Effect of the Seed Morphology on the Separation Yield, Chemical Characteristics and Thickening Capacity of Carob (Ceratonia siliqua L.) Gums

Authors

  • Patrick Aubin Dakia 1) University of Nangui Abrogoua. Ivory Coast 2) University of Liège. Belgium
  • Marie-Michel Agnan Combo
  • Beda Marcel Yapo
  • Michel Paquot

Keywords:

Carob seed morphology, Locust bean gum, galactomannans, sugar composition, macromolecular size properties, solution apparent viscosity, intrinsic viscosity, radius of gyration

Abstract

The present work aims at bringing new insights into the galactomannan physicochemical characteristics through an unprecedented approach: relationship between the morphology of carob seeds and corresponding gums chemical and physical properties. Therefore, four commercial carob seeds with different granulometries were studied. Their endosperms (Locust bean gum, LBG) were evaluated in term of yield, chemical composition, sugar composition and macromolecular and rheological properties. Acid dehulling furnished a gum yield in the range of 39.4-42.0%. The greater size of the seeds allowed an easier dehulling and a production of more and purer gum flour. The viscosity of 1% LBG aqueous solutions varied widely from 903 to 2081 mPas and appeared to be influenced by the seed size. The mannose to galactose ratio, of the extracted gums, did not show clear difference that may explain the difference in viscosity. However, the macromolecular size values for intrinsic viscosity [η] and radius of gyration (Rg) of the extracted gums, increased from 11.73 to 13.64 dl.g-1 and from 71.7 to 76.6 nm, respectively, with increasing seed morphology. Moreover, the total galactomannan content varied from 74.88 to 83.79 with increasing seed size. The best thickening properties were observed for the gum from the seeds with the highest size, in consistence with their macromolecular features, combining probably with their total galactomannan content. The physicochemical characteristics of locust bean gum flours were found to be dependent on the carob seeds morphology.

Author Biography

  • Patrick Aubin Dakia, 1) University of Nangui Abrogoua. Ivory Coast 2) University of Liège. Belgium
    Department of Food Science and Technology (STA).

References

Albersheim, P., Nevins, D.J., English, P.D., Karr, A., “A method for the analysis of sugars in plant cell-wall polysaccharides by gas-liquid chromatographyâ€, Carbohydrate Research, vol.5, pp.340-345, 1967.

Anderson, D.M.W., “Nitrogen convertion factors for the proteinaceous content of gums permitted as food additivesâ€. Food Additives and Contaminants, vol.3, pp.225-230, 1986.

Azero E. G., Andrade C. T., “Testing procedures for galactomannan purification†Polymer Testing, vol.21, no.5, pp.551-556, 2002.

Bargallo, M. G., Di Lorenzo, R., Meli, R, Crescimanno, F.G. “Characterization of carob gerplasm (Ceratonia siliqua L.) in Sicilyâ€, Journal of Horticultural Science, vol.72, no.4, pp.537-543, 1997.

Blakeney, A.B., Harris, P.J., Henry R.J., Stone, B.A., “A simple and rapide preparation of alditol acetates for monosaccharide analysisâ€. Carbohydrate Research, vol.113, pp.291-299, 1983.

Bouzouita, N., Khaldi, A., Zgoulli, S., Chebil, L., Chekki, R., Chaabouni, M.M. and Thonart, P., “The Analysis of Crude and Purified Locust Bean Gum: A Comparison of Samples from Different Carob Tree Populations in Tunisiaâ€, Food Chemistry, vol.101, pp.1508-1515, 2007.

Brummer, Y., Cui, W., Wang, Q., “Extraction, purification and physicochemical characterization of fenugreek gumâ€. Food Hydrocolloids, vol.17, pp.229-236, 2003.

Cheng Y.; Brown K. M., Prud’homme R. K., “Preparation and characterization of molecular weight fractions of guar galactomannans using acid and enzymatic hydrolysisâ€,. Int j biol macromol. vol.31, no.1-3, pp.29-35, 2002.

da Silva, J.A.L., Gonçalves, M.P., “Studies on a purification method for locust bean gum by precipitation with isopropanolâ€, Food Hydrocolloids, vol.4, pp.277–287, 1990.

Daas Piet, J.H., Schols Henk, A., De Jongh Harmen, H.J., “On the galactosyl distribution of commercial galactomannansâ€. Carbohydrate Research, vol.329, no.3, pp.609-619. 2000.

Dakia, P.A., Wathelet, B., Paquot, M., Isolation and chemical evaluation of the carob (Ceratonia siliqua L) seeds germ. Food Chemistry. Vol.102, no.4, pp.1368-1374, 2007.

Dakia, P.A., Christophe Blecker, Christelle Robert, Wathelet, B., Paquot, M. Composition and physicochemical properties of locust bean gum extracted from whole seeds by acid or water dehulling pre-treatment. Food Hydrocolloids, vol.22, no.5, pp.807-818. 2008.

Dakia P.A., Whatelet, B., Paquot M., Influence de la teneur en galactose sur les interactions moléculaires et sur les propriétés physico-chimiques des galactomannanes en solution. Biotechnol. Agron. Soc. Environ. Vol.14, no.1, pp.213-223, 2010.

Dakia, P. A.. Carob (Ceratonia siliqua L.) Seeds, endosperm and germ composition, and application to health. In V. R. Preedy, R. R. Watson, V. B. Patel (Editors), Nuts & Seeds in Health and Disease Prevention (1st ed.) (pp 293-299). London, Burlington, San Diego: Academic Press is an imprint of Elsevier. 2011.

Dea, I.C.M., Morrison, A., “Chemistry and interactions of seed galactomannansâ€. Advances in Carbohydrate Chemistry and Biochemistry, vol.31, pp.241–242, 1975.

