D. Vijayalakshmi scite author profile

Processing of ripe mango fruit, generates its peel and seed as waste, which is approximately 40-50 % of the total fruit weight. Present study was undertaken to process mango seed kernel and to study its nutritional value. Mango seeds of Totapuri variety were procured from local food processing industry. Kernels were separated from seeds and processed into flour through various processing steps. Particle size distribution of the flour was studied. The Mango Kernel Flour (MKF) was subjected for chemical analysis. The nutrients analyzed for mango kernel flour were moisture, protein, fat, crude fibre, ash, calcium, magnesium, potassium, sodium, manganese, copper, zinc and iron by standard methods. Carbohydrate and energy contents were computed. Mango kernel oil was extracted by solvent extraction method. Results revealed that recovery per cent of mango kernel flour was 80.6 and maximum flour particles passed through 60 mesh. MKF is good source of protein (7.53 g/100g), fat (11.45 g/100 g) and energy (421 k.cal /100g). It also contains appreciable levels of calcium (170 mg/100g), magnesium (210 mg/100g) and potassium (368 mg/100g) which are important macro minerals required for vital functions of the body. Oil yield from mango kernel flour was found to be 11.5 per cent which was studied for selected physical and chemical properties.

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Processing and Nutritional Composition of Rice Bran

Bhosale

Vijayalakshmi

2015

Curr Res Nutr Food Sci

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Rice bran is a component of raw rice that is obtained when it is removed from the starchy endosperm in the rice milling process. Processing was carried out by using microwave and probiotic treatment. The study revealed that rice bran was stabilized by microwave heating (2450MHz for 3min). Stabilized rice bran was inoculated with Lactic Acid Bacillus culture and used as probiotic treated rice bran. Free fatty acid percentage of stabilized rice bran ranged from 4.10 to 7.50 from initial to 4th week and in probiotic treated rice bran it was 4.35 to 7.95 up to 4 weeks of storage period. Functional properties of rice bran were analyzed for stabilized and probiotic treated rice bran i.e. bulk density (0.22-0.38g/ml), water absorption (2-3ml/g), oil absorption (1.5-2.5ml/g), water solubility (7.3-8.0%) and swelling power (6.7-7.2%) respectively. Macronutrient composition of stabilized and probiotic treated rice bran for moisture, protein, fat, ash and carbohydrate were 4.30 and 5.40, 17.50 and 19.25, 13.10 and 17.20, 4.92 and 4.64, 52.33 and 48.55 g/100g respectively and it contained 7.85 and 4.96 g crude fibre, 21.17 and 13.10 g insoluble dietary fibre, 2.17 and 1.80g soluble dietary fibre and 23.34 and 14.90g total dietary fibre. Mineral content of stabilized and probiotic treated rice bran for calcium, phosphorous, iron and zinc were 52.10 and 49.90, 1185.20 and 1186.50, 28.10 and 30.05, 6.02 and 5.89 mg/100g respectively. Processing helps in destroying the lipolytic activity using microwave stabilizing technology, which increases the shelf life of rice bran and improves the nutrient content.

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Effect of maize based composite flour noodles on functional, sensory, nutritional and storage quality

Shobha¹,

Vijayalakshmi

Puttaramnaik³

et al. 2015

J Food Sci Technol

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To explore the feasibility of utilization of maize flour in noodle preparation, eight different combinations (T1 to T8) with varied amount of maize flour (MF), refined wheat flour (RWF), rice flour (RF), wheat gluten (WG), soya protein isolate (SPI), kansui (Sodium Carbonates), potato starch (PS) were extruded to standardize good quality noodles. Among various combinations tested, the combination T5 (50 %MF + 30 %RWF + 10 %SPI + 7 %RF + 3 %WG) was rated the best for appearance (8.3) colour (8.25) taste (8.5) elasticity (8.3) with an overall acceptability of 8.2 on a nine point hedonic rating sensory scale. There was no significant difference in normal noodle (NN) and Quality protein maize (QPM) noodle (QN) for T5 with respect to sensory characteristics when compared to control noodle (CN) prepared out of refined wheat flour. The cooked yield was more for maize based noodle (234 g NN and 220 g QN) with lower cooking loss of 7.80 and 7.76 respectively for NN & QN. The nutritional composition of maize noodles revealed that addition of 10 % soya protein isolate had increased the protein content of noodles to the tune of 16.6 and 12.7 % in QN and NN respectively. The soluble (3.18NN, 3.76QN) and insoluble fiber (21.67NN, 21.87QN) contents of both NN & QN was significantly more compared to CN (0.15 and 9.3 g).There was non- significant increase in moisture and peroxide values up to 3 months of storage with high overall acceptable sensory scores (4.0, 4.1, & 4.2 respectively for NN, QN and CN but beyond third month of storage the increase was significant. However the noodles were within the acceptable range up to 6 months of storage with an overall acceptability score of 3.0, 3.4 and 3.2 for NN, QN and CN respectively on a five point hedonic scale.

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Temperature induction response (TIR) as a rapid screening protocol to dissect the genetic variability in acquired thermotolerance in rice and to identify novel donors for high temperature stress tolerance

Vijayalakshmi

Srividhya

Vivitha

et al. 2015

Ind J Plant Physiol.

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D. Vijayalakshmi

Proximate Composition of Underutilized Green Leafy Vegetables in Southern Karnataka

Processing and Nutritive Valu e of Mango Seed Kernel Flour

Processing and Nutritional Composition of Rice Bran

Effect of maize based composite flour noodles on functional, sensory, nutritional and storage quality

Temperature induction response (TIR) as a rapid screening protocol to dissect the genetic variability in acquired thermotolerance in rice and to identify novel donors for high temperature stress tolerance

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