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Language: English

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Physico-Chemical and Functional Characteristics of Palmyrah (Borassus flabellifer L) Spongy Haustorium flour

C. Vengaiah, B. Vijaya kumari, G. N. Murthy, K.R Prasad

Horticultural Research Station (Dr.Y S R Horticultural University) Pandirimamidi, East Godavari (Dist.), Andhra Pradesh, India

Received Date: January 29, 2019; Accepted Date: March 12, 2019; Published Date: March 21, 2019
^*Corresponding author: P. C. Vengaiah, Horticultural Research Station (Dr.Y S R Horticultural University) Pandirimamidi-533288, East Godavari (Dist.), Andhra Pradesh, India. Email: pcvengaiah@gmail.com

Citation: Vengaiah PC, Kumara VB, Murthy GN, Prasad KR (2019) Physico-Chemical and Functional Characteristics of Palmyrah (Borassus flabellifer L) Spongy Haustorium flour. Advn Nutr and Food Sci: ANAFS-124.

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Abstract
      Palmyrah spongy haustorium is delicious and nutritive product from palmyrah seed nut at sprouting stage. It is also known as spongy endosperm and Thavan. The aim of this study is to determine the physico-chemical and functional properties of Palmyra spongy endosperm for its utilisation. The spongy endosperm collected and dried at 60 °C for 24 hrs, milled using pulveriser to pass through a 250 μm sieve, packaged in polyethylene bag and kept in a refrigerator (4 °C). The moisture content of the palmyrah spongy endosperm flour was 5.5 %. The ash and fat contents (dry matter basis) were 5.0 % and 2.1 % respectively. The protein content and carbohydrate content were 5.4 %, and 70.0 % respectively. The pH value is 7.0. Water absorption capacity (2.8%), fat absorption capacity (1.0 %) and bulk density (56 g/cm3) were recorded for the palmyrah spongy haustorium flour. The values for swelling power, foam capacity and foam stability were 345%, 5 % and 20 min respectively. The values moderately higher than of similar flours and the flour may be used direct or combined with other flours for preparation of foods.

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Introduction
      India stands first in the world in terms of its wealth of Palmyrah (Borassus flabellifer L) palms with a population nearly 122 million palms. The palm is found growing in Andhra Pradesh, Tamil Nadu, Bihar and Orissa states and more number of palms is found in southern states. Palmyrah palm has great economic potential and every part of the palm is useful in one way or the other. Spongy haustorium or Thavan formed during germination of seed nut is spongy, sweet and is a delicacy.

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Methodology
      Palmyrah spongy endosperm was collected from palmyrah nuts of just sprouted by opening of the nut using sharp tool or knife and stored at cold room temperature (4 °C). The spongy endosperm dried at 60 °C for 24 hrs. The dried one finally milled using pulveriser to pass through a 240 μm sieve. The samples were then packaged in polyethylene bag and kept in a refrigerator (~ 4 °C) until needed for use.

 Physico chemical properties

The moisture content of the Palmyrah spongy endosperm flour was determined by AOAC (1999). The Total soluble solids (TSS) of the Palmyrah spongy endosperm was determined with hand refractrometer (Ranganna, 1986). The pH was determined with digital pH meter (Ranganna, 1986). Ash content was determined by heating sample at 600֯ C for 3-4 hrs. The protein estimation was made by Lowery etal (1951). Lipids were extracted according to the method using Soxhlet apparatus (Ranganna, 1986). Total sugars determined by Thimmaiah (1999). Calcium, Iron and Phosphorus of the Palmyrah spongy endosperm was determined by using AOAC (1999). The energy (Caloric value) estimation was done by summing the multiplied values for crude protein, fat and carbohydrate (excluding crude fibre) by their respective factors (4, 9 and 4).

Functional properties: The functional properties of Palmyrah spongy endosperm powder were determined by using standard methods of analysis. Water and oil absorption capacity was determined by the method of Beuchat (1977). Narayana and Narasinga Rao (1984) method was used for the determination of bulk density. Swelling power was determined with the method of Leach etal (1959). Foam capacity (FC) and Foam stability (FS) was determined by Narayana and Narasinga Rao (1982).

Qualitative Phytochemical Screening: Palmyrah spongy endosperm powder was defatted with petroleum ether (60-80֯ C) in a soxhlet apparatus. The defatted sample was further extracted with ethanol (95%).

