Abstract
Pulses are good sources of bioactive compounds such as polyphenols, phytosterols and non-digestible carbohydrates that play important physiological as well as metabolic roles. These compounds vary in concentration amongst different pulse species and varieties. Pulse seed coats are rich in water-insoluble fibres and polyphenols (having high antioxidant activities), while cotyledons contain higher soluble fibres, oligosaccharides, slowly digestible and resistant starch content. Ferulic acid is the most abundant phenolic acid present in pulses, while flavonol glycosides, anthocyanins and tannins are responsible for the seed coat colour. Sitosterol (most abundant), stigmasterol, and campesterol are the major phytosterols present in pulses. Pulse fibres, resistant starch and oligosaccharides function as probiotics and possess several other health benefits such as anti-inflammatory, anti-tumour, and reduce glucose as well as lipid levels. Beans and peas contain higher amounts of oligosaccharides than other pulses. Processing methods affect resistant starch, polyphenol composition and generally increase antioxidant activities of different pulses. In this review, the current information on pulse polyphenols, phytosterols, resistant starch, dietary fibre, oligosaccharides, antioxidant and associated health benefits are discussed.
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References
Adebamowo CA, Cho E, Sampson L, Katan MB, Spiegelman D, Willett WC, Holmes MD (2005) Dietary flavonols and flavonol-rich foods intake and the risk of breast cancer. Int J Cancer 114:628–633
Aguilera Y, Estrella I, Benitez V, Esteban RM, Martín-Cabrejas MA (2011) Bioactive phenolic compounds and functional properties of dehydrated bean flours. Food Res Int 44:774–780
Alshikh N, de Camargo AC, Shahidi F (2015) Phenolics of selected lentil cultivars: antioxidant activities and inhibition of low-density lipoprotein and DNA damage. J Funct Foods 18:1022–1038
Amarowicz R, Pegg RB (2008) Legumes as a source of natural antioxidants. Eur J Lipid sci Tech 110:865–878
Amarowicz R, Estrella I, Hernández T, Robredo S, Troszyńska A, Kosińska A, Pegg RB (2010) Free radical-scavenging capacity, antioxidant activity, and phenolic composition of green lentil (Lens culinaris). Food Chem 121:705–711
Anderson JW, Major AW (2002) Pulses and lipaemia, short- and long-term effect: potential in the prevention of cardiovascular disease. Brit J Nutr 88:S263–S271
Balasundram N, Sundram K, Samman S (2006) Phenolic compounds in plants and agri-industrial by-products: antioxidant activity, occurrence, and potential uses. Food Chem 99:191–203
Bartnikowska E (2009) Biological activities of phytosterols with particular attention to their effects on lipid metabolism. Pol J Food Nutr Sci 59:105–112
Bazzano LHJ, Ogden LG, Loria C, Vupputuri S, Myers L, Whelton PK (2001) Legume consumption and risk of coronary heart disease in US men and women: NHANES I Epidemiologic Follow-up Study. Arch Intern Med 161:2573–2578
Beninger CW, Hosfield GL (2003) Antioxidant activity extracts, condensed tannin fractions, and pure flavonoids from Phaseolus vulgaris L. seed coat color genotypes. J Agric Food Chem 51:7879–7883
Berrios JDJ, Morales P, Cámara M, Sánchez-Mata MC (2010) Carbohydrate composition of raw and extruded pulse flours. Food Res Int 43:531–536
Bouic PJ (2001) The role of phytosterols and phytosterolins in immune modulation: a review of the past 10 years. Curr Opin Clin Nutr Metab Care 4:471–475
Campos-Vega R, Loarca-Piña G, Oomah BD (2010) Minor components of pulses and their potential impact on human health. Food Res Int 43:461–482
