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PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI

Year 2017, Volume: 42 Issue: 5, 568 - 576, 25.07.2017

Abstract

Bu çalışmada taze enginar (gövde, tabla ve yenilebilir yaprak) ile konserve
enginar endüstrisinde çıkan atığın pektin içerikleri incelenmiştir. En yüksek
pektin içeriği % 6.42 olarak taze enginarin gövde kısmında bulunmuştur. Pektin
içeriğine ek olarak en yüksek anhidrogalakturonik asit ve anhidrouronik asit
miktarları da gövde kısmında bulunmuştur. Tabla ve yenilebilir yaprak kısımlarında
ise pektin verimi sırasıyla % 5.31 ve % 4.55 olarak bulunmuştur. En düşük
pektin verimi % 4.43 ile endüstriyel atıktan elde edilmiştir. En yüksek kül
içeriğine (% 5.65) ek olarak en düşük anhidrouronik asit miktarı (% 73.28) en
yüksek safsızlığın endüstriyel atık suyunda olduğunu göstermektedir. Gövde,
tabla ve yenilebilir yaprak kısımlarındaki esterleşme derecesi sırasıyla %
55.26, % 52.26 ve % 56.71 olarak elde edilmiştir. Bu yüzdeler yüksek metil
esterleşmiş pektin olduğunu göstermektedir. % 46.02 ile en düşük esterleşme
derecesi endüstriyel atıktan elde edilmiştir. FTIR sonuçlarına göre asit
prosesiyle pektinin yapısal özelliklerinin değiştiği ve endüstriyel atıklarda
daha yüksek metoksil içeriği ve daha yüksek esterleşme derecesi elde edildiği
gözlenmiştir.

References

  • May, C.D. (1990). Industrial Pectins: Sources, Production and Applications. Carbohydr Polym, 12: 79-99.
  • Thakur, B.R, Singh, R.K, Handa, A.K, Rao, M.A. (1997). Chemistry and uses of pectin - a review. Crit Rev Food Sci Nutr, 37(1): 47-73.
  • Lattanzio, V., Kroon, P.A., Linsalata, V., Cardinali, A. (2009). Globe artichoke: a functional food and source of nutraceutical ingredients. J Funct Foods, 1: 131-144.
  • Baker, R.A. (1997). Reassessment of some fruit and vegetable pectin levels. J Food Sci, 62: 225-229.
  • Elwell, W.E, Dehn, W.M. (1939). Pectic content of plant materials. Plant Physiol, 14 (4): 809-816.
  • Liu, S., Shi, X., Xu, L., Yi, Y. (2016). Optimization of pectin extraction and antioxidant activities from Jerusalem artichoke. Chin J Oceanol Limnol, 34(2): 372-381.
  • Khan, I.A., Abourashed, E.A. (2010). Leung's encyclopedia of common natural ingredients - used in food, drugs, and cosmetics. 3rd Edition, John Wiley & Sons, Inc., Hoboken, 45-48 p.
  • Fratianni, F., Tucci, M., De Palma, M., Pepe, R., Nazzaro, F. (2007). Polyphenolic composition in different parts of some cultivars of globe artichoke (Cynara cardunculus L. var. scolymus (L.) Fiori). Food Chem, 104: 1282-1286.
  • Orlovskaya, T.V, Luneva, I.L, Chelombit´ko, V.A. (2007). Carbohydrates from Cynara scolymus. Chem Nat Compd, 43 (1): 107-108.
  • Ranganna, S. (1986). Handbook of Analysis and Quality Control of Fruit and Vegetable Products. 2nd Edition, Tata McGraw-Hill Publishing Co Ltd., New Delhi, 31-65 p.
  • Attri, B.L., Maini, S.B. (1996). Pectin from galgal (Citrus pseudolimon Tan.) peel. Bioresour Technol, 55 (1): 89-91.
  • Kulkarni, S.G., Vijayanand, P. (2010). Effect of extraction conditions on the quality characteristics of pectin from passion fruit peel (Passiflora edulis f. flavicarpa L.). LWT- Food Sci Technol, 43(7): 1026-1031.
  • Pagán, J., Ibarz, A., Llorca, M., Pagán, A., Barbosa-Cánovas, G.V. (2001). Extraction and characterization of pectin from stored peach pomace. Food Res Int, 34(7): 605-612.
  • Phatak, L., Chang, K.C., Brown, G. (1988). Isolation and characterization of pectin in sugar-beet pulp. J Food Sci, 53(3): 830-833.
  • Seggiani, M., Puccini, M., Pierini, M., Giovando, S., Forneris, C. (2009). Effect of different extraction and precipitation methods on yield and quality of pectin. Int J Food Sci Technol, 44 (3): 574-580.
  • Kumar, A., Chauhan, G.S. (2010). Extraction and characterization of pectin from apple pomace and its evaluation as lipase (steapsin) inhibitor. Carbohydr Polym, 82(2): 454-459.
  • Virk, B.S., Sogi, D.S. (2004). Extraction and characterization of pectin from apple (Malus pumila. cv amri) peel waste. Int J Food Prop, 7 (3): 693-703.
  • Madhav, A., Pushpalatha, P.B. (2002). Characterization of pectin extracted from different fruit wastes. Int J Trop Agric, 40: 53-55.
  • Ceylan, C., Severcan, F., Ozkul, A., Severcan, M., Bozoglu, F., Taheri, N. (2012). Biophysical and microbiological study of high hydrostatic pressure inactivation of Bovine Viral Diarrhea virus type 1 on serum. Vet Microbiol, 154: 266-271.
  • Movasaghi, Z., Rehman, S., Rehman, I. (2008). Fourier transform infrared spectroscopy (FTIR) of biological tissues. Appl Spectrosc Rev, 43: 134-179.
  • Maréchal, Y., Chanzy, H. (2000). The hydrogen bond network in Iβ cellulose as observed by infrared spectrometry. J Mol Struct, 523: 183-196.
  • Mohammed-Ziegler, I., Billes, F. (2002). Vibrational spectroscopic calculations on pyrogallol and gallic acid. J Mol Struct : THEOCHEM, 618: 259-265.
  • Schultz, H., Baranska, M. (2007). Identification and qualification of valuable plant substances by IR and Raman spectroscopy. Vib Spectrosc, 43: 13-25.
  • Shetty, G., Kedall, C., Shepherd, N., Stone, N., Barr, H. (2006). Raman spectroscopy: evaluation of biochemical changes in carcinogenesis of oesophagus. Br J Cancer, 94: 1460-1464.
  • Gnanasambandam, R., Proctor, A. (2000). Determination of pectin degree of esterification by diffuse reflectance Fourier transform infrared spectroscopy. Food Chem, 68: 327-332.

