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EFFECT OF DIET ON FATTY ACID COMPOSITION OF FRESHWATER SNAIL Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)

Yıl 2010, Cilt: 6 Sayı: 1, 45 - 52, 01.03.2010

Öz

Anatolian fauna contains a lot of freshwater snail species. Most of them are endemic to Anatolia. There aren’t enough detailed studies on biochemical structures of freshwater snail in Turkey. In this study, it is aimed that what are the effects of algae on lipid contents and fatty acid composition of freshwater snail. Total body lipids of Theodoxus syriacus, collected from Sultanköy (Mardin) spring water, were fractionated by thin layer chromatography. Total lipid, phospholipid and neutral lipid of the snail and snail food lipid were analyzed by capillary gas chromatography and gas chromatography-mass spectrometry. In the analyses, among saturated fatty acids C10:0 (capric), C12:0 (lauric), C14:0 (myristic), C15:0 (pentadecanoic), C16:0 (palmitic), C17:0 (heptadecanoic), C18:0 (stearic); among monounsaturated fatty acids C16:1ω7 (palmitoleic), C18:1ω9 (oleic), C20:1ω9 (eicosenoic) and among polyunsaturated fatty acids C18:2ω6 (linoleic), C18:3ω3 (α-linolenic), C20:2ω6 (eicosadienoic), C20:4ω6 (arachidonic) and C20:5ω3 (eicosapentaenoic) acids were obtained. In all analyses, C16:0 and C18:1ω9 acids were found as major components. Some proportional differences were observed among fatty acids of phospholipid, neutral, total and algal lipids. Major fatty acids were similar both in snail and its diet.

