SciELO - Scientific Electronic Library Online

 
vol.24 número2The effects of soluble salts at the metal/paint interface: advances in knowledgeElectrokinetic evaluation of the buffer capacity of soils índice de autoresíndice de assuntosPesquisa de artigos
Home Pagelista alfabética de periódicos  

Serviços Personalizados

Journal

Artigo

Indicadores

Links relacionados

  • Não possue artigos similaresSimilares em SciELO

Compartilhar


Portugaliae Electrochimica Acta

versão impressa ISSN 0872-1904

Port. Electrochim. Acta v.24 n.2 Coimbra  2006

 

A brief overview about the proteins and the processes responsible for the formation of the nativ-folded thioproteins in the pro-and eukaryotic cells

J. Kruusma,a A.M. Benham,b J.A.G. Williams,b R. Kataky b,*

 

a Institute of Physical Chemistry, University of Tartu, Jakobi 2, sTartu, 51014, Estonia

bThe Centre for Bioactive Chemistry, University of Durham, South Road,  Durham, DH1 4HT, U.K.

 

Abstract

This review was erected to describe briefly proteins and processes responsible for the formation of the nativ-folded thioproteins in the pro- and eukaryotic cells. This issue has a significant importance due to many dieases and misfunctions caused by misfolded enzymes having low or inactive structure.

This review contains also a short list of electrochemical methods for the detection and the quantification of the most important thioproteins.

Keywords: thiol proteins, electrochemistry, protein disulfide isomerase, eukaryotic cells.

 

Texto disponível em PDF

Full text only in PDF format

 

