Crude Protein and Ash Content in Different Coloured Phaseolus coccineus L.
Authors: Liene Strauta, Sandra Muizniece-Brasava, Ina Alsina
Abstract:
Phaseolus coccineus L. is the third most important cultivated Phaseolus species in the world. It is widely grown in Latvia due to its earliness, good taste and uniform and qualitative yield. Experiments were carried out in the laboratories of Department of Food Technology and Agronomical Analysis Scientific Laboratory at Latvia Universityof Agriculture. Beans (Phaseolus coccineus L.) crude protein, crude ash content as well as colour measurements were analyzed. Results show, that brown coloured beans have less crude protein content than others, and ash content have significant differences.
Keywords: Phaseoluscoccineus, protein, ash, colour.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1087400
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 3333References:
[1] R.N. Tharanathan, S. Mahadevamma, “A review: grain legumes a boon
to human nutrition,” Trends in Food Science and Technology, vol.14,
pp. 507-518, 2003.
[2] O. Perla, A.B. Luis, G.S. Sonia, P.B. Maria, T.P..Juscelino, L. Octavio,
“Effect of processing and storage time on in vitro digestibility and
resistant starch content of two bean (Phaseolus vulgaris L) varieties,”
Journal of the Science of and Agriculture, vol. 83, pp.1283–1288, 2003.
[3] E.A. Shimelis, S.K. Rakshit, “Proximate composition and physicochemical
properties of improved dry bean (Phaseolus vulgaris L.)
varieties grown in Ethiopia” LWT , vol.38, pp. 331-338, 2005.
[4] Food and Agricultural Organization of the United Nations. (August 1,
2002). (Onlinedatabase) Agriculture bulletin board on data collection,
dissemination and quality of statistics. URL. http//apps.fao.org/cgibin/
nph-db.pI?subset¼agriculture, 2002.
[5] S.K. Sathe, “Dry bean protein functionality,” Critical Reviews in
Biotechnology, vol.22, pp. 175e223, 2002.
[6] A. Kimura, T. Fukuda, M. Zhang, S. Motoyama, N. Maruyama,
S.Utsumi, “Comparison of physicochemical properties of 7S and 11S
globulins from pea, Fava bean, cowpea, and French bean with those of
soybean e French bean 7S globulin exhibits excellent properties,”
Journal of Agricultural and Food Chemistry, vol. 56, pp. 10273e10279,
2008.
[7] M.A. Wen, C.H. Tang, X.Q.Yang, S.W. Yin, “Fabrication and
characterization of kidney bean (Phaseolus vulgaris L.)
proteinisolateechitosan composite films at acidic pH,” Food
Hydrocolloids, vol. 31, pp. 237e247, 2013.
[8] J.W. Anderson, L. Story, B. Sieling, W.J.L Chen, M.S. Petro, J. Story,
“Hypocholestrolemic effects of oat-bran or bean intake for
hypercholestrolemic men,” American Journal of Clinical Nutrition,
vol.48, pp. 749-753, 1984.
[9] P.B. Geil, J.W. Anderson, “Nutrition and health implications of dry
beans: A review,” Journal of the American College of Nutrition, vol.13,
pp. 549-558, 1994.
[10] A. Azevedo, J.C. Gomes, P.C. Stringheta, A.M.C. Gontijo, C. Padovani,
L.R.Z. Riberio, “Black bean (Phaseolus vulgaris L.) as a protective
agent against DNA damage in mice,” Food and Chemical Toxicology,
vol. 41, pp. 1671-1676, 2003.
[11] T. Garcia-Gasca, L.A. Salazar-Olivo, E. Meniola-Olaya, A. Blanco-
Labra, “The effects of a protease inhibitor fraction from tepary bean
(Phaseolusacutifolius) on in vitro cell proliferation and cell adhesion of
transformed cells,” Toxicology In vitro, vol.16, pp. 229-233, 2002.
