A NOVEL SYNTHESIS CHEMICAL CHARACTERIZATION AND BIOLOGICAL ACTIVITIES OF METAL-LEATHER PROTEIN HYDROLYSATE CHELATES

Leather industries covers a wide chain of pro-duction and indirectly contributes to the economic flow. The different stages used in leather processing led to produce huge solid waste volumes. Because of the great effectiveness of amino acids as naturally chelates for minerals, the present study was carried out to recycling leather waste into its protein hydrol-ysate by CaO hydrolysis. The Leather protein hy-drolysates (LPHs) was used to prepare metal-leather protein hydrolysate chelates (Cu2+-, Zn2+-& Fe2+-LPHCs) and some of their physical properties (i.e. λ-max, FTIR spectra, color, melting point) and bio-chemical properties as its antibacterial activity, as well as using as micronutrient elements for plant were evaluated. Results showed that the Cu2+-LPHC gave the highest value of melting point and λ-max than other chelates. All chelates shifted the vibration bands toward a higher frequency than LPH/CaO. Metal-leather protein hydrolysate (M-LPHCs) had antibacterial activities against E. coli, B. cereus and Micrococcus spp. mostly with Zn-LPHC and Fe-LPHC. These complexes also increased the growth characteristics and mineral absorption of spinach plants in hydroponic nutrient solution than that of mineral salts (CuSO4, ZnSO4 and FeSO4). Finally, the study concluded that M-LPHCs can be used as antimicrobial agent, micronutrients for plant and support the minerals bioavailability in animals.