Karla de Aleluia Batista scite author profile

The biochemical and functional properties of 2 hard-to-cook common bean cultivars (Phaseolus vulgaris, L.) were investigated after the extrusion process. Beans of BRS pontal and BRS grafite cultivars were milled and extruded at 150 degrees C, with a compression ratio screw of 3 : 1, 5-mm die, and screw speed of 150 rpm. Extrudate flours were evaluated for water solubility (WS), water absorption index (WAI), oil absorption capacity (OAC), foaming capacity (FC), emulsifying activity (EA), antinutritional factors, and in vitro protein and starch digestibility. Results indicated that the extrusion significantly decreased antinutrients such as phytic acid, lectin, alpha-amylase, and trypsin inhibitors, reduced the emulsifying capacity and eliminated the FC in both BRS pontal and BRS grafite cultivars. In addition, the WS, WAI, and in vitro protein and starch digestibility were improved by the extrusion process. These results indicate that it is possible to produce new extruded products with good functional and biochemical properties from these common bean cultivars.

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Extraction, partial purification and characterization of polyphenol oxidase from Solanum lycocarpum fruits

Batista

Alves

et al. 2014

Journal of Molecular Catalysis B: Enzymatic

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Extraction and chemical characterization of starch from S. lycocarpum fruits

Pascoal

Di-Medeiros

Batista

et al. 2013

Carbohydrate Polymers

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Antihyperglycemic and hypoglycemic activity of naturally occurring peptides and protein hydrolysates from easy-to-cook and hard-to-cook beans (Phaseolus vulgaris L.)

Valencia-Mejía

Batista

Acevedo-Fernández

et al. 2019

Food Research International

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Changes in the biochemical and functional properties of the extruded hard‐to‐cook cowpea (Vigna unguiculata L. Walp)

Batista

Prudêncio

Fernandes

2010

Int J of Food Sci Tech

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Changes in the biochemical and functional properties of the hard-to-cook cowpea bean after treatment by the extrusion process are reported. The extrusion was carried out at 150°C, with a compression ratio screw of 3:1, a 5-mm die, and a screw speed of 150 r.p.m. The extrusion caused the complete inactivation of the a-amylase and lectin and it also reduced the trypsin inhibitor activity (38.2%) and phytic acid content (33.2%). The functional properties were also modified by the process, an increase of 2.5 times in the water absorption index and 3.1% in the water solubility were observed. The digestibility of the hard-to-cook flour of the cowpea bean was improved after the extrusion, with a 55.9% increase in protein digestibility and a 5.9% increase in starch digestibility.

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Functional, biochemical and pasting properties of extruded bean (Phaseolus vulgaris) cotyledons

Lopes

Batista

Fernandes

et al. 2012

Int J of Food Sci Tech

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Response surface methodology was used to investigate the effects of extrusion conditions -namely moisture content (12.3-23.7 g 100 g )1 ) and temperature (150-178°C) -on physicochemical, antinutritional compounds, functional and pasting properties of extruded bean cotyledons. Results indicated that extrusion cooking did not change the chemical composition of bean flours, but completely eliminated the activity of the trypsin and a-amylase inhibitors and haemagglutinins. The extrusion significantly improved starch and protein digestibility, water solubility and absorption of bean cotyledon. In addition, extrusion conditions significantly affected pasting properties, resulting in extrudate flours with different peaks and final viscosity values. From the results obtained in this work, it is possible to design a product with specific physicochemical, functional and nutritional properties using the appropriate moisture and temperature during extrusion.

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Enhancing biogas production from vinasse in sugarcane biorefineries: Effects of urea and trace elements supplementation on process performance and stability

Janke

Leite

Batista

et al. 2016

Bioresource Technology

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A stimuli-responsive and bioactive film based on blended polyvinyl alcohol and cashew gum polysaccharide

Silva

Batista

Di-Medeiros

et al. 2016

Materials Science and Engineering: C

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