Campos-Vega R, Oomah BD, Loarca-Piña G, Vergara-Castañeda HA (2013) Common Beans and Their Non-Digestible Fraction: Cancer Inhibitory Activity—An Overview. Foods 2:374–392
Cardador-Martinez A, Loarca-Pina G, Oomah BD (2002) Antioxidant activity in common beans (Phaseolus vulgaris L.). J Agric Food Chem 50:6975–6980
Chaieb N, González JL, López-Mesas M, Bouslama M, Valiente M (2011) Polyphenols content and antioxidant capacity of thirteen faba bean (Vicia faba L.) genotypes cultivated in Tunisia. Food Res Int 44:970–977
Champ MMJ (2002) Non-nutrient bioactive substances of pulses. Brit J Nutr 88:307–319
Chávez-Santoscoy RA, Tovar AR, Serna-Saldivar SO, Torres N, Gutiérrez- Uribe JA (2014) Conjugated and free sterols from black bean (Phaseolus vulgaris L.) seed coats as cholesterol micelle disruptors and their effect on lipid metabolism and cholesterol transport in rat primary hepatocytes. Genes Nutr 9:367
Choung MG, Choi BR, An YN, Chu YH, Cho YS (2003) Anthocyanidin profile of Korean cultivated kidney bean (Phaseolus vulgaris L.). J Agric Food Chem 51:7040–7043
Costa GE, da Silva Queiroz-Monici K, Reis SMPM, de Oliveira AC (2006) Chemical composition, dietary fibre and resistant starch contents of raw and cooked pea, common bean, chickpea and lentil legumes. Food Chem 94:327–330
Craig WJ (2009) Health effects of vegan diets. Am J Clin Nutr 89:1627S–1633S
Daglia M (2012) Polyphenols as antimicrobial agents. Curr Opin Biotech 23:174–181
Dilawari J, Kumar V, Bhatnagar R, Dash R (1987) Effect of legumes on blood sugar in diabetes mellitus. Indian J Med Res 85:184–187
Dueñas M, Hernández T, Estrela I (2006) Assessment of in vitro antioxidant capacity of the seed coat and the cotyledon of legumes in relation their phenolic contents. Food Chem 98:95–103
Dueñas M, Estrela I, Hernández T (2014) Occurrence of phenolic compounds in the seed coat and the cotyledon of peas (Pisum sativum L.). Eur Food Res Technol 219:116–123
Dueñas M, Sarmento T, Aguilera Y, Benitez V, Mollá E, Esteban RM, Martín-Cabrejas MA (2016) Impact of cooking and germination on phenolic composition and dietary fibre fractions in dark beans (Phaseolus vulgaris L.) and lentils (Lens culinaris L.). LWT Food Sci Technol 66:72–78
Englyst HN, Kingman SM, Cummings JH (1992) Classification and measurement of nutritionally important starch fractions. Eur J Clin Nutr 46:S33–S50
FAOSTAT (2008) Food & Agric. Organization of the United Nations, Rome, Italy, Year Book January 2008
Fratianni F, Cardinale F, Cozzolino A, Granese T, Albanese D, Di Matteo M, Nazzaro F (2014) Polyphenol composition and antioxidant activity of different grass pea (Lathyrus sativus), lentils (Lens culinaris), and chickpea (Cicer arietinum) ecotypes of the Campania region (Southern Italy). J Funct Foods 7:551–557
Fuentes-Zaragoza E, Riquelme-Navarrete MJ, Sánchez-Zapata E, Pérez-Álvarez JA (2010) Resistant starch as functional ingredient: a review. Food Res Int 43:931–942
Girish TK, Pratape VM, Rao UP (2012) Nutrient distribution, phenolic acid composition, antioxidant and alpha-glucosidase inhibitory potentials of black gram (Vigna mungo L.) and its milled by-products. Food Res Int 46:370–377
Han IH, Baik BK (2006) Oligosaccharide content and composition of legumes and their reduction by soaking, cooking, ultrasound, and high hydrostatic pressure. Cereal Chem 83:428–433
Hernández-Salazar M, Osorio-Diaz P, Loarca-Piña G, Reynoso-Camacho R, Tovar J, Bello-Pérez LA (2010) In vitro fermentability and antioxidant capacity of the indigestible fraction of cooked black beans (Phaseolus vulgaris L.), lentils (Lens culinaris L.) and chickpeas (Cicer arietinum L.). J Sci Food Agric 90:1417–1422