References

1. http://www.mathcell.ru/show_topic_en.php?file=end_sh

2. J. Rutishauser and M. Spiess, Swiss Med WKLY  132 (2002) 211.        [ Links ]

3. C. Hwang, A.J. Sinskey, H.F. Lodish, Science 257 (1992) 1496.

4. J. Qin, Y. Yang, A. Velyvis and A. Gronenborn, Antioxidants & Redox Signaling 2 (2000) 827.

5. S.J. Bannister, K.D. Wittrup, Biotechn. and Bioeng. 68 (2000) 389.

6. C. Hwang, A.J. Sinskey, H.F. Lodish, Science 257 (1992) 1496.

7. S. Carelli, A. Ceriotti, A. Cabibbo, G. Fassina, M. Ruvo and R. Sitia, Science 277 (1997) 1681.

8. A. Holmgren, Antioxidants & Redox Signaling 2 (2000) 811.

9. J.W. Cuozzo and C.A. Kaiser, Nature Cell Biology 1 (1999) 130.

10. F. Åslund, K.D. Berndt and A. Holmgren, J. Biol. Chem. 272 (1997) 30780.

11. M. Wunderlich and R. Glockshuber, Protein Science 2 (1993) 717.

12. N.J. Bulleid and R.B. Freedman, Nature 335 (1988) 649.

13. M.A. Kaderbhai and B.M. Austen, Eur. J. Biochem. 153 (1985) 167.

14. G. Scheele and R. Jacoby, J. Biol. Chem. 257 (1982) 12277.

15. G. Scheele and R. Jacoby, J. Biol. Chem. 258 (1983) 2005.

16. J. Martensson, J.C.K. Lai, A. Meister, Proc. Natl. Acad. Sci. U.S.A. 87 (1990) 7185.

17. N. Hayashib, N. Satob, T. Kamadab and K. Tagawa, Biochem. Biophys. Res. Commun. 167 (1990) 367.

18. R. Bass, L.W. Ruddock, P. Klappa and R.B. Freedman, J. Biol. Chem. 279 (2004) 5257.

19. L. Abello, A. Ensuque, G. Lapluye, J. Chim. Phys. 73 (1976) 268.

20. T.V. DeCollo and W.J. Lees, J. Org. Chem. 66 (2001) 4244.

21. J.H. Bushweller, F. Åslund, K. Wütrich F. Wütrich and A. Holmgren, Biochem. 31 (1992) 9288.

22. S.A. Gravina and J.J. Mieyal, Biochem. 32 (1993) 3368.

23. Y. Yang, S. Jiao, R.S. Nanduri, D.W. Starke, J. Mieyal and J. Qin, Biochem. 37 (1998) 17145.

24. N. Reckenfelderbäumer and R.L. Krauth-Siegel, J. Biol. Chem. 20 (2002) 17548.

25. A. Bonsignore, I. Lorenzoni, R. Cancedda, L. Silengo, D. Dina and A. De Flora, Ital. J. Biochem. 17 (1968) 346.

26. L.V. Eggleston and H.A. Krebs, Biochem. J. 138 (1974) 425.

27. L.K. Moran, J.M.C. Gutteridge and G.J. Quinlan, Current Medicinal Chemistry 8 (2001) 763.

28. P.C. Jocelyn, Eur. J. Biochem. 2 (1967) 327.

29. K. Linke and U. Jakob, Antioxidants & Redox Signaling 5 (2003) 425.

30. R. Boggess, J. Absher, S. Morelen, L.T. Taylor, J.W. Hughes, Inorg. Chem. 22 (1983) 1273.

31. A. Claiborne, J.I. Yeh, T.C. Mallet, J. Luba, E.J. Crane, V. Charrier and D. Parsonage, Biochem. 38 (1999) 15407.

32. J.A. Thomas and R. Mallis, Cellular Implications of Redox Signalling, Imperial College Press, London, 2003, 141.

33. J. Köhrle, R. Brigelius-Flohé, A. Böck, R. Gärtner, O. Meyer and L. Flohé, Biol. Chem. 381 (2000) 849.

34. T. Tamura, T.C. Stadtman, Proc. Natl. Acad. Sci. U.S.A. 93 (1996) 1006.

35. L. Zhong, E.S. Arner and A. Holmgren, Proc. Natl. Acad. Sci. U.S.A. 97 (2000) 5854.

36. C. Buettner, J.W. Harney and M.J. Berry, J. Biol. Chem. 274 (1999) 21598.

37. S.R. Lee, S. Bar-Noy, J. Kwon, R.L. Levine, T.C. Stadtman and S.G. Rhee, Proc. Natl. Acad. Sci. U.S.A. 97 (2000) 2521.

38. A. Nishiyama, H. Masutani, H. Nakamura, Y. Nishinaka and J. Yodoi,IUBMB Life 52 (2001) 29.

39. A. Holmgren, Ann. Rev. Biochem. 54 (1985) 237.

40.T.D. Lockwood, Antioxidants & Redox Signaling 2 (2000) 851.