EXTRACTION AND CHARACTERIZATION OF PECTIN FROM FRESH GLOBE ARTICHOKE AND CANNED ARTICHOKE WASTE

Year 2017, Volume: 42 Issue: 5, 568 - 576, 25.07.2017

Abstract

The
pectin contents of fresh globe artichoke (stem, receptacle, and bract) and
waste of artichoke canning industry were investigated. The highest pectin amount
was found in the stem part of fresh globe artichoke (6.42%) with the highest
amount of anhydrogalacturonic acid (AGA) and anhydrouronic acid (AUA) content.
The pectin yields of receptacle and bract parts were found to be 5.31 and 4.55%,
respectively. The pectin yield from the industrial waste was the lowest, 4.43%.
The highest ash content (5.65 %) along with the lowest anhydrouronic acid
amount (73.28%) indicated the lowest purity for the industrial waste. The
degrees of esterification for the pectin obtained from the stem, receptacle and
bract parts were 55.26%, 52.26%, and 56.17%, respectively indicating the
presence of high methyl-esterified (HM) pectin. The pectin from the industrial
waste had the lowest degree of esterification (46.02%). The FTIR results
indicated that acid processing affected the structural properties of pectin
from the industrial waste with higher methoxyl content and esterification
degree. 

References

  • May, C.D. (1990). Industrial Pectins: Sources, Production and Applications. Carbohydr Polym, 12: 79-99.
  • Thakur, B.R, Singh, R.K, Handa, A.K, Rao, M.A. (1997). Chemistry and uses of pectin - a review. Crit Rev Food Sci Nutr, 37(1): 47-73.
  • Lattanzio, V., Kroon, P.A., Linsalata, V., Cardinali, A. (2009). Globe artichoke: a functional food and source of nutraceutical ingredients. J Funct Foods, 1: 131-144.
  • Baker, R.A. (1997). Reassessment of some fruit and vegetable pectin levels. J Food Sci, 62: 225-229.
  • Elwell, W.E, Dehn, W.M. (1939). Pectic content of plant materials. Plant Physiol, 14 (4): 809-816.
  • Liu, S., Shi, X., Xu, L., Yi, Y. (2016). Optimization of pectin extraction and antioxidant activities from Jerusalem artichoke. Chin J Oceanol Limnol, 34(2): 372-381.
  • Khan, I.A., Abourashed, E.A. (2010). Leung's encyclopedia of common natural ingredients - used in food, drugs, and cosmetics. 3rd Edition, John Wiley & Sons, Inc., Hoboken, 45-48 p.
  • Fratianni, F., Tucci, M., De Palma, M., Pepe, R., Nazzaro, F. (2007). Polyphenolic composition in different parts of some cultivars of globe artichoke (Cynara cardunculus L. var. scolymus (L.) Fiori). Food Chem, 104: 1282-1286.
  • Orlovskaya, T.V, Luneva, I.L, Chelombit´ko, V.A. (2007). Carbohydrates from Cynara scolymus. Chem Nat Compd, 43 (1): 107-108.
  • Ranganna, S. (1986). Handbook of Analysis and Quality Control of Fruit and Vegetable Products. 2nd Edition, Tata McGraw-Hill Publishing Co Ltd., New Delhi, 31-65 p.
  • Attri, B.L., Maini, S.B. (1996). Pectin from galgal (Citrus pseudolimon Tan.) peel. Bioresour Technol, 55 (1): 89-91.
  • Kulkarni, S.G., Vijayanand, P. (2010). Effect of extraction conditions on the quality characteristics of pectin from passion fruit peel (Passiflora edulis f. flavicarpa L.). LWT- Food Sci Technol, 43(7): 1026-1031.
  • Pagán, J., Ibarz, A., Llorca, M., Pagán, A., Barbosa-Cánovas, G.V. (2001). Extraction and characterization of pectin from stored peach pomace. Food Res Int, 34(7): 605-612.
  • Phatak, L., Chang, K.C., Brown, G. (1988). Isolation and characterization of pectin in sugar-beet pulp. J Food Sci, 53(3): 830-833.
