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Antifriz proteinler

Year 2007, Volume: 18 Issue: 1-2, 27 - 32, 01.12.2007

Gizem Işıl Bektaş Arif Altıntaş

Abstract

İlk kez Antartik sularda yaşayan Notothenioid’lerde varlığı gösterilen Antifriz proteinler (AFGP ve AFP) her biri üç amino asitlik bir peptid zincirinin üçüncü amino asidine kovalan bağlarla bağlanmış bir disakkarit molekülünden oluşan birimlerin (alanin-alanin-threonin-galaktozil-N-asetilgalaktozamin)n tekrarlanması ile meydana gelen bir glikopeptid yapıdadır. Bu glikopeptidler balığın derisinden vücuda giren ufacık buz kristallerine hidroksil grupları (-OH), diğer polar grupları ve amino asit zincirlerindeki karbonil (=C=O) grupları ile tutunup, kristallerin büyümesini önleyerek canlıyı donmaya karşı korumaktadır. Antifriz proteinlerin tripsinojen genin birtakım çoğalmaları sonucunda oluştuğu ve karaciğer ve deri kaynaklı olabileceği, antifriz protein ailesinin bitki ve böcek tipine ek olarak 5 tip proteini kapsadığı saptanmıştır. Günümüzde bu proteinler tıp, gıda ve endüstri alanlarında etkin biçimde kullanılmaktadır.

Keywords

Etlik veterinerlik Mikrobiyoloji Dergisi Antifriz Protein Gizem Işıl BEKTAŞ Arif ALTINTAŞ 2007

References

  • Crevel R.W.R, Fedyk J.K, Spurgeon M.J. (2002). Antifreeze proteins: characteristics, occurrence and human exposure (Review). Food and Chemical Toxicology 20, 899-903.
  • Eastman J.T, Devries A.L. (1986), Olağan Dışı Yaşam-lar TÜBİTAK, Mart 1999 .
  • Sıdell B.D. (2000) School of Marine Sciences, University of Maine, Orono ME Gravitational and Space Biology Bulletin 13(2).
  • De Vries A.L., Komatsu S.K., Feeney R.E. (1970). Chemical and physical properties of freezing point-depressing glycoproteins from Antarctic fishes. J Biol Chem. 245:11, 2901-8.
  • Chen L, De Vries A.L. (1997) Evolution of antifreeze glycoprotein gene from a trypsinogen gene in Antarctic notothenioid fish. Proc. Natl. Acad. Sci. USA Vol. 94, pp. 3811-3816, April 1997,Evolution.
  • Fletcher G.L., Hew C.L., Davies P.L. (2001). Antifreeze Proteins of Teleost Fishes. Annu. Rev. Physiol. 63, 359–90.
  • Fletcher G.L, Goddard S.V, Wu Y. (1999). Antifreeze proteins and their genes: From basic research to business opportunity. American Chemical Society, Chemtech 30(6),17-28.
  • Duman J., Devrıes A.L. (1976). Isolation, characterization and physical properties of protein antifreezes from the Winter Flounder Pseudopleunectus Americanus. Comp. Biochem. Physiol. B54, 375–380.
  • Scotter A.J. (2006). The basis for hyperactivity of antifreeze proteins (Review). Cryobiology doi: 10.1016/j.cryobiol.2006.06.06.
  • Sıcheri F.,.Yang D.S, Nature 3755:427-431, 1995.
  • Ng N., Hew C. (1992). Structure of antifreeze polypeptide from sea raven: Disulfide bonds and similarity to lectin-binding proteins. J. Biol. Chem. 267 (23): 16069-16075.
  • Deng G., Andrews D.W., Laursen R.A. (1997). Amino acid sequence of a new type of antifreeze protein, from the longhorn sculpin Myoxocephalus octodecimspinosis. FEBS Lett. 402:1, 17-20.
  • Graham L. (1997). Hyperactive antifreeze protein from beetles. Nature 388, 727-728.
  • Duman J.G. (2001). Antifreeze and Ice Nucleator Proteins in Terrestrial Arthropods. Annu. Rev. Physiol. 63, 327–57.
  • Graham L., Davies P. (2005) Biophysical Journal Vol:88 (953-958).
  • Kuiper et al, (2001). A Theoretical Model of a Plant Antifreeze Protein from Lolium perenne, Biophysical Journal, Vol: 81, Sayı 6..
  • Grıffıth M., Yaısh M. (2004). Antifreeze proteins in overwintering plants: a tale of two activities. Trends in Plant Science 9:8, 399-405.
  • Grıffıth M. (1992). Antifreeze Protein Produced Endogenously in Winter Rye Leaves. Plant Physiology 100:2, 593-596.
  • Clarke C.J., Buckley S.L., Lindner N. (2002) Cryo Letters. Mar-Apr; 23(2):89-92.