Hoover R, Hughes T, Chung HJ, Liu Q (2010) Composition, molecular structure, properties, and modification of pulse starches: a review. Food Res Int 43:399–413
Iriti M, Di Maro A, Bernasconi S, Burlini N, Simonetti P et al (2009) Nutritional traits of bean (Phaseolus vulgaris) seeds from plants chronically exposed to ozone pollution. J Agric Food Chem 57:201–208
Jin AL, Ozga JA, Lopes-Lutz D, Schieber A, Reinecke DM (2012) Characterization of proanthocyanidins in pea (Pisum sativum L.), lentil (Lens culinaris L.), and faba bean (Vicia faba L.) seeds. Food Res Int 46:528–535
Kabagambe EK, Baylin A, Ruiz-Narvarez E, Siles X, Campos H (2005) Decreased consumption of dried mature beans is positively associated with urbanization and nonfatal acute myocardial infarction. J Nutr 135:1770–1775
Kahlon TS, Smith GE, Shao Q (2005) In vitro binding of bile acids by kidney bean (Phaseolus vulgaris), black gram (Vigna mungo), bengal gram (Cicer arietinum) and moth bean (Phaseolus aconitifolins). Food Chem 90:241–246
Kalogeropoulos N, Chiou A, Ioannou M, Karathanos VT, Hassapidou M, Andrikopoulos NK (2010) Nutritional evaluation and bioactive microconstituents (phytosterols, tocopherols, polyphenols, triterpenic acids) in cooked dry legumes usually consumed in the Mediterranean countries. Food Chem 121:682–690
Kushi LH, Meyer KA, Jacobs DRJ (1999) Cereals, legumes, and chronic disease risk reduction: evidence from epidemiologic studies. Am J Clin Nutr 70:451S–458S
Lanza E, Hartman TJ, Albert PS et al (2006) High dry bean intake and reduced risk of advanced colorectal adenoma recurrence among participants in the Polyp Prevention Trial. J Nutr 136:1896–1903
Lin LZ, Harnly JM, Pastor-Corrales MS, Luthria DL (2008) The polyphenolic profiles of common bean (Phaseolus vulgaris L.). Food Chem 107:399–410
López-Amorós ML, Hernández T, Estrela I (2006) Effect of germination on legume phenolic compounds and their antioxidant activity. J Food Comp Anal 19:277–283
Luthria DL, Pastor-Corrales MA (2006) Phenolic acids content of fifteen dry edible bean (Phaseolus vulgaris L.) varieties. J Food Comp Anal 19:205–211
Madhujith T, Naczk M, Shahidi F (2004) Antioxidant activity of common beans (Phaseolus vulgaris L.). J Food Lipids 11:220–233
Manach C, Scalbert A, Morand C, Remesy C, Jimenez L (2004) Polyphenols: food sources and bioavailability. Am J Clin Nutr 79:727–747
Marinangeli CP, Jones PJ (2011) Whole and fractionated yellow pea flours reduce fasting insulin and insulin resistance in hypercholesterolaemic and overweight human subjects. Brit J Nutr 105:110–117
McBurney MI, Thompson LU (1987) Effect of human faecal inoculum on in vitro fermentation variables. Brit J Nutr 58:233–243
Mirali M, Ambrose SJ, Wood SA, Vandenberg A, Purves RW (2014) Development of a fast extraction method and optimization of liquid chromatography–mass spectrometry for the analysis of phenolic compounds in lentil seed coats. J Chromatogr B 969:149–161
Moussou N, Corzo-Martínez M, Luz Sanz M, Zaidi F, Montilla A, Villamiel M (2016) Assessment of Maillard reaction evolution, prebiotic carbohydrates, antioxidant activity and α-amylase inhibition in pulse flours. J Food Sci Technol (in press)
Nugent AP (2005) Health properties of resistant starch. Nutr Bull 30:27–54
Nyström L, Schär A, Lampi AM (2012) Steryl glycosides and acylated steryl glycosides in plant foods reflect unique sterol patterns. Eur J Lipid Sci Tech 114:656–669
Oyeyinka SA, Singh S, Amonsou EO (2016) Physicochemical properties of starches extracted from bambara groundnut landraces. Starch Starke, Accepted manuscript