Kaynakça

  • Ekman, S., ‘‘Zoogeography of the Sea’’, Plenum Pres, London, 417 p., (1953).
  • Ackman, R.G., Hooper, S.N., Non- methylene-interrupted fatty acids in lipids of shallow water marine invertebrates: a comparison of two molluscs with the sand shrimp. Comp. Biochem. Physiol., 46B: 153-165, (1973).
  • Johns, R.B., Nichols, P.D., Perry G.J., Fatty acid components of nine species of molluscs of the littoral zone from Australian waters. Comp. Biochem. Physiol., 65B: 207-214, (1980).
  • Alimova, E.K., Astvatzatur’an, A.T., Zharov, L.B., Lipids and fatty acids in normal and some pathological states. In Medicine (Ed. by Levachev M.M.), Meditsina, Moscow. 280 p., (1975).
  • Wennmalm, A., Vasodilatory action of arachidonic acid in human following indomethacin treatment. Prostaglandins, 13: 809-810 (1977).
  • Rudin, D.O., The dominant diseases of modernized societies as omega-3 essential fatty acid deficiency syndrome: substrate beri - beri. Med Hypotheses 8: 17-47, (1982). Dembitsky, V.M., Alkoxylipids of marine invertebrates. Z. Evo. Biochem. Physiol. Leningrad, 21; 70-76, (1985).
  • Ackman, R.G, ‘‘Fatty acids in Marine Biogenic Lipids, Fats and Oils’’ (Edited by Ackman, R.G.), 1, CRC press, Boca Raton, Florida, 103-137 p., (1989).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Comparative study of the endemic freshwater fauna of lake Baikal-IV. Phospholipids and fatty acid composition of two gastropod molluscs of the genus Valvata. Comp. Biochem. Physiol., 107B: 325-330, (1994).
  • Fried, B., Rao, S.K., Sherma, J., Fatty acid composition of Biomphalaria glabrata (Gastropoda: Planorbidae) fed hen’s egg yolk versus leaf lettuce. Comp. Biochem. Physiol. 101A: 351-352, (1992a).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Comparative study of the endemic freshwater fauna of Lake Baikal-Ι. Phospholipids and fatty acid composition of two mollusc species, Baicalia oviformis and Biochem. Physiol., 106B (4): 819-823, (1993a).
  • Go, J.V., Rezanka, T., Srebnik, M., Dembitsky, V.M., Variability of fatty acid component of marine and freshwater gastropod species from the littoral zone of the Red Sea, Mediterranean Sea and Sea of Galilee, Biochem. Syst. and Ecol., 30: 819-835, (2002).
  • Schütt, H., Şeşen, R., Theodoxus in South- Eastern Anatolia, TURKEY (Gastropoda: Prosobranchia, Neritidae), Basteria 53: 39- 46 p., (1989).
  • Bligh, E.G., Dyer, W.J., A rapid method of total lipid extraction and purification. Can. J. of Biochem. and Physiol., 37: 911-917, (1959).
  • Stanley-Samuelson, D.W., Dadd, R.H., Long chain polyunsaturated fatty acids: Patterns of occurrence in insects. Biochemistry, 13: 549-558, (1983).
  • Fried, B., Rao, K.S., Sherma, J., Fatty acid composition of two strains of Helisoma 51 trivolis (Gastropoda). Biochem. Syts. and Ecol., 20 (6): 553-557, (1992b).
  • Thompson, S.N., A review and comparative characterization of the fatty acid compositions of seven insect orders. Comp. Biochem. Physiol., 45B; 467-482, (1973).
  • Spike, B.P., Wright, R.J., Danielson, S.D., Stanley-Samuelson, D.W., The fatty acid compositions of phospholipids and triacylglycerols, from two chinch bug species Blissus leucopterus leucopterus and B. iowensis (Insecta; Hemiptera; Lygaeidae) are similar to the characteristic dipteran pattern, Comp. Biochem. Physiol., 99B: 799-802, (1991).
  • Kharlamenko, V.I., Zhukova, N.V., Khotimchenko, S.V., Svetashev, V.I., Kamenev, G.M., Fatty acids as markers of food sources in a shallow water hydrothermal ecosystem (Kraternaya Bight, Yankich Island, Kurile Islands), Mar. Ecol. Prog. Ser., 120: 231-241, (1995).
  • Ueda, T., Changes in the fatty acids composition of short neck clam with reference to environmental mud temperature, Bull. Jap. Soc. Sci. Fish., 40: 949-957, (1974).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Fatty acid and phospholipids composition of freshwater molluscs Anadonta piscinalis and Limnaea fragilis from the River Volga, Comp. Biochem. Physiol., 105B 3(4): 597-601, (1993b).
  • Dembitsky, V.M., Kashin, A.G., Stefanow, K., Comparative investigation of phospholipids and fatty acids of freshwater molluscs from Volga River Basin, Comp. Biochem. Physiol., 102B (1): 193-198, (1992).
  • Stanley, D.W., Howard, R.W., The biology of prostaglandins and related eicosanoids in invertebrates: Cellular organismal and ecological actions, Am. Zool. 38: 369-381, (1998).
  • Logue, J.A., Howell, B.R., Bell, J.G., Cossins, A.R., Dietary n-3 long-chain polyunsaturated fatty acids deprivation, tissue lipid composition, ex vivo prostaglandin production and stress tolerance in juvenile (Solea solea L.), Lipids, 35: 745-755, (2000).
  • Nichols, D.S., Olley, J., Garda H., Brenner, R.R., McMeekin, T.A, Effect of temperature and salinity stress on growth and lipid composition of Shewanella gelidimarina. Microbial., 66: 2422-2429, (2000).
  • Ahlgren, G., Gustafsson, B.I., Boberg, M., Fatty acid content and chemical composition of freshwater microalgae, J. Phycol., 28: 37-50, (1992).
  • Zhukova, N.V., The pathway of the biosynthesis of non-methylene-interrupted dienoic fatty acids in molluscs, Comp. Biochem. Physiol., 110B: 801-804, (1991).
  • Abad, M., Ruiz, C., Martinez, D., Mosquera, G., Sanchez, J.L., Seasonal variation of lipid classes and fatty acids in flat oyster Ostrea edulis from San Cibrian (Galicia, SPAIN), Comp. Biochem. Physiol., 110C (2): 109-118, (1995).
  • Pazos, J.A., Sanchez, L.J., Roman, G., Perez-Parelle, M.L., Abad, M., Seasonal changes in lipid classes and fatty acids composition in digestive gland of Pecten maximus, Comp. Biochem. Physiol., 134B: 367-380, (2003).
  • Pollero, R.J., Irazu, C.E., Brenner, R.R., Effect of sexual stage on lipids and fatty acids of Diplodon delodontus, Comp. Biochem. Physiol., 76B: 927-931, (1983).
  • Fried, B., Rao, K.S., Sherma, J., Huffmani, J.E., Fatty acid composition of Goniobasis virginica, Physa sp. and Viviparus malleatus (Mollusca: Gastropoda) from lake Musconetcong, New Jersey, Biochem. Syst. and Ecol., 21(8): 809-812, (1993).
  • Geliş Tarihi: 26/01/2010
  • Kabul Tarihi: 12/05/2010

TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ

Yıl 2010, Cilt: 6 Sayı: 1, 45 - 52, 01.03.2010

Öz

Anadolu faunası çok sayıda tatlısu salyangozu barındırmaktadır. Bu türlerin birçoğu Anadolu için endemiktir. Yurdumuzdaki tatlısu salyangozlarının biyokimyasal yapıları ile ilgili detaylı çalışmalar yapılmamıştır. Bu çalışmada, Alglerin tatlısu salyangozlarının lipit içerikleri ve yağ asiti bileşimi üzerine etkilerinin araştırılması amaçlanmıştır. Mardin’nin Sultanköy Köyü kaynak sularından toplanan T. syriacus’un total vücut lipitleri; ince tabaka kromatografi ile fraksiyonlandı. Salyangozun total lipiti, fosfolipit ve nötral lipit fraksiyonları ile besinini oluşturan tatlısu alglerinin yağ asitleri gaz kromatografi ve gaz kromatografi-kütle spektrometre ile analizlendi. Analizlerde, doymuş yağ asitlerinden C10:0 (kaprik), C12:0 (laurik), C14:0 (miristik), C15:0 (pentadekanoik), C16:0 (palmitik), C17:0 (margarik), C18:0 (stearik); tekli doymamış yağ asitlerinden C16:1ω7 (palmitoleik), C18:1ω9 (oleik), C20:1ω9 (eikosenoik) ve çoklu doymamış yağ asitlerinden C18:2ω6 (linoleik), C18:3ω3 (α-linolenik), C20:2ω6 (eikosadienoik), C20:4ω6 (araşidonik), C20:5ω3 (eikosapentaenoik) asitler saptandı. Tüm analizlerde, yüzde dağılımda C16:0 ile C18:1ω9 asitler major bileşenler olarak bulundu. Fosfolipit, nötral, total ve besin lipitlerindeki yağ asitlerinin yüzde içeriğinde bazı farklılıklar saptandı. Salyangoz ile besinindeki major yağ asitlerinin benzer olduğu görüldü. 