[12] A.A. Anton, K.A. Ross, T. Beta, R.G. Fulcher, S.D. Arntfield, “Effect of
pre-dehulling treatments on some nutritional and physical properties of
navy and pinto beans (Phaseolus vulgaris L.)” LWT vol. 41, pp.771-778,
2008.
[13] M.A. Martin-Cabrejas, B. Sanfiz, A. Vidal, E. Molla, R. Esteban, F.J.
Lopez-Andreu, “Effect of fermentation and autoclaving on dietary fiber
fractions and antinutritional factors of beans (Phaseolus vulgaris L.),”
Journal of Agriculture and Food Chemistry, vol. 52, pp. 261-266, 2004.
[14] Z. Barampama, R.E. Simard, “Nutrient composition, protein quality and
antinutritional factors of some varieties of dry beans (Phaseolus vulgaris
L.) grown in Burundi,” Food Chemistry, vol. 47, pp. 159-167, 1993.
[15] L.G. Elias, D.G. Fernandez, R. Bressani, “Possible effects of seed coat
polyphenols on the nutritional quality of bean protein,” Journal of Food
Science, vol. 44, pp. 524-527, 1979.
[16] E.J.C. Gamez, L. Luyengi, S.K. Lee, L. Zhu, B. Zhou, H. H.S. Fong,
“Antioxidant flavonoid glycosides from Daphniphyllumcalycinum,”
Journal of Natural Products, vol. 61, pp. 706-708, 1998.
[17] T.Madhujith, F. Shahidi, “Antioxidant potential of pea beans (Phaseolus
vulgaris L.),” Journal of Food Science, vol. 70, pp. S85-S89, 2005.
[18] C.W. Beninger, G.L. Hosfield, “Antioxidant activity of extracts,
condensed tannin fractions and pure flavonoids from Phaseolus vulgaris
L. seed coat color genotypes,” Journal of Agricultural and Food
Chemistry, vol. 51, pp. 7879-7883, 2003.
[19] J.A Gutierrez-Uribe, S.R.O. Serna-Saldivar, J.E. Moreno-Cuevas, C.
Hernandez-Brenes, E.M. Uajardo-Touche, Cancer cell growth inhibition
by black bean (Phaseolus vulgaris L) extracts, World Intellectual
Property Organization, WO 2005/107780 A2, 2005.
[20] S. P. Singh, “Production and utilization.” in S. P. Singh (Ed.), Common
bean improvement in the twenty-first century Dordrecht, Netherlands:
Kluwer, pp. 1-24, 1999.
[21] AGWEST, Pulse quality guide: Faba bean. 3 Baron-Hay Court, 6151,
WA, Australia: Agriculture Western Australia, 1998.
[22] L.D. Robertson, M. El-Sherbeeny, “Distribution of discretely scored
descriptors in a pure line faba bean Viciafaba L. germplasm collection,”
Euphytica, vol. 57(1), pp. 83-92, 1991.
[23] P.A. Hughes, R.F. Sandsted, “Effect of temperature, relative humidity
and light on the color of ‘California Light Red Kidney’ bean seeds
during storage,” Hortscience, vol. 10, pp. 421-423, 1975.
[24] D. Dickinson, H.Knight, D.I. Rees, “Varieties of broad beans suitable
for canning,” Chemistry and Industry, vol. 16, pp. 1503, 1957.
[25] C.L. Nordstorm, W.A. Sistrunk, “Effect of type of bean, soak time,
canning media and storage time on quality attributes and nutrient content
of canned dry beans,” Journal of Food Science, vol. 42, pp. 795-798,
1977.
[26] C. Nozzolillo, M. De Bezada, “Browning of lentil seeds, concomitant
loss of viability, and the possible role of soluble tannins in both
phenomena,” Canadian Journal of Plant Science, vol. 64, pp. 815-824,
1984.
[27] D. Park, J.A. Maga, “Dry bean (Phaseolus vulgaris) color stability as
influenced by time and moisture content,” Journal of Food Processing
and Preservation, vol. 23(6), pp. 515-522, 1999.
