Wool Keratin Hydrolysates for Bioactive Additives Preparation
Carmen Gaidau,
Maria Stanca,
Mihaela-Doina Niculescu,
Cosmin-Andrei Alexe,
Marius Becheritu,
Roxana Horoias,
Cristian Cioineag,
Maria Râpă,
Ioana Rodica Stanculescu
Affiliations
Carmen Gaidau
Leather Research Department, Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93, Ion Minulescu Street, 031215 Bucharest, Romania
Maria Stanca
Leather Research Department, Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93, Ion Minulescu Street, 031215 Bucharest, Romania
Mihaela-Doina Niculescu
Leather Research Department, Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93, Ion Minulescu Street, 031215 Bucharest, Romania
Cosmin-Andrei Alexe
Leather Research Department, Research and Development National Institute for Textiles and Leather-Division Leather and Footwear Research Institute, 93, Ion Minulescu Street, 031215 Bucharest, Romania
Marius Becheritu
Probstdorfer Saatzucht Romania SRL, 20 Siriului Street, District 1, 014354 Bucharest, Romania
Roxana Horoias
Probstdorfer Saatzucht Romania SRL, 20 Siriului Street, District 1, 014354 Bucharest, Romania
Cristian Cioineag
Probstdorfer Saatzucht Romania SRL, 20 Siriului Street, District 1, 014354 Bucharest, Romania
Maria Râpă
Centre for Research and Eco—Metallurgical Expertise, POLITEHNICA University of Bucharest, 313 Splaiul Independentei, 060042 Bucharest, Romania
Ioana Rodica Stanculescu
Horia Hulubei National Institute of Research and Development for Physics and Nuclear Engineering, 30 Reactorului Str., 077125 Magurele, Romania
The aim of this paper was to select keratin hydrolysate with bioactive properties by using the enzymatic hydrolysis of wool. Different proteolytic enzymes such as Protamex, Esperase, and Valkerase were used to break keratin molecules in light of bioactive additive preparation. The enzymatic keratin hydrolysates were assessed in terms of the physico-chemical characteristics related to the content of dry substance, total nitrogen, keratin, ash, cysteic sulphur, and cysteine. The influence of enzymatic hydrolysis on molecular weight and amino acid composition was determined by gel permeation chromatography (GPC) and gas chromatography-mass spectrometry (GC-MS) analyses. Antimicrobial activity of keratin hydrolysates was analysed against Fusarium spp., a pathogenic fungus that can decrease the quality of plants. The bioactivity of enzymatic hydrolysates was tested on maize plants and allowed us to select the keratin hydrolysates processed with the Esperase and Valkerase enzymes. The ratio of organised structures of hydrolysate peptides was analysed by attenuated total reflectance-Fourier transform infrared (ATR-FTIR) deconvolution of the amide I band and may explain the difference in their bioactive behaviour. The most important modifications in the ATR spectra of maize leaves in correlation with the experimentally proven performance on maize development by plant length and chlorophyll index quantification were detailed. The potential of enzymatic hydrolysis to design additives with different bioactivity was shown in the case of plant growth stimulation.