Dextrose Equivalent Analysis of Acid Hydrolysed Corn and Cassava Starch Sourced from Ghana

Investigations were carried out with the aim of producing L-glutamic acid from Brevibacterium sp. by utilizing a locally available starchy substrate, cassava (Manihot esculenta Crantz). Initial studies were carried out in shake flasks, which showed that even though the yield was high with 85-90 DE (Dextrose Equivalent value), the maximum conversion yield (~34%) was obtained by using only partially digested starch hydrolysate, i.e. 45-50 DE. Fermentations were carried out in batch mode in a 5 L fermenter, using suitably diluted cassava starch hydrolysate, using a 85-90 DE value hydrolysate. Media supplemented with nutrients resulted in an accumulation of 21 g/L glutamic acid with a fairly high (66.3%) conversation yield of glucose to glutamic acid (based on glucose consumed and on 81.74% theoretical conversion rate). The bioreactor conditions most conducive for maximum production were pH 7.5, temperature 30°C and an agitation of 180 rpm. When fermentation was conducted in fed-batch mode by keeping the residual reducing sugar concentration at 5% w/v, 25.0 g/L of glutamate was obtained after 40 h fermentation (16% more the batch mode). Chromatographic separation by ion-exchange resin was used for the recovery and purification of glutamic acid. It was further crystallized and separated by making use of its low solubility at the isoelectric point (pH 3.2).

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Characteristics of cassava starch fermentation wastewater based on structural degradation of starch granules

Ciência Rural ◽

10.1590/0103-8478cr20150632 ◽

2016 ◽

Vol 46 (4) ◽

pp. 732-738 ◽

Cited By ~ 4

Author(s):

Juliane Mascarenhas Pereira ◽

Ana Carolina Moura de Sena Aquino ◽

Daiana Cardoso de Oliveira ◽

Gabriela Rocha ◽

Alícia de Francisco ◽

...

Keyword(s):

Regular Structure ◽

Cassava Starch ◽

Starch Degradation ◽

Bakery Products ◽

Starch Granules ◽

Gluten Free ◽

New Materials ◽

Dextrose Equivalent ◽

Starch Fermentation ◽

New Material

ABSTRACT: Sour cassava starch is a naturally modified starch produced by fermentation and sun drying, achieving the property of expansion upon baking. Sour cassava starch' bakery products can be prepared without the addition of yeast and it is gluten free. The fermentation process associated with this product has been well studied, but the wastewater, with high acidity and richness in other organic compounds derived from starch degradation, requires further investigation. In this study, the structure of solids present in this residue was studied, seeking to future applications for new materials. The solids of the wastewater were spray dried with maltodextrin (MD) with dextrose equivalent (DE) of 5 and 15 and the structure of the powder was evaluated by scanning electron microscopy. A regular structure with a network arrangement was observed for the dried material with MD of 5 DE, in contrast to the original and fermented starches structure, which suggests a regular organization of this new material, to be studied in future applications.

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FORMULATION OF A FAST-DISINTEGRATING TABLET USING MALTODEXTRIN DE 10-15 AND PREGELATINIZATED CASSAVA STARCH AS EXPEDIENTS

International Journal of Applied Pharmaceutics ◽

10.22159/ijap.2017.v9s1.40_46 ◽

2017 ◽

Vol 9 ◽

pp. 71 ◽

Cited By ~ 1

Author(s):

Ahmad Zaki ◽

Effionora Anwa ◽

Silvia Surini

Keyword(s):

Pharmaceutical Preparation ◽

Cassava Starch ◽

Wet Granulation ◽

Dextrose Equivalent ◽

Crucial Component ◽

Additional Water ◽

Fast Disintegrating Tablet ◽

Wetting Time ◽

Fast Disintegrating Tablets

Objective: Fast-disintegrating tablets are a pharmaceutical preparation that is rapidly being developed because they can dissolve in the oral cavitywithout chewing and without additional water support. The type of dissolver is a crucial component in fast-disintegrating tablets. Maltodextrin andpregelatinized cassava starch (PPS) are excipients that can be used as dissolvers. This study aimed to formulate fast-disintegrating tablets using acombination of maltodextrin dextrose equivalent (DE) 10-15 and PPS in various concentrations as excipients.Methods: The cassava starch classified as PPS was obtained. PPS was then mixed with maltodextrin DE 10-15 to create fast-disintegrating tabletsusing the wet granulation method.Results: Tablet evaluation showed that formula F containing 40% maltodextrin DE 10-15 and 10% PPS was the most effective of the proposed fastdisintegratingtablets.Conclusions: Formula F has a hardness of 3.39 kp, 0.74% friability, a wetting time of 7.87 seconds, and a dissolve time of 38.55 seconds.