Panel, NCEPNE (2002) Third report of the National Cholesterol Education Program (NCEP) expert panel on detection, evaluation, and treatment of high blood cholesterol in adults (Adult Treatment Panel III) final report. Circulation 106:3143
Parihar AK, Bohra A, Dixit GP (2016) Nutritional benefits of winter pulses with special emphasis on Peas and Rajmash. In Biofortification of Food Crops, Springer India, pp 61–71
Parmar N, Virdi AS, Singh N, Kaur A, Bajaj R, Rana JC, Nautiyal CS (2014) Evaluation of physicochemical, textural, mineral and protein characteristics of kidney bean grown at Himalayan region. Food Res Int 66:45–57
Parmar N, Singh N, Kaur A, Virdi AS, Thakur S (2016) Effect of canning on color, protein and phenolic profile of grains from kidney bean, field pea and chickpea. Food Res Int (accepted manuscript)
Ramírez-Jiménez AK, Reynoso-Camacho R, Tejero ME, León-Galván F, Loarca-Piña G (2015) Potential role of bioactive compounds of Phaseolus vulgaris L. on lipid-lowering mechanisms. Food Res Int 76:92–104
Rebello CJ, Greenway FL, Finley JW (2014) A review of the nutritional value of legumes and their effects on obesity and its related co-morbidities. Obes Rev 15:392–407
Rocha-Guzmán NE, Herzog A, González-Laredo RF, Ibarra-Pérez FJ, Zambrano-Galván G, Gallegos-Infante JA (2007) Antioxidant and antimutagenic activity of phenolic compounds in three different colour groups of common bean cultivars (Phaseolus vulgaris). Food Chem 103:521–527
Rochfort S, Panozzo J (2007) Phytochemicals for health, the role of pulses. J Agric Food Chem 55:7981–7994
Ryan E, Galvin K, O’Connor TP, Maguire AR, O’Brien NM (2007) Phytosterol, squalene, tocopherol content and fatty acid profile of selected seeds, grains, and legumes. Plant Food Hum Nutr 62:85–91
Segev A, Badani H, Kapulnik Y, Shomer I, Oren-Shamir M, Galili S (2010) Determination of polyphenols, flavonoids, and antioxidant capacity in colored chickpea (Cicer arietinum L.). J Food Sci 75:S115–S119
Sharma S, Singh N, Virdi AS, Rana JC (2015) Quality traits analysis and protein profiling of field pea (Pisum sativum) germplasm from Himalayan region. Food Chem 172:528–536
Shevkani K, Singh N (2014) Influence of kidney bean, field pea and amaranth protein isolates on the characteristics of starch-based gluten-free muffins. Int J Food Sci Technol 49:2237–2244
Shevkani K, Singh N (2015) Relationship between protein characteristics and film-forming properties of kidney bean, field pea and amaranth protein isolates. Int J Food Sci Technol 50:1033–1043
Shevkani K, Singh N, Bajaj R, Kaur A (2016) Wheat starch production, structure, functionality, and applications—a review. Int J Food Sci Technol (accepted manuscript)
Siah SD, Konczak I, Agboola S, Wood JA, Blanchard CL (2012) In vitro investigations of the potential health benefits of Australian-grown faba beans (Vicia faba L.): chemopreventative capacity and inhibitory effects on the angiotensin-converting enzyme, α-glucosidase and lipase. Brit J Nutr 108:S123–S134
Singh N (2011) Functional and physicochemical properties of pulse starch. In: Pulse foods: processing, quality and nutraceutical applications, pp 91–119
Singh JP, Kaur A, Shevkani K, Singh N (2015) Influence of jambolan (Syzygium cumini) and xanthan gum incorporation on the physicochemical, antioxidant and sensory properties of gluten-free eggless rice muffins. Int J Food Sci Technol 50:1190–1197
Singh B, Singh JP, Kaur A, Singh N (2016a) Bioactive compounds in banana and their associated health benefits–a review. Food Chem 206:1–11
Singh JP, Kaur A, Shevkani K, Singh N, Singh B (2016b) Physicochemical characterisation of corn extrudates prepared with varying levels of beetroot (Beta vulgaris) at different extrusion temperatures. Int J Food Sci Technol 51:911–919