Deuel, H., Neukom, H. Some properties of locust bean gum in Natural Plant Hydrocolloids (Adv. Chem. Series No. 11) pp. 51-61. 1954.

El Batal H., Hasib, A. Ouatmane, A. Boulli, A. Dehbi, F. Jaouad A., “Yield and composition of carob bean gum produced from different Moroccan populations of carob (Ceratonia siliqua L.)â€, Journal of Materials and Environmental Science. Vol.4, no.2, pp.309-314, 2013.

Fernandes, P. B., Gonçalves M. P., Doublier J. L., “A rheological characterization of kappa-carrageenan/galactomannan mixed gels: A comparison of locust bean gum samplesâ€. Carbohydrate Polymers, vol.16, no.3, pp.253-274, 1991.

Folch, Lees, M., Stanley, S.G.H., “A simple method for the isolation and purification of total lipids from animal tissuesâ€, Journal of Biological Chemistry, vol.226, pp.497–509, 1957.

Gainsford, S.E., Harding, S.E., Mitchell, J.R., Bradley, T.D., A comparison between the hot and cold water-soluble fractions of two locust bean gum samples. Carbohydrate Polymers, vol.6, pp.423–442, 1986.

Ganter J. L. M. S. Reicher F. “Water-soluble galactomannans from seeds of Mimosaceae spp.†Bioresource Technology, vol.68, no.1, pp.55-62, 1999.

Gillet S., Blecker, C., Aguedo, M., Laurent, P., Paquot, M., Richel A. Impact of purification and process on the chemical structure and physical properties of locust bean gum, Carbohydrate Polymer. Vol.108, pp.159–168, 2014.

Gillet, S., Aguedo, M., Petrut, R, Olive, G., Anastas, P., Blecker, C., Richel, A. “Structure impact of two galactomannan fractions on their viscosity properties in dilute solution, unperturbed state and gel stateâ€. International Journal of Biological Macromolecules, vol.96, pp.550–559, 2017.

Goycoolea, F.M., Morris, E.R., Gidley, M.J., “Viscosity of galactomannans at alkaline and neutral pH: Evidence of ‘hyperentanglement’ in solutionâ€, Carbohydrate Polymers, vol.27, pp.69–71, 1995.

Guler-Akin, M.B., Goncu, B., Akin, M.S. “Some Properties of Probiotic Yoghurt Ice Cream Supplemented with Carob Extract and Whey Powderâ€. Advances in Microbiology, vol.6, pp.1010-1020, 2016.

Haddarah A., Ismail A., Bassal A., Hamieh T., Ghoul M., “Morphological and chemical variability of lebanese carob varietiesâ€. European scientific journal, vol.9, no.18, pp353–369, 2013.

Haddarah, A., Bassal, A., Ismail, A., Gaiani, C., Ioannou, I., Charbonnel, C., Hamieh, T., Ghoul M. “The structural characteristics and rheological properties of Lebanese locust bean gum.†Journal of Food Engineering, vol.120, pp.204–214, 2014.

Hui, P.A., Neukom, H., “Properties of galactomannansâ€. Tappi. Vol.47, pp.39-42, 1964.

Kıvrak N. E., Askın B., Kucukoner E, “Comparison of Some Physicochemical Properties of Locust Bean Seeds Gum Extracted by Acid and Water Pre-Treatmentsâ€, Food and Nutrition Sciences, vol.6, pp.278-286, 2015.

Lazaridou, A., Biliaderis, C.G., Izydorczyk, M.S., “Structural characteristics and rheological properties of locust bean galactomannans: A comparison of samples from different carob tree populationsâ€. Journal of the Science of Food and Agriculture, vol.81, pp.68–75, 2000.

Lundin L., Hermansson A.-M., “Influence of locust bean gum on the rheological behaviour and microstructure of K-κ-carrageenanâ€. Carbohydrate Polymers, vol.28, no.2, pp.91-99. 1995.

Maier H., Anderson M., Karl C., Magnuson K., Whistler R.L., 1993. Guar, locust bean, tara and fenugreek gums. In: Whistler, R.L. and BeMiller, J.N. Editors. Industrial gums, polysaccharides and their derivates,(Pp 205-215). San Diego: Academic Press.

Mao, C-F. Chen, J-C.. “Interchain association of locust bean gum in sucrose solutions: An interpretation based on thixotropic behaviorâ€. Food Hydrocolloids, vol.20, no.5, pp.730-739, 2006.

Richardson, P.H., Willmer, J., Foster, T.J., “Dilute properties of guar and locust bean gum in sucrose solutionsâ€. Food Hydrocolloids, vol.12, pp.339-348, 1998.

Rizzo, V., Tomaselli, F., Gentile, A., La Malfa S., Maccarone, E. “Rheological properties and sugar composition of locust bean gum from different carob varieties (Ceratonia siliqua L.)â€. Journal of Agricultural and Food Chemistry, vol.52, no.26, pp.7925-30, 2004.

Sittikijyothin, W., Torres D., Gonçalves, M.P., “Modelling the rheological behaviour of galactomannan aqueous solutionsâ€, Carbohydrate Polymers, vol.59, no.3, pp.339-350, 2005.

Downloads

Published

2017-11-03

How to Cite

Effect of the Seed Morphology on the Separation Yield, Chemical Characteristics and Thickening Capacity of Carob (Ceratonia siliqua L.) Gums. (2017). Asian Journal of Agriculture and Food Sciences, 5(5). https://ajouronline.com/index.php/AJAFS/article/view/5038

Similar Articles

41-50 of 154

You may also start an advanced similarity search for this article.