info:eu-repo/semantics/article
Proteolytic extracts of three Bromeliaceae species as eco-compatible tools for leather industry
Fecha
2018-08Registro en:
Errasti, María Eugenia; Caffini, Nestor Oscar; Lopez, Laura Maria Isabel; Proteolytic extracts of three Bromeliaceae species as eco-compatible tools for leather industry; Springer Heidelberg; Environmental Science and Pollution Research; 25; 22; 8-2018; 21459-21466
0944-1344
1614-7499
CONICET Digital
CONICET
Autor
Errasti, María Eugenia
Caffini, Nestor Oscar
Lopez, Laura Maria Isabel
Resumen
Most tanneries use high proportions of Na2S and CaO during the dehairing step, resulting in effluents of high alkalinity and large amounts of suspended solid, besides the risk of liberating the toxic H2S. Solid waste rich in protein is another environmental problem of tanneries. Enzymes are an interesting technological tool for industry due to their biodegradability, nontoxic nature, and nonpolluting effluent generation. In the leather industry, proteases have been chosen as a promising eco-friendly alternative to Na2S/CaO dehairing. Extracts with high proteolytic activity have been obtained from fruits of Bromeliaceae species: Bromelia balansae Mez (Bb), Bromelia hieronymi Mez (Bh), and Pseudananas macrodontes (Morr.) Harms (Pm). In this work, Bb, Bh, and Pm have been studied for application in the leather industry, focusing in their dehairing properties. Enzymatic activities were measured against collagen, keratin, elastin, and epidermis while a dehairing assay was performed by employing cowhide. All extracts showed similar activity on collagen and epidermis, while Bh and Pm were the most active against keratin at the same caseinolytic unit (CU) values; Bh was the only extract active against elastin. Bb (1 CU/ml), Bh (1.5 CU/ml), and Pm (0.5 CU/ml) were able to depilate cowhide. Desirable characteristics of dehairing were observed for all extracts since hair pores did not show residual hair, grain surface was clean and intact, and collagen fiber bundles of dermis were not damaged. In conclusion, results here presented show that proteolytic extracts of Bromeliaceae species are promising eco-compatible tools for leather industry.