[28] C. Reyes-Moreno, J. Okamura-Esparza, E. Armienta-Rodelo, R.M.
Gomez-Garza, J. Milan-Carrillo, “Hard-to-cook phenomenon in
chickpeas (Cicerarietinum L.): effect of accelerated storage on quality,”
Plant Foods for Human Nutrition, vol. 55(3), pp. 229-241, 2000.
[29] C.L. Nordstorm, W.A. Sistrunk, “Effect of type of bean, moisture level,
blanch treatment and storage time on quality attributes and nutrient
content of canned dry beans, ” Journal of Food Science, vol. 44, pp.
392-395, 403, 1979.
[30] J.A. Edmister, W.M. Breene, A. Serugendo, “Influence of temperature,
water activity and time on cookability and color of a stored Rwandan
dry bean (Phaseolus vulgaris) mixture,” Journal of Stored Products
Research, vol. 26(3), pp. 121-126, 1990.
[31] G. Gunes, C.Y Lee, “Color of minimally processed potatoes as affected
by modified atmosphere packaging and antibrowning agents,” Journal of
Food Science, vol. 62(3), pp. 572-575, 1997.
[32] A.M. Yousif, J. Kato, H.C. Deeth, “Effect of storage time and conditions
on the seed coat colour of Australian adzuki beans,” Food Australia, vol.
55(10), pp. 479-484, 2003.
[33] S.M. Nasar-Abbas, K.H.M. Siddique, J.A. Plummer, P.F. White, D.
Harris, K. Dods, M. D’Antuono, “Faba bean (Viciafaba L.) seeds darken
rapidly and phenolic content falls when stored at higher temperature,
moisture and light intensity LWT, ”Food Science and Technology, vol.
42 pp. 1703-1711, 2009.
[34] X. Wu, G.R. Beecher, J.M. Holden, D.B. Haytowitz, G.B. Gebhardt,
R.L. Prior, “Lipophilic and hydrophilic antioxidant capacities of
common foods in the United States,” Journal of Agricultural and Food
Chemistry, vol. 52, pp. 4026-4037, 2004.
[35] B.D. Oomah, N. Tiger, M. Olson, P.Balasubramanian, “Phenolics and
antioxidative activities in narrow-leafed lupins (Lupinusangustifolius
L.),” Plant Foods for Human Nutrition, vol. 61, pp. 91-97, 2006,
[36] J. Boateng, M. Verghese, L.T. Walker, S.Ogutu, “Effect of processing
on antioxidant content in selected dry beans (Phaseolus spp. L.),” LWT
Food Science and Technology, vol. 41, pp. 1541-1547, 2008.
[37] N.A. Shehata, N. Darwish, F.E. Nahr, F.A.A Razek, “Supplementation
of wheat flour with some local legumes,” Die Nahrung, vol. 31, pp. 3-8,
1988.
[38] R. Horax, N.S. Hettiarachchy, P.Chen, M. Jalauddin, “Preparation and
characterization of protein isolate from cowpea (Vignaunguiculata L.
Walp),” Journal of Food Science, vol. 69, FTC114–FTC118, 2004.
[39] A.A. Anton, O.M. Lukow, R.G. Fulcher, S.D. Arntfield, “Shelf stability
and sensory properties of flour tortillas fortified with pinto bean
(Phaseolus vulgaris L.)flour: effects of hydrocolloid addition,”. LWT –
Food Science and Technology, vol. 42, pp. 23-29, 2009.
[40] M. Siddiq, R. Ravi, J.B. Harte, K.D. Dolan, “Physical and functional
characteristics of selected dry bean (Phaseolus vulgaris L.) flours,” LWT
- Food Science and Technology, vol. 43, pp. 232-237, 2010.
[41] S.E. Papadakis, S. Abudal-Malek, R.E. Kamden., K.L. Yam, “A
Versatile and Inexpensive Techniques for Measuring Colour of Foods”,
Food Technology, vol. 54, No. 12, pp. 48-51, 2000.