41. H. Masutani and J. Yodoi, Methods Enzymol. 347 (2002) 279.

42. P.T. Chivers, K.E. Prehoda and R.T. Raines, Biochem. 36 (1997) 4061.

43. A. Holmgren, Eur. J. Biochem. 6 (1968) 475.

44. G. Krause and A. Holmgrem, J. Biol. Chem. 266 (1991) 4056.

45. T.-Y. Lin and P.S. Kim, Biochem. 28 (1989) 5282.

46. A. Zapun, J.C.A. Bardwell and T.E. Creighton, Biochem. 32 (1993) 5083.

47. E.A. Kersteen and R.T. Raines, Antioxidants & Redox Signaling 5 (2003) 413.

48. M. Wunderlich and R. Glockshuber, Protein Science 2 (1993) 717.

49. J. Yarimizu, H. Nakamura, J. Yodoi and K. Takahashi, Antioxidants & Redox Signaling 2 (2000) 643.

50. T. Tamura, T.C. Stadtman, Proc. Natl. Acad. Sci. U.S.A. 93 (1996) 1006.

51. L. Zhong, E.S. Arner and A. Holmgren, Proc. Natl. Acad. Sci. U.S.A. 97 (2000) 5854.

52. C. Buettner, J.W. Harney and M.J. Berry, J. Biol. Chem. 274 (1999) 21598.

53. L. Flohé, Signal Transduction by Reactive Oxygen, Kluwer Academic Publishers, Dordrecht, 2003, pp. 15-32.

54. M. Birringer, S. Pilawa and L. Flohé, Nat. Prot. Rep. 19 (2002) 693.

55. M. Bjørnstedt, S. Kumar and A. Holmgren, J. Biol. Chem. 267 (1992) 8030.

56. J. Kim and S.P. Mayfield, Science 278 (1997) 1954.

57. A. Hiniker and J.C.A. Bardwell, Trends in Biochem. Sci. 29 (2004) 516.

58. K.J. Woycechowsky and R.T. Raines, Current Opinion in Chemical Biology 4 (2000) 533.

59. D.M. Ferrari and H.-D. Söling, Biochem. J. 339 (1999) 1.

60. M. van Lith, N. Hartigan, J. Hatch and A.M. Benham, J. Biol. Chem. 280 (2005) 1376.

61. M.C.A. Laboissiere, S.L. Sturley and R.T. Raines, J. Biol. Chem. 270 (1995) 28006.

62. H.C. Hawkins and R.B. Freedman, Biochem. J. 275 (1991) 335.

63. M.-L. LaMantia and W.J. Lennarz, Cell 74 (1993) 899.

64. H.C. Hawkins, M. de Nardi and R.B. Freedman, Biochem. J. 275 (1991) 341.

65. B. Kleizen and I. Braakman, Current Opinion in Cell Biology 16 (2004) 343.

66. M. Bader, J.R. Winther and J.C.A. Bardwell, Nature Cell Biol. 1 (1999) E57.

67. A.R. Frand and C.A. Kaiser, Mol. Cell 1 (1998) 161.

68. R.B. Freedman, A.D. Dunn and L.W. Ruddock, Curr. Biol. 8 (1998) R468.

69. C.S. Sevier, J.W. Couzzo, A. Vala, F. Åslund and C.A. Kaiser, Nat. Cell Biol. 3 (2001) 874.

70.  J.C.A. Bardwell, Devel. Cell 3 (2002) 758.

71. L. Ellgaard, Biochem. Soc. Trans. 32 (2004) 663.

72. A.R. Frand and C.A. Kaiser, Mol. Biol. Cell 11 (2000) 2833.

73.  S. Raje and C. Thorpe, Biochem. 42 (2003) 4560.

74.  E. Gross, C.S. Sevier, A. Vala, C.A. Kaiser and D. Fass, Nat. Struct. Biol. 9 (2002) 61.

75.  E. Gross, D.B. Kastner, C.A. Kaiser and D. Fass, Cell 117 (2004) 601.

76.  R. Krupp, C. Chan and D. Missiakas, J. Biol. Chem. 276 (2001) 3696.

77. H. Nakamoto and J.C.A. Bardwell, Biochim. Biophys. Acta 1694 (2004) 111.

78.  E. Mössner, M. Huber-Wunderlich, A. Rietsch, J. Beckwith, R. Glockshuber and F. Åslund, J. Biol. Chem. 274 (1999) 25254.