Kaynakça

  • Ekman, S., ‘‘Zoogeography of the Sea’’, Plenum Pres, London, 417 p., (1953).
  • Ackman, R.G., Hooper, S.N., Non- methylene-interrupted fatty acids in lipids of shallow water marine invertebrates: a comparison of two molluscs with the sand shrimp. Comp. Biochem. Physiol., 46B: 153-165, (1973).
  • Johns, R.B., Nichols, P.D., Perry G.J., Fatty acid components of nine species of molluscs of the littoral zone from Australian waters. Comp. Biochem. Physiol., 65B: 207-214, (1980).
  • Alimova, E.K., Astvatzatur’an, A.T., Zharov, L.B., Lipids and fatty acids in normal and some pathological states. In Medicine (Ed. by Levachev M.M.), Meditsina, Moscow. 280 p., (1975).
  • Wennmalm, A., Vasodilatory action of arachidonic acid in human following indomethacin treatment. Prostaglandins, 13: 809-810 (1977).
  • Rudin, D.O., The dominant diseases of modernized societies as omega-3 essential fatty acid deficiency syndrome: substrate beri - beri. Med Hypotheses 8: 17-47, (1982). Dembitsky, V.M., Alkoxylipids of marine invertebrates. Z. Evo. Biochem. Physiol. Leningrad, 21; 70-76, (1985).
  • Ackman, R.G, ‘‘Fatty acids in Marine Biogenic Lipids, Fats and Oils’’ (Edited by Ackman, R.G.), 1, CRC press, Boca Raton, Florida, 103-137 p., (1989).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Comparative study of the endemic freshwater fauna of lake Baikal-IV. Phospholipids and fatty acid composition of two gastropod molluscs of the genus Valvata. Comp. Biochem. Physiol., 107B: 325-330, (1994).
  • Fried, B., Rao, S.K., Sherma, J., Fatty acid composition of Biomphalaria glabrata (Gastropoda: Planorbidae) fed hen’s egg yolk versus leaf lettuce. Comp. Biochem. Physiol. 101A: 351-352, (1992a).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Comparative study of the endemic freshwater fauna of Lake Baikal-Ι. Phospholipids and fatty acid composition of two mollusc species, Baicalia oviformis and Biochem. Physiol., 106B (4): 819-823, (1993a).
  • Go, J.V., Rezanka, T., Srebnik, M., Dembitsky, V.M., Variability of fatty acid component of marine and freshwater gastropod species from the littoral zone of the Red Sea, Mediterranean Sea and Sea of Galilee, Biochem. Syst. and Ecol., 30: 819-835, (2002).
  • Schütt, H., Şeşen, R., Theodoxus in South- Eastern Anatolia, TURKEY (Gastropoda: Prosobranchia, Neritidae), Basteria 53: 39- 46 p., (1989).
  • Bligh, E.G., Dyer, W.J., A rapid method of total lipid extraction and purification. Can. J. of Biochem. and Physiol., 37: 911-917, (1959).
  • Stanley-Samuelson, D.W., Dadd, R.H., Long chain polyunsaturated fatty acids: Patterns of occurrence in insects. Biochemistry, 13: 549-558, (1983).
  • Fried, B., Rao, K.S., Sherma, J., Fatty acid composition of two strains of Helisoma 51 trivolis (Gastropoda). Biochem. Syts. and Ecol., 20 (6): 553-557, (1992b).
  • Thompson, S.N., A review and comparative characterization of the fatty acid compositions of seven insect orders. Comp. Biochem. Physiol., 45B; 467-482, (1973).
  • Spike, B.P., Wright, R.J., Danielson, S.D., Stanley-Samuelson, D.W., The fatty acid compositions of phospholipids and triacylglycerols, from two chinch bug species Blissus leucopterus leucopterus and B. iowensis (Insecta; Hemiptera; Lygaeidae) are similar to the characteristic dipteran pattern, Comp. Biochem. Physiol., 99B: 799-802, (1991).
  • Kharlamenko, V.I., Zhukova, N.V., Khotimchenko, S.V., Svetashev, V.I., Kamenev, G.M., Fatty acids as markers of food sources in a shallow water hydrothermal ecosystem (Kraternaya Bight, Yankich Island, Kurile Islands), Mar. Ecol. Prog. Ser., 120: 231-241, (1995).
  • Ueda, T., Changes in the fatty acids composition of short neck clam with reference to environmental mud temperature, Bull. Jap. Soc. Sci. Fish., 40: 949-957, (1974).
  • Dembitsky, V.M., Rezanka, T., Kashin, A.G., Fatty acid and phospholipids composition of freshwater molluscs Anadonta piscinalis and Limnaea fragilis from the River Volga, Comp. Biochem. Physiol., 105B 3(4): 597-601, (1993b).
  • Dembitsky, V.M., Kashin, A.G., Stefanow, K., Comparative investigation of phospholipids and fatty acids of freshwater molluscs from Volga River Basin, Comp. Biochem. Physiol., 102B (1): 193-198, (1992).
  • Stanley, D.W., Howard, R.W., The biology of prostaglandins and related eicosanoids in invertebrates: Cellular organismal and ecological actions, Am. Zool. 38: 369-381, (1998).
  • Logue, J.A., Howell, B.R., Bell, J.G., Cossins, A.R., Dietary n-3 long-chain polyunsaturated fatty acids deprivation, tissue lipid composition, ex vivo prostaglandin production and stress tolerance in juvenile (Solea solea L.), Lipids, 35: 745-755, (2000).
  • Nichols, D.S., Olley, J., Garda H., Brenner, R.R., McMeekin, T.A, Effect of temperature and salinity stress on growth and lipid composition of Shewanella gelidimarina. Microbial., 66: 2422-2429, (2000).
  • Ahlgren, G., Gustafsson, B.I., Boberg, M., Fatty acid content and chemical composition of freshwater microalgae, J. Phycol., 28: 37-50, (1992).
  • Zhukova, N.V., The pathway of the biosynthesis of non-methylene-interrupted dienoic fatty acids in molluscs, Comp. Biochem. Physiol., 110B: 801-804, (1991).
  • Abad, M., Ruiz, C., Martinez, D., Mosquera, G., Sanchez, J.L., Seasonal variation of lipid classes and fatty acids in flat oyster Ostrea edulis from San Cibrian (Galicia, SPAIN), Comp. Biochem. Physiol., 110C (2): 109-118, (1995).
  • Pazos, J.A., Sanchez, L.J., Roman, G., Perez-Parelle, M.L., Abad, M., Seasonal changes in lipid classes and fatty acids composition in digestive gland of Pecten maximus, Comp. Biochem. Physiol., 134B: 367-380, (2003).
  • Pollero, R.J., Irazu, C.E., Brenner, R.R., Effect of sexual stage on lipids and fatty acids of Diplodon delodontus, Comp. Biochem. Physiol., 76B: 927-931, (1983).
  • Fried, B., Rao, K.S., Sherma, J., Huffmani, J.E., Fatty acid composition of Goniobasis virginica, Physa sp. and Viviparus malleatus (Mollusca: Gastropoda) from lake Musconetcong, New Jersey, Biochem. Syst. and Ecol., 21(8): 809-812, (1993).
  • Geliş Tarihi: 26/01/2010
  • Kabul Tarihi: 12/05/2010
Toplam 32 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

