Danusha N. Kalinga scite author profile

Danusha N. Kalinga

5Publications

196Citation Statements Received

93Citation Statements Given

How they've been cited

190

167

How they cite others

154

Affiliations

Agriculture and Agri-Food Canada, University of Guelph, Victoria University

Publications

Order By: Most citations

RHEOLOGICAL AND PHYSICAL PROPERTIES OF LOW FAT CAKES PRODUCED BY ADDITION OF CEREAL Β-Glucan CONCENTRATES

Kalinga

Mishra²

2009

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This study investigated the effect of replacing shortenings at 20, 30 and 40% levels with two b-glucan concentrates (BGC) prepared from barley and oat on rheological and physical properties of cake batter, and the quality of the resultant cakes as determined by the volume index, texture profile, color of crust, and crumb and staling at three conditions of storage. The consistency, flow behavior indices, storage and loss moduli of batter, increased as the level of BGCs increased. Addition of BGC decreased the volume and increased hardness. The crust color of cake became lighter and crumb color became darker. Staling, as measured by the development of hardness, increased as a function of storage time and the source and the level of BGC at three storage temperatures. Minimum staling was noticed under frozen storage. Cake containing 20% barley BGC was of similar quality as a cake containing full fat. PRACTICAL APPLICATIONSThe study is of relevance to the baking industry, which is endeavoring to develop products that contain low fat and offer superior nutritional quality. b-Glucan, a known dietary fiber, offers several health benefits and can be used for replacing fat due to its high water-binding and viscosity-enhancing properties. Cereal-based products are ideal for delivering dietary fiber. This study provides information on how fat substitution by b-glucan concentrates affects the properties of cake batter and the cake quality. Data reported on the consistency and viscoelastic properties of batter are important in the development of new products.

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Physicochemical properties of dry matter and isolated starch from potatoes grown in different locations in Canada

Chung

Kalinga

et al. 2014

Food Research International

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On the differences in the granular architecture and starch structure between pericarp and endosperm wheat starches

et al. 2013

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In this study, the granular organization and structure of transitory starch from wheat pericarp was analyzed and compared to the storage starch from endosperm. Pericarp starch (PS) granules were small and spherical with fuzzy blocklets on the surface. Both starches possessed A-type crystallinity, but the relative crystallinity and the stability of crystals were higher in PS. Iodine absorption was low in PS, but iodine slightly increased the crystallinity. PS had 14% AAM compared to 33% in endosperm starch (ES). Interestingly, the AAM (fraction II) in PS was branched as judged from the l max value of the iodine complex, whereas ES contained linear and branched amylose. The amylopectin component (fraction I) in PS and ES mainly showed differences in the internal structure. PS amylopectin had longer chains and fewer A-chains resulting in a less branched structure compared to ES amylopectin.

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Structure of clusters and building blocks in amylopectin from developing wheat endosperm

Kalinga

Bertoft

Tetlow

et al. 2014

Carbohydrate Polymers

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Evolution of amylopectin structure in developing wheat endosperm starch

Kalinga

Bertoft

Tetlow

et al. 2014

Carbohydrate Polymers

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