Test for Flavonoids: To 1 ml of the extract, a few drops of dilute sodium hydroxide were added. An intense yellow colour was produced, which becomes colourless on addition of a few drops of dilute acid indicates the presence of flavonoids.

Test for Saponins: The Palmyrah spongy endosperm powder was diluted with 20ml of distilled water and it was agitated in a graduated cylinder for 15minutes. The formation of 1cm later of foam showed the presence of saponins.

Test for Phenolic Compounds: To the extract few drops of 1% lead acetate were added, the formation of a white precipitate indicates the presence of phenolic compounds.

Test for Glycosides: To the 1 ml of extract add glacial acetic acid, a few drops of ferric chloride and concentrated sulphuric acid is added and observed for the reddish brown colouration at the junction of two layers and the bluish green colour in the upper layer.

Test for Tannins: To 0.5ml of extract solution, 1ml of water and 1-2 drops of ferric chloride solution were added. Blue colour was observed for gallic tannins and green black for catecholic tannins.

Test for Alkaloids: To the extract solution Mayer’s reagent (potassium mercuric iodide) was added. Formation of a yellow colour precipitate indicates the presence of alkaloids.

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Results and Discussion
Physicochemical Properties

The Moisture content of the Palmyrah spongy endosperm powder is 5.5%. The moisture content of the food material is important to consider the food is suitable for the consumption. Moisture provides a measure of the water content of the palmyra spongy endosperm powder and for that matter its total solid content (Vijaya kumari et al., 2014). Moisture affects the physical, chemical aspects of food which relates the freshness and stability for the storage of the food for a long time. So moisture content is important in determining the shelf life. The lower the moisture content, the better its shelf stability (Mulvaney, 1995; Isengard, 2001). The Ph is 7.0, i.e neutral pH. ). The foods contain high pH values are more susceptible to microbial spoilage (Richard and St.Piere, 2006).

The ash content is 5g. The Ash content of a food sample is the residue of the remaining after the complete removal of moisture and organic matter has been burned away at 600˚C. The TSS is 6֯ Brix. The protein content of the Palmyrah spongy endosperm powder is 5.4%. Proteins are the essential nutrients for the human body. Proteins are also served as a fuel source (Young, 1994).The major component of the Palmyrah spongy endosperm powder is carbohydrate. The total carbohydrate is 70%. These are the compounds providing the energy needed to operate and maintain muscle cells, brain, red blood cells, etc. (Martin, 2000). The fat content is 2.1g. The fat provides more than half of the body’s energy needs (Erika Gebal, 2011). The Palmyrah spongy endosperm powder also contains the minerals like calcium 265mg, Iron 4mg and phosphorus 0.29g. Minerals facilitate the transfer of nutrients across the cell membranes. The minerals have great importance for human consumption (vijaya kumari et al., 2016). No single mineral can function without the others, since they are synergistically released. Minerals are the electrolytes in the body. (Sonni Alvarez and Dos.MN, 2002).

 Table 2: Functional properties of Palmyrah Spongy Endosperm powder.

Qualitative Phytochemical Screening

The qualitative phytochemical screening of the Palmyrah spongy endosperm powder shows the presence of Glycosides, Flavonoids, Phenols, Saponins, and absence of Tannins, Alkaloids.

 Table 3: Phytochemical screening of palmyrahSpongy Endosperm powder.

Glycosides have been known to lower blood pressure (Watt et al., 1984). Flavonoids are a group of polyphenolic compounds. They also act as anti-allergic, anticancer anti-neoplastic activity, and for the treatment of intestinal disorders. (Rievere et al., 2009). Phenolic compounds acts as a cellular support material. Bioactive polyphenols have attracted special attention because they can protect the human body from the oxidative stress which may cause many diseases, including cancer, cardiovascular problems and ageing (Robards et al., 1999). Saponins are generally regarded as antinutrients but are also thought to be useful in human diet for controlling cholesterol. Its presence, therefore might suggest that the Palmyrah spongy endosperm powder has medicinal value (vijaya kumari et al., 2015). Saponins act as bioactive antibacterial agents in plants are also used to treat hypercholesterolemia, hyperglycemia and obesity (Mohanta et al., 2007).