79. M. Bader, W. Muse, D.P. Ballou, C. Gassner and J.C.A. Bardwell, Cell 98 (1999) 217.

80. G.C. Wagner, R.J. Kassner, M.D. Kamen, Proc. Natl. Acad. Sci. U.S.A. 71 (1974) 253.

81. E.A. Kersteen and R.T. Raines, Antioxidants & Redox Signaling 5 (2003) 413.

82. R.P. Szajewski and G.M. Whitesides, J. Am. Chem. Soc. 102 (1980) 2011.

83. S. Yamaguchi, T. Tsukamoto and M. Senda, Nippon Kagaku Kaishi 5 (1980) 722. (Written in Japanese, abstr. in Eng.)

84. K. Brocklehurst, T. Stuchbury, J.P.G. Malthouse, Biochem. J. 183 (1979) 233.

85. J. Winter, H. Lilie and R. Rudolph, FEMS Microbiology Letters 213 (2002) 225.

86. K.J. Woycechowsky, K.D. Wittrup and R.T. Raines, Chem. & Biol. 6 (1999) 871.

87. K.J. Woycechowsky, B.A. Hook and R.T. Raines, Biotechnol. Prog. 19 (2003) 1307.

88. J.A. Burns, J.C. Butler, J. Moran, G.M. Whitesides, J. Org. Chem. 56 (1991) 2648.

89. J.C. Han and G.Y. Han, Anal. Biochem. 220 (1994) 5.

90. A. Christine, L. Gall, C.M.G. Van Den Berg, Deep-Sea Res. 1 (1998) 1903.

91. A.-C. Le Gall, C.M.G. Van den Berg, Analyst 118 (1993) 1411.

92.  R.R. Moore, C.E. Banks and R.G. Compton, Analyst 129 (2004) 755.

93. J.B. Raoof, R. Ojani and M. Kolbadinezhad, Bull. Chem. Soc. Jpn. 78 (2005) 818.

94.  S. Fei, J. Chen, S. Yao, G. Deng, D. He and Y. Kuang, Anal. Biochem. 339 (2005) 29.

95.  Z. Dursun, I. Sahbaz, F.N. Ertas and G. Nisli, Turkish J. Chem. 4 (2003) 513.

96. P.C. White, N.S. Lawrence, J. Davis, R.G. Compton, Anal. Chim. Acta 447 (2001) 1.

97. P. White, N.S. Lawrence, Y.C. Tsai, J. Davis and R.G. Compton, Microchim. Acta 137 (2001) 87.

98. N.S. Lawrence, J. Davis and R.G. Compton, Talanta 53 (2001) 1089.

99. E.H. Seymour, S.J. Wilkins, N.S. Lawrence and R.G. Compton, Anal. Lett., 35 (2002) 1387.

100. G. Hignett, S. Threlfell, A.J. Wain, N.S. Lawrence, S.J. Wilkins, J. Davis, R.G. Compton and M.F. Cardosi, Analyst 126 (2001) 353.

101. C. Terashima, T.N. Rao, B.V. Sarada and A. Fujishima,Chem. Lett. 32 (2003) 136.

102. O. Chailapakul, W. Siangproh, B.V. Sarada, C. Terashima, T.N. Rao, D. A. Tryk and A. Fujishima, Analyst 127 (2002) 1164.

103. J. Zhou, T.J. O’Shea and S.M. Lunte, J. Chrom. A 680 (1994) 271.

104. T.J. O’Shea and S.M. Lunte, Anal. Chem. 65 (1993) 247.

105. J.A. Cox and E. Dabek-Zlotorznska, J. Chrom. A  543 (1991) 226.

106. X.-N. Cao, J.-H. Li, H.-H. Xu, L. Lin, Y.Z. Xian, K. Yamamoto and L.-T. Jin, Biomed. Chrom. 18 (2004) 564.

107. P.J. Vandeberg and D.C. Johnson, Anal. Chim. Acta 290 (1994) 317.

108.   F. Xu, L. Wang, M. Gao and L. Jin, Anal. Bioanal. Chem. 372 (2002) 791.

109.   W. Jin and Y. Wang, Anal. Chim. Acta 343 (1997) 231.

110. C.B. Jensen, S.J. Grossman and D.J. Jollow, Adv. Exp. Med. 197 (1986) 407.

111. D. Potesil, J. Petrlova, V. Adam, J. Vacek, B. Klejdus, J. Zahnalek, L. Trnkova, L. Havel and R. Kizek, J. Chrom A 1084 (2005) 134.

112. P.W. Alexander, A. Hidayat and D.B. Hibbert, Electroanalysis7 (1995) 290.

113. A. Hidayat, D.B. Hibbert and P.W. Alexander, Electroanalysis 8 (1996) 468.

114. L. Rover Jr., L.T. Kuboto and N.F. Höehr, Clin. Chim Acta 308 (2001) 55.

115. J. Vacek, J. Petrek, R. Kizek, L. Havel, B. Klejdus, L. Trnková and F. Jelen, Bioelectrochem. 63 (2004) 347.

116. K.A. Joshi, P.C. Pandley, W. Chen and A. Mulchandani, Electroanalysis 16 (2004) 1938.

117. R.D. Shankaran and S.S. Narayanan, Bull. Electrochem. 17 (2001) 277.

118. A. Salimi, R. Hallaj and M.K. Amini, Anal. Chim. Acta 534 (2005) 335.

119. D. Compagnone, G. Federici, L. Scarciglia and G. Palleschi, Biosensors and Bioelectronics 8 (1993) 257.

120. L. Mao and K. Yamamoto, Electroanalysis 12 (2000) 577.

121. M.F.S. Teixeira, E.R. Dockal and E.T.G. Cavalheiro, Sensors and Actuators B 106 (2005) 619.

122. M.C. Icardo, O.A. Estrela, M. Sajewicz, J.V.G. Mateo and J.M. Calatayud, Anal. Chim. Acta 438 (2001) 281.

123. J. Cheng, P. Jandik and N. Avdalovic, J. Chrom. A 997 (2003) 73.

124. P. Jandik, J. Cheng, J. Evrovski and N. Avdalovic, J. Chrom. B 759 (2001) 145.

 

*Corresponding author. E-mail address: Ritu.kataky@durham.ac.uk.

Creative Commons License Todo o conteúdo deste periódico, exceto onde está identificado, está licenciado sob uma Licença Creative Commons