Effect of pulsed electric field treatment on enzymatic hydrolysis of proteins of Scenedesmus almeriensis

Amino acids concentrates derived from microalgae biomass through enzymatic protein hydrolysis can improve plant growth by saving the energy that is required for amino acid synthesis from conventional mineral fertilizer resources. To obtain high enzymatic hydrolysis yields, pre-treatment of microalga...

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Bibliographic Details
Published in:Algal research (Amsterdam) 2019-11, Vol.43, p.101656, Article 101656
Main Authors: Akaberi, Sahar, Gusbeth, Christian, Silve, Aude, Senthilnathan, Divya Senthil, Navarro-López, Elvira, Molina-Grima, Emilio, Müller, Georg, Frey, Wolfgang
Format: Article
Language:English
Subjects:
Amino acids concentrate
Enzymatic hydrolysis
Microalgae biomass
Pulsed electric field treatment
SDS-PAGE
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Summary:Amino acids concentrates derived from microalgae biomass through enzymatic protein hydrolysis can improve plant growth by saving the energy that is required for amino acid synthesis from conventional mineral fertilizer resources. To obtain high enzymatic hydrolysis yields, pre-treatment of microalgae biomass prior to enzymatic hydrolysis is suggested for facilitating enzyme access to proteins. Pulsed electric field (PEF) treatment was introduced as a pre-treatment to fresh and concentrated (50 g·kgsus−1 to 80 g·kgsus−1) Scenedesmus almeriensis biomass prior to enzymatic hydrolysis. The concentrated microalgae suspension was treated at an initial conductivity of σ = 1 mS·cm−1 with 1 μs long pulses at an electric field strength of 40 kV·cm−1 and a treatment energy of 75 kJ·kgsus−1 and 150 kJ·kgsus−1. For benchmarking, additional biomass samples were processed by high pressure homogenization (HPH) at 2 kbar and up to 5 passes. Enzymatic hydrolysis was performed by applying the commercial enzymes Alcalase 2.5 L and Flavourzyme 1000 L for 180 min. The amino acids content in supernatant was determined by using the orto-phthaldialdehyde (OPA) assay. PEF treatment at both energy inputs and HPH treatment at 2 kbar, 5 passes, revealed the same hydrolysis kinetics and the same final value of the degree of hydrolysis (DH) of 50% ± 2%. The energy demand for PEF pre-treatment amounts to 0.75 MJ·kgdw−1 when processing biomass at 100 gdw·l−1. After both pretreatments, incomplete protein hydrolysis could be detected by SDS-PAGE analysis of residual biomass. Most feasible, hydrophobic protein fractions and protein aggregation impede complete protein hydrolysis by the applied enzyme cocktail. Since PEF treatment preserves cell shape and biomass separability and thus enables cascade processing, it is suggested as alternative downstream processing method for the production of amino acids concentrates from microalgae biomass. [Display omitted] •PEF treatment of the microalgae biomass accelerates the enzymatic protein hydrolysis.•PEF treatments at 75 kJ·l−1 and 150 kJ·l−1 revealed the same hydrolysis kinetics.•Hydrophobic protein fractions were detected in residual biomass after hydrolysis.
ISSN:2211-9264
2211-9264
DOI:10.1016/j.algal.2019.101656