Amylase production by Streptomyces species and its application in orange juice clarification
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Date
2026-01-13
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Trakya University Journal of Natural Sciences
Abstract
Amylases are enzymes that break down starch and help clarify fruit juices. This study focused on screening amylolytic Streptomyces spp. isolated from soil samples for their potential for amylase production and fruit juice clarification. Select organisms produced amylase, which was assayed by measuring the reducing sugar content of the fermentation medium. The effects of pH, carbon and nitrogen source, as well as agitation and incubation periods, were evaluated to optimize amylase synthesis. A total of 22 species were isolated, with five—FE4, ELI1, FL2, MS2, and MS5—demonstrating high amylase production ability, which occurred at a pH ranging from slightly acidic to slightly alkaline. Cassava peels supported optimal amylase production in Streptomyces spp. A4 (0.834), ELI1 (0.910), and FE4 (0.814 U/mL). The maximum yield of 0.930 U/mL was observed with ELI1 when urea was used as the nitrogen source, at an agitation speed of 100–150 rpm, and peaking on the fourth day of fermentation. It was identified as S. griseoflavus ELI_1 using 16S rRNA gene sequencing and submitted to the GenBank with accession number OQ930232. The amylase produced by it was partially purified, markedly increasing its specific activity from 1.50 to 4.56 U/mL. Its ability to clarify orange juice was tested; the turbidity reduced significantly by 16.8% after amylase treatment (p <0.05). Amylolytic Streptomyces spp. were isolated from soil samples, and their amylase yield was optimized. The Amylase of S. griseoflavus ELI_1 could optimally clarify orange juice.
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Keywords
Streptomyces species, amylolytic bacteria, fruit juice clarification, partial purification, urea