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References

1. (1999). Official methods of analysis 16^th Edn. Association of Official Analysis Chemists. Washington.
2. Beuchat LR. (1977). Functional and electrophoretic characteristics of succinylated peanut flour protein. Journal of Agricultural and Food Chemistry. 25: 258-261.
3. Erika Gebal. (2011). Matter of the Sexes: The Difference between Men and Women with Diabetes. Diabetes Forecast. 47- 49.
4. Fagbemi TN. (1999). Effect of blanching and ripening of functional properties of plantain (Musa aab) flour. Plant Foods for Human Nutrition. 54 : 261-269.
5. Isengard HD. (2001). Water content, one of the most important properties of food. Food Control. 12: 395-400.
6. Leach HW, Mc Cowen LD and Schoch TJ. (1959). Structure of the Starch granule swelling and solubility patterns of various starches. Cereal Chemistry.36: 534-544.
7. Lin MJY, Humbert ES and Sosulski FW. (1974). Certain functional properties of Sunflower meal products. Journal of Food Science. 39: 368-370.
8. Lowry OH, Rosen Brough NJ, Farr AL and Randall RJ. (1951). Protein measurement with the Folin phenol reagent. Journal of Biochemistry. 19: 265-275.
9. Martin AB, Cuadrado Y, Guerra H, Gallego P, Hita O, Martin L, Dorado A and Villalobos N. (2000). Differences in the contents of total sugars, reducing sugars, starch and sucrose in embryogenic and non-embryogenic calli from Medicago arborea L. Plant Science. 154: 143-151.
10. Mohanta TK, Patra JK, Rath SK, Pal DK and Thatoi HN. (2007). Evaluation of antimicrobial activity and phytochemical screening of oils and nuts of Semecarpus anacardium. Scientific Research and Essay. 2: 486-490.
11. Mulvaney TR. In: Cunniff P, ed. (1995). Official methods of analysis of AOAC International 16^th Arlington. 42: 1-2.
12. Narayana K and Narasinga rao MS. (1982). Functional properties of raw and heat processed winged bean (Psophocarpus tetragonolobus) flower. Journal of Food Science. 47: 1534-1538.
13. Narayana K and Narasinga Rao MS. (1984). Effect of partial proteolysis on the functional properties of winged bean (Psophocarpus tetragonolobus) flour. Journal of Food Science. 49: 944-947.
14. Ranganna S. (1986). Hand book of Analysis and Quality control for Fruit and Vegetable products. Tata McGraw Hill Publishing Company, New Delhi.
15. Richard G.St.Pierre. (2006). Factors Affecting Fruit Yield and Quality. https://pdfs.semanticscholar.org.
16. Rickard JE, Blanshard JMV and Asaoka M. (1992). Effect of cultivar and growth season on the gelatinization properties of cassava (Manihotesculenta) starch. Journal of the Science of Food and Agriculture. 59: 53-58
17. Rievere C, Ngugen VJM, Pieters L, Dejaegher B and Heyden YV. (2009). Poly phenols isolated from anti radical extracts of Mallotus metcalfianus. Phyto Chemistry. 70: 91-99.
18. Robards K, Prernzler PD, Tucker G, Swatsitang P and Glover W. (1999). Phenolic compounds and their role in oxidative processes in fruits. Food Chemistry Journal. 66: 401-436.
19. Sonni Alveez. (2002). Importance of minerals and trace minerals in human nutrition. Food and Chemical Toxicology.47:513-520
20. Thimmaiah Sk. (1999). Standard methods of Biochemical Analysis. Kalyani publishers, New Delhi. 534.
21. Vijaya kumari B, Kiranmayi P and Vengaiah PC (2014). Physicochemical and Functional characteristics of Powder prepared from Palmyrah fruit pulp (Borassus flabellifer-L). International Journal of Current Microbiology and Applied Sciences.3:353-356.
22. Vijaya kumari B, Kiranmayi P and Vengaiah PC (2015). Qualitative Pytochemical Screening, GC-MS analysis and antibacterial activity of Palmyrah fruit pulp (Borassus flabellifer-L). International Journal of Pharma and Bio Sciences. 3:430-435.
23. Vijaya kumari B, Kiranmayi P and Vengaiah PC (2016). Estimation of Vitamins, Minerals and Amino acids in Palmyrah Palm (Borassus flabellifer-L) Fruit pulp. International Research Journal of Pharmacy. 6:70-73.
24. Young VR and Pellet PL. (1994). Plant proteins in relation to human protein and amino acid nutrition. American Journal of Clinical Nutrition. 59: 1203-1212.