Antifreeze Proteins

Year 2007, Volume: 18 Issue: 1-2, 27 - 32, 01.12.2007

Gizem Işıl Bektaş Arif Altıntaş

Abstract

Antifreeze proteins first found in the Notothenioid in Antartic ocean. The protein consist of a repeated glycopeptide, Ala-Ala-Thr-galactosyl-N-acetyl galactosamine. These glycopeptides made bond with hydroxyl (-OH) and carbonyl (=C=O) groups to the ice crystal to prevent freezing. While ice crystal was entering the skin antifreeze proteins bind to ice crystal, by this way crystal growth can be stopped. Evolution of antifreeze glycoprotein gene from a trypsinogen gene and origin from skin or liver. Antifreeze proteins family has 5 type of protein, plant and insect form. Nowadays antifreeze proteins are common used in foods, medical and industrial area.

References

  • Crevel R.W.R, Fedyk J.K, Spurgeon M.J. (2002). Antifreeze proteins: characteristics, occurrence and human exposure (Review). Food and Chemical Toxicology 20, 899-903.
  • Eastman J.T, Devries A.L. (1986), Olağan Dışı Yaşam-lar TÜBİTAK, Mart 1999 .
  • Sıdell B.D. (2000) School of Marine Sciences, University of Maine, Orono ME Gravitational and Space Biology Bulletin 13(2).
  • De Vries A.L., Komatsu S.K., Feeney R.E. (1970). Chemical and physical properties of freezing point-depressing glycoproteins from Antarctic fishes. J Biol Chem. 245:11, 2901-8.
  • Chen L, De Vries A.L. (1997) Evolution of antifreeze glycoprotein gene from a trypsinogen gene in Antarctic notothenioid fish. Proc. Natl. Acad. Sci. USA Vol. 94, pp. 3811-3816, April 1997,Evolution.
  • Fletcher G.L., Hew C.L., Davies P.L. (2001). Antifreeze Proteins of Teleost Fishes. Annu. Rev. Physiol. 63, 359–90.
  • Fletcher G.L, Goddard S.V, Wu Y. (1999). Antifreeze proteins and their genes: From basic research to business opportunity. American Chemical Society, Chemtech 30(6),17-28.
  • Duman J., Devrıes A.L. (1976). Isolation, characterization and physical properties of protein antifreezes from the Winter Flounder Pseudopleunectus Americanus. Comp. Biochem. Physiol. B54, 375–380.
  • Scotter A.J. (2006). The basis for hyperactivity of antifreeze proteins (Review). Cryobiology doi: 10.1016/j.cryobiol.2006.06.06.
  • Sıcheri F.,.Yang D.S, Nature 3755:427-431, 1995.
  • Ng N., Hew C. (1992). Structure of antifreeze polypeptide from sea raven: Disulfide bonds and similarity to lectin-binding proteins. J. Biol. Chem. 267 (23): 16069-16075.
  • Deng G., Andrews D.W., Laursen R.A. (1997). Amino acid sequence of a new type of antifreeze protein, from the longhorn sculpin Myoxocephalus octodecimspinosis. FEBS Lett. 402:1, 17-20.
  • Graham L. (1997). Hyperactive antifreeze protein from beetles. Nature 388, 727-728.
  • Duman J.G. (2001). Antifreeze and Ice Nucleator Proteins in Terrestrial Arthropods. Annu. Rev. Physiol. 63, 327–57.
  • Graham L., Davies P. (2005) Biophysical Journal Vol:88 (953-958).
  • Kuiper et al, (2001). A Theoretical Model of a Plant Antifreeze Protein from Lolium perenne, Biophysical Journal, Vol: 81, Sayı 6..
  • Grıffıth M., Yaısh M. (2004). Antifreeze proteins in overwintering plants: a tale of two activities. Trends in Plant Science 9:8, 399-405.
  • Grıffıth M. (1992). Antifreeze Protein Produced Endogenously in Winter Rye Leaves. Plant Physiology 100:2, 593-596.
  • Clarke C.J., Buckley S.L., Lindner N. (2002) Cryo Letters. Mar-Apr; 23(2):89-92.
There are 19 citations in total.

Details

Primary Language Turkish
Subjects Veterinary Surgery
Journal Section Original Article
Authors

Gizem Işıl Bektaş This is me

Arif Altıntaş This is me

Publication Date December 1, 2007
Submission Date December 1, 2007
Published in Issue Year 2007 Volume: 18 Issue: 1-2

Cite

APA Bektaş, G. I., & Altıntaş, A. (2007). Antifriz proteinler. Etlik Veteriner Mikrobiyoloji Dergisi, 18(1-2), 27-32.

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