Abstract
Protein isolates from dehulled defatted solojo cowpea seeds were prepared using isoelectric (CPIA) procedure. Two varieties of cowpea, Dark-Ash Solojo (DAS) and Brown Solojo (BS) were cleaned and divided into six portions. Both varieties of cowpea (DAS and BS) investigated were soaked in distilled water and germinated at varying periods i.e. 0, 6, 24, 36, 48 and 72hrs. Protein isolates were obtained from the treated and processed samples by isoelectric precipitation method which was subsequently followed by proximate and anti-nutritional analyses. Functional properties were also analysed which include Water Absorption Capacity (WAC) and Oil Absorption Capacity (OAC) of the protein isolates using standard methods. Amino acids and molecular weight of the protein isolates were determined by amino acid analyser and sodium-dodecyl-sulphate-polyacrylamide-gel-electrophoresis. Surface morphology, functional group and thermal properties were determined for protein isolates by scanning electron microscopy, Fourier Transform Infrared (FTIR) spectrometry and differential scanning calorimetry, respectively. Data were analysed using design expert software and Analysis of Variance (ANOVA) was carried out at α0.05. The moisture content, crude protein, crude fat, crude fibre and total ash of DAS ranged from 9.00-11.40, 24.82-31.00, 1.56-2.66, 1.43-1.67, and 3.20-4.14%, respectively; while those of BS flours ranged from 7.10-9.50, 24.90-30.14, 1.17-2.37, 1.06-1.52 and 3.05-3.93%, respectively. The protein contents for DAS were 81.57±0.53, 86.44±0.84, 89.39±1.51, 90.23±0.53, 91.81±0.77 and 94.85±0.86, while for BS were 84.39±0.39, 85.44±0.56, 90.05±0.10, 90.47±0.89, 92.78±0.28 and 95.81±0.19% for 0, 6, 24, 36, 48 and 72 hrs, respectively.
Highlights
The demand for protein has become so great and is still rapidly increasing due to world population explosion and growth of the food industry, cumulating in increasing demand for animal protein thereby putting pressure on the conventional animal sources
It is undeniable that conventional animal protein sources are not adequate to meet with the demand, and on the long run unsustainable
Antinutritional analysis and functional properties [Water Absorption Capacity (WAC), Oil Absorption Capacity (OAC)] of the flours and protein isolates were determined by standard methods
Summary
The demand for protein has become so great and is still rapidly increasing due to world population explosion and growth of the food industry, cumulating in increasing demand for animal protein thereby putting pressure on the conventional animal sources. It is undeniable that conventional animal protein sources are not adequate to meet with the demand, and on the long run unsustainable. Pulses have been found to play very essential role in achieving the required nutritional recommendations, in emerging and third world countries where the consumption of mammalian protein is low because of the high cost [8]. Apart from the high cost, large amounts of saturated fat and cholesterol are other problems associated with animal protein sources [9]
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