  • Seggiani, M., Puccini, M., Pierini, M., Giovando, S., Forneris, C. (2009). Effect of different extraction and precipitation methods on yield and quality of pectin. Int J Food Sci Technol, 44 (3): 574-580.
  • Kumar, A., Chauhan, G.S. (2010). Extraction and characterization of pectin from apple pomace and its evaluation as lipase (steapsin) inhibitor. Carbohydr Polym, 82(2): 454-459.
  • Virk, B.S., Sogi, D.S. (2004). Extraction and characterization of pectin from apple (Malus pumila. cv amri) peel waste. Int J Food Prop, 7 (3): 693-703.
  • Madhav, A., Pushpalatha, P.B. (2002). Characterization of pectin extracted from different fruit wastes. Int J Trop Agric, 40: 53-55.
  • Ceylan, C., Severcan, F., Ozkul, A., Severcan, M., Bozoglu, F., Taheri, N. (2012). Biophysical and microbiological study of high hydrostatic pressure inactivation of Bovine Viral Diarrhea virus type 1 on serum. Vet Microbiol, 154: 266-271.
  • Movasaghi, Z., Rehman, S., Rehman, I. (2008). Fourier transform infrared spectroscopy (FTIR) of biological tissues. Appl Spectrosc Rev, 43: 134-179.
  • Maréchal, Y., Chanzy, H. (2000). The hydrogen bond network in Iβ cellulose as observed by infrared spectrometry. J Mol Struct, 523: 183-196.
  • Mohammed-Ziegler, I., Billes, F. (2002). Vibrational spectroscopic calculations on pyrogallol and gallic acid. J Mol Struct : THEOCHEM, 618: 259-265.
  • Schultz, H., Baranska, M. (2007). Identification and qualification of valuable plant substances by IR and Raman spectroscopy. Vib Spectrosc, 43: 13-25.
  • Shetty, G., Kedall, C., Shepherd, N., Stone, N., Barr, H. (2006). Raman spectroscopy: evaluation of biochemical changes in carcinogenesis of oesophagus. Br J Cancer, 94: 1460-1464.
  • Gnanasambandam, R., Proctor, A. (2000). Determination of pectin degree of esterification by diffuse reflectance Fourier transform infrared spectroscopy. Food Chem, 68: 327-332.
There are 25 citations in total.

Details

Journal Section Articles
Authors

Cagatay Ceylan

Oguz Bayraktar This is me

Erhan Atci This is me

Şahin Sarrafi This is me

Publication Date July 25, 2017
Published in Issue Year 2017 Volume: 42 Issue: 5

Cite

APA Ceylan, C., Bayraktar, O., Atci, E., Sarrafi, Ş. (2017). PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI. Gıda, 42(5), 568-576.
AMA Ceylan C, Bayraktar O, Atci E, Sarrafi Ş. PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI. The Journal of Food. October 2017;42(5):568-576.
Chicago Ceylan, Cagatay, Oguz Bayraktar, Erhan Atci, and Şahin Sarrafi. “PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI”. Gıda 42, no. 5 (October 2017): 568-76.
EndNote Ceylan C, Bayraktar O, Atci E, Sarrafi Ş (October 1, 2017) PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI. Gıda 42 5 568–576.
IEEE C. Ceylan, O. Bayraktar, E. Atci, and Ş. Sarrafi, “PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI”, The Journal of Food, vol. 42, no. 5, pp. 568–576, 2017.
ISNAD Ceylan, Cagatay et al. “PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI”. Gıda 42/5 (October 2017), 568-576.
JAMA Ceylan C, Bayraktar O, Atci E, Sarrafi Ş. PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI. The Journal of Food. 2017;42:568–576.
MLA Ceylan, Cagatay et al. “PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI”. Gıda, vol. 42, no. 5, 2017, pp. 568-76.
Vancouver Ceylan C, Bayraktar O, Atci E, Sarrafi Ş. PEKTİN KAYNAĞI OLARAK TAZE BÜTÜN ENGİNAR VE ENGİNAR KONSERVE ATIĞI. The Journal of Food. 2017;42(5):568-76.

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