Effect of physical and thermal pretreatments on enzymatic activity in the production of microporous cassava starch

Q4 Agricultural and Biological Sciences

Agronomia Colombiana Pub Date : 2022-04-26 DOI:10.15446/agron.colomb.v41n1.105089

J. Figueroa-Flórez, Eduardo David Arroyo Dagobeth, Edith Cadena-Chamorro, E. Rodríguez-Sandoval, J. Salcedo-Mendoza, H. Ciro-Velásquez

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引用次数: 1

Abstract

Cassava starch is modified to increase porosity and lacerations that are limited when only enzymatic treatments are used. This study proposes to improve enzymatic activity of α-amylase and amyloglucosidase on the polymer chains of cassava starch by implementing physical and thermal pretreatments below the gelatinization temperature and before the hydrolytic process. The pretreatments increased the biocatalytic action of the enzymes, causing significant changes in the morphology of the granules, and superficial lacerations were found in samples of starches pretreated with ultrasound (UTS) or annealing and ultra-rapid freezing (ANN-C). At the structural level, the modified starches revealed substantial changes as the infrared spectra reflected a displacement of the absorption bands in the region from 900 to 1100 cm-1. This is associated with an alteration and reorganization of the amorphous and crystalline zones of the granules and is consistent with a decrease in amylose content (from 19.53% to 17.64%) and an increase in the crystallinity index. The thermal behavior of the starches was also modified by increasing the peak temperature (from 68.22°C to 75.38°C) and reducing the gelatinization enthalpy (from 19.34 to 15.79 J/g). UTS and ANN-C pretreatments significantly improved the mesoporous and hydrophilic properties of the modified cassava starches.

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物理预处理和热预处理对微孔木薯淀粉生产中酶活性的影响

木薯淀粉被改性以增加孔隙率和裂伤，当仅使用酶处理时，这些孔隙率和裂损是有限的。本研究提出，通过在糊化温度以下和水解过程之前进行物理和热预处理，提高木薯淀粉聚合物链上α-淀粉酶和淀粉葡糖苷酶的酶活性。预处理增加了酶的生物催化作用，导致颗粒形态发生显著变化，在用超声波（UTS）或退火和超快速冷冻（ANN-C）预处理的淀粉样品中发现了浅表撕裂。在结构水平上，改性淀粉显示出显著的变化，因为红外光谱反映了900-1100cm-1区域内吸收带的位移。这与颗粒的无定形和结晶区的改变和重组有关，并且与直链淀粉含量的降低（从19.53%到17.64%）和结晶度指数的增加一致。淀粉的热行为也通过提高峰值温度（从68.22°C提高到75.38°C）和降低糊化焓（从19.34降低到15.79 J/g）来改变。UTS和ANN-C预处理显著改善了改性木薯淀粉的介孔性和亲水性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agronomia Colombiana Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： Agronomia Colombiana journal it is intended to transfer research results in different areas of tropical agronomy. Original unpublished papers are therefore accepted in the following areas: physiology, crop nutrition and fertilization, genetics and plant breeding, entomology, phytopathology, integrated crop protection, agro ecology, weed science, environmental management, geomatics, biometry, soils, water and irrigation, agroclimatology and climate change, post-harvest and agricultural industrialization, food technology, rural and agricultural entrepreneurial development, agrarian economy, and agricultural marketing (Published: Quarterly).