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Assessment of locally produced waxing materials on the shelf life and fruit quality of two tomato varieties (Solanum lycopersicum)

Journal of Energy and Natural Resource Management ◽

10.26796/jenrm.v4i1.73 ◽

2017 ◽

Vol 4 (1) ◽

pp. 36-47

Author(s):

R. Osae G. Essilfie J. O. Anim

Keyword(s):

Shelf Life ◽

Tomato Fruit ◽

Chemical Properties ◽

Storage Period ◽

Cassava Starch ◽

Soluble Solids ◽

Shea Butter ◽

Tomato Fruits ◽

Randomized Design ◽

Colour Development

The study was conducted to assess the effect of different waxing materials on the quality attributes of tomato fruits. A 2 x8 factorial experiment layout in complete randomized design with 16 treatment combinations and 3 replication was adopted.The materials that were used for the experiment are two (2) varieties of tomatoes (Pectomech and Power Rano) and seven(7) waxing material (shea butter, cassava starch, beeswax, and a combination of shea butter + cassava starch, shea butter + beeswax, cassava starch + beeswax, shea butter + cassava starch + beeswax) and a control. Results from the experiment indicated that all waxing treatments delayed the development of weight loss, firmness, pH, total soluble solids, and total titrable acidity. The results also suggested that edible wax coatings delayed the ripening process and colour development of tomato fruits during the storage period and extended the shelf life. However Beewax treatment and its combinations performed better than the other treatments. It was therefore recommended that locally produced wax such as Beewax, Shea butter, Cassava Starch treatments and their combinations could be a good technology for preserving the quality and extending the shelf life of fresh tomato fruit as well as maintaining the physical and chemical properties.

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Cassava starch bionanocomposites for control drug release

Journal of Advance Nanobiotechnology ◽

10.28921/jan.2018.02.29 ◽

2018 ◽

Vol 2 (5) ◽

pp. 20-26

Author(s):

Debi Prasanna Mohanty ◽

Keyword(s):

Drug Release ◽

Cassava Starch ◽

Control Drug ◽

Control Drug Release

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Development of a New Phosphate Cross-linked Cassava Starch by Enzymatic Treatment

Nippon Shokuhin Kagaku Kogaku Kaishi ◽

10.3136/nskkk.62.207 ◽

2015 ◽

Vol 62 (4) ◽

pp. 207-211

Author(s):

Takashi Ichihara ◽

Junya Fukuda ◽

Sanae Takahashi ◽

Takeshi Takaha ◽

Shinichi Kitamura

Keyword(s):

Cassava Starch ◽

Enzymatic Treatment

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Starch hydrolysis products. Determination of reducing power and dextrose equivalent. Lane and Eynon constant titre method

10.3403/00345797u ◽

2015 ◽

Keyword(s):

Reducing Power ◽

Starch Hydrolysis ◽

Dextrose Equivalent ◽

Hydrolysis Products

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The Effect of Cassava Starch on the Durability Characteristics of Concrete

The Open Civil Engineering Journal ◽

10.2174/1874149502014010289 ◽

2020 ◽

Vol 14 (1) ◽

pp. 289-301

Author(s):

Daniel Oni ◽

John Mwero ◽

Charles Kabubo

Keyword(s):

Cement Hydration ◽

Research Work ◽

Cassava Starch ◽

Chloride Penetration ◽

Hardened Concrete ◽

Sulphate Attack ◽

Marine Structures ◽

Durability Properties ◽

Chloride Attack ◽

Starch Gel

Background: Concrete is a common material used in the construction of marine structures, such as bridges, water treatment plants, jetties, etc. The use of concrete in these environment exposes it to attack from chemicals like sulphates, chlorides and alkaline, thereby causing it to deteriorate, and unable to perform satisfactorily within its service life. Hence, the need to investigate the durability properties of concrete has become necessary especially when admixtures are used to modify some of its properties. Objective: This research work investigates the effect of Cassava Starch (CS) on the durability characteristics of concrete. Methods: The durability properties investigated in this work are water absorption, sorptivity, resistance to sulphates, sodium hydroxides and chloride penetration. The specimens were prepared by adding CS by weight of cement at 0.4, 0.8, 1.2, 1.6 and 2.0% respectively. The concrete specimens were cured for 28 days, tested for compressive strength before ponding in ionic solutions of sodium hydroxide, sulphuric acid and sodium chloride. Six (6) concrete mixes were prepared, five of which were used to evaluate the effect of CS on the durability characteristics of concrete. Results: The slump values reduced with the increasing dosage of CS due to the viscous nature of the CS paste. Generally, the addition of CS in concrete tends to improve the resistance of concrete to sulphate and chloride attack due to the ability of the muddy-like starch gel to block the pore spaces of hardened concrete, hence, reduces the rate at which water and other aggressive chemicals penetrate the concrete. In addition, the retarding ability of CS impedes the formation of mono-sulphate aluminates during cement hydration, thereby making the concrete less susceptible to sulphate attack. Conclusion: The addition of CS to concrete by weight of cement generally improved the durability characteristics of concrete, while the relative performances of the concrete mixes showed that CS 2.0 gave a better resistance to chloride penetration and sulphate attack.

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