Singh JP, Kaur A, Singh N, Nim L, Shevkani K, Kaur H, Arora DS (2016c) In vitro antioxidant and antimicrobial properties of jambolan (Syzygium cumini) fruit polyphenols. LWT Food Sci Technol 65:1025–1030
Tharanathan RN, Mahadevamma S (2003) Grain legumes—a boon to human nutrition. Trends Food Sc Technol 14:507–518
Tiwari BK, Singh N (2012) Pulse chemistry and technology. Royal Society of Chemistry
Tsuda T, Ohshima K, Kawakishi S, Osawa T (1994) Antioxidative pigments isolated from the seed of Phaseolus vulgaris L. J Agric Food Chem 42:248–251
Uddin M, Sarker M, Islam Z, Ferdosh S, Akanda M, Haque J, Yunus KB (2015) Phytosterols and their extraction from various plant matrices using supercritical carbon dioxide: a review. J Sci Food Agric 95:1385–1394
Van Loo J (1998) Non-digestible oligosaccharides are prebiotic functional food ingredients with promising health benefits. In: Proceedings of Profibre. Lisbon
Venn BJ, Mann JI (2004) Cereal grains, legumes and diabetes. Eur J Clin Nutr 58:1443–1461
Vergara-Castañeda HA, Guevara-González RG, Guevara-Olvera BL, Oomah BD, Loarca-Piña GF (2012) Non-digestible fraction of beans (Phaseolus vulgaris L.) modulates signalling pathway genes at an early stage of colon cancer in Sprague-Dawley rats. Brit J Nutr 108:S145–S154
Vidal-Valverde C, Frias J, Lambein F, Kuo YH (2001) Increasing the functionality of legumes by germination. In W: proceedings of the 4th European conference on Grain legumes, Cracow, AEP (ed) (vol 422)
Wang N, Toews R (2011) Certain physicochemical and functional properties of fibre fractions from pulses. Food Res Int 44:2515–2523
Wang YK, Zhang X, Chen GL, Yu J, Yang LQ, Gao YQ (2016) Antioxidant property and their free, soluble conjugate and insoluble-bound phenolic contents in selected beans. J Funct Foods 24:359–372
Weihrauch JL, Gardner JM (1978) Sterol content of foods of plant origin. J Am Diet Assoc 73:39–44
Xu B, Chang SK (2009) Total phenolic, phenolic acid, anthocyanin, flavan-3-ol, and flavonol profiles and antioxidant properties of pinto and black beans (Phaseolus vulgaris L.) as affected by thermal processing. J Agric Food Chem 57:4754–4764
Xu BJ, Yuan SH, Chang SKC (2007) Comparative analyses of phenolic composition, antioxidant capacity, and color of cool season legumes and other selected food legumes. J Food Sci 72:S167–S177
Yadav BS, Sharma A, Yadav RB (2010a) Effect of storage on resistant starch content and in vitro starch digestibility of some pressure-cooked cereals and legumes commonly used in India. Int J Food Sci Technol 45:2449–2455
Yadav BS, Sharma A, Yadav RB (2010b) Resistant starch content of conventionally boiled and pressure-cooked cereals, legumes and tubers. J Food Sci Technol 47:84–88
Zhang B, Deng Z, Ramdath DD, Tang Y, Chen PX, Liu R, Tsao R (2015) Phenolic profiles of 20 Canadian lentil cultivars and their contribution to antioxidant activity and inhibitory effects on α-glucosidase and pancreatic lipase. Food Chem 172:862–872
Zhao Y, Du SK, Wang H, Cai M (2014) In vitro antioxidant activity of extracts from common legumes. Food Chem 152:462–466
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Authors are thankful to University Grants Commission, New Delhi for providing financial assistance in the form of Research Award and Major Research Project.
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Singh, B., Singh, J.P., Shevkani, K. et al. Bioactive constituents in pulses and their health benefits. J Food Sci Technol 54, 858–870 (2017). https://doi.org/10.1007/s13197-016-2391-9
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DOI: https://doi.org/10.1007/s13197-016-2391-9