İhsan Ekin

Mehmet Başhan Bu kişi benim

Yayımlanma Tarihi 1 Mart 2010
Yayımlandığı Sayı Yıl 2010 Cilt: 6 Sayı: 1

Kaynak Göster

APA Ekin, İ., & Başhan, M. (2010). TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, 6(1), 45-52.
AMA Ekin İ, Başhan M. TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ. CBUJOS. Mart 2010;6(1):45-52.
Chicago Ekin, İhsan, ve Mehmet Başhan. “TATLISU SALYANGOZU Theodoxus Syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 6, sy. 1 (Mart 2010): 45-52.
EndNote Ekin İ, Başhan M (01 Mart 2010) TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 6 1 45–52.
IEEE İ. Ekin ve M. Başhan, “TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ”, CBUJOS, c. 6, sy. 1, ss. 45–52, 2010.
ISNAD Ekin, İhsan - Başhan, Mehmet. “TATLISU SALYANGOZU Theodoxus Syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 6/1 (Mart 2010), 45-52.
JAMA Ekin İ, Başhan M. TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ. CBUJOS. 2010;6:45–52.
MLA Ekin, İhsan ve Mehmet Başhan. “TATLISU SALYANGOZU Theodoxus Syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, c. 6, sy. 1, 2010, ss. 45-52.
Vancouver Ekin İ, Başhan M. TATLISU SALYANGOZU Theodoxus syriacus (BOURGUIGNAT, 1853) (GASTROPODA: PROSOBRANCHIA)’un YAĞ ASİTİ BİLEŞİMİNE BESİNİN ETKİSİ. CBUJOS. 2010;6(1):45-52.