAG demonstrated high yield and solubility with a low degree of impurity. Pre-treatment with RAG reduced the total diarrheal stool and enteropooling. RAG also enhanced Na+/K+-ATPase activity and reduced gastrointestinal transit, and thereby inhibited intestinal smooth muscle contractions. Enzyme-Linked Immunosorbent Assay (ELISA) demonstrated that RAG can interact with GM1 receptors and can also reduce E. coli-induced diarrhea in vivo. Moreover, RAG did not induce any signs of toxicity in mice. These results suggest that RAG is a possible candidate for the treatment of diarrheal diseases. Full article
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