About The Journal
  Aims and Scope
  Editorial Board
  Submit a Manuscript 
  Subscription Information
  Guidelines for Publication
  Ethics
Articles & Issues
  Search
  Issue
  Online First
  KJChE on
For Authors
  Instructions to Authors
  Ethical Responsibilities of
  Authors in KJChE
  Ethics in Publishing
  Peer Review Process
  Author's Checklist
  Copyright Transfer Form
Contact us
 
 
 
Issue
Korean Journal of Chemical Engineering,
Vol.27, No.2, 385-389, 2010
Friendly production of bacterial inclusion bodies
Garcia-Fruitos E, Villaverde A
Protein aggregation is commonly observed in genetically engineered bacteria over-expressing foreign genes, in the context of protein production processes. Very often, recombinant polypeptides deposit as insoluble protein clusters named inclusion bodies, whose formation is driven by stereo-specific cross-molecular interactions between partially folded polypeptide chains. The formation of inclusion bodies has been historically considered as the main bottleneck in industrial production processes of proteins, since a wide diversity of protein species tend to aggregate in bacteria. As the formation of inclusion bodies can be eventually minimized but rarely prevented, aggregated polypeptides of industrial interest need to be refolded in vitro before use. However, the progressive understanding of the molecular and physiological mechanisms regulating aggregation has revealed that inclusion bodies contain significant amounts of biologically active protein species making them suitable for the straightforward use in different in vitro processes, as functional, particulate entities. Therefore, when formed by enzymes, inclusion bodies are catalytic particles ready for industrial use. As discussed here, the genetic background of the host bacteria and the protein production conditions can be adjusted to tune the biological and biophysical properties of bacterial inclusion bodies, to gain manipulability and to make them more biotechnologically friendly.
Keywords: Inclusion Bodies; Biosynthesis; Proteases; Chaperones; E. coli
[References]
  1. Prouty WF, Karnovsky MJ, Goldberg AL, J. Biol. Chem., 250, 1112, 1975
  2. Marston FA, Biochem. J., 240, 1, 1986
  3. Gasser B, Saloheimo M, Rinas U, Dragosits M, Rodriguez-Carmona E, Baumann K, Giuliani M, Parrilli E, Branduardi P, Lang C, Porro D, Ferrer P, Tutino ML, Mattanovich D, Villaverde A, Microb. Cell Fact., 7, 11, 2008
  4. Baneyx F, Mujacic M, Nat. Biotechnol., 22, 1399, 2004
  5. Carrio MM, Villaverde A, Febs Lett., 489, 29, 2001
  6. Carrio MM, Corchero JL, Villaverde A, FEMS Microbiol. Lett., 169, 9, 1998
  7. Rinas U, Bailey JE, Appl. Environ. Microbiol., 59, 561, 1993
  8. Rinas U, Boone TC, Bailey JE, J. Biotechnol., 28, 313, 1993
  9. Margreiter G, Messner P, Caldwell KD, Bayer K, J. Biotechnol., 138, 67, 2008
  10. Peternel S, Jevsevar S, Bele M, Gaberc-Porekar V, Menart V, Biotechnol. Appl. Biochem., 49, 239, 2008
  11. Bowden GA, Paredes AM, Georgiou G, Biotechnology (NY), 9, 725, 1991
  12. Carrio MM, Cubarsi R, Villaverde A, Febs Lett., 471, 7, 2000
  13. Garcia-Fruitos E, Rodriguez-Carmona E, Diez-Gil C, Ferraz RM, Vazquez E, Corchero JL, Cano-Sarabia M, Ratera I, Ventosa N, Vaciana J, Villaverde A, Adv. Mat., 21, 4249, 2009
  14. Arie JP, Miot M, Sassoon N, Betton JM, Mol. Microbiol., 62, 427, 2006
  15. Miot M, Betton JM, Microb. Cell Fact., 3, 4, 2004
  16. Hunke S, Betton JM, Mol. Microbiol., 50, 1579, 2003
  17. Villaverde A, Carrio MM, Biotechnol. Lett., 25(17), 1385, 2003
  18. Carrio MM, Villaverde A, J. Biotechnol., 96, 3, 2002
  19. Rinas U, Bailey JE, Appl. Microbiol. Biotechnol., 37, 609, 1992
  20. Carrio MM, Villaverde A, J. Bacteriol., 187, 3599, 2005
  21. Taylor G, Hoare M, Gray DR, Marston FAO, Biotechnology, 4, 553, 1986
  22. Carrio M, Gonzalez-Montalban N, Vera A, Villaverde A, Ventura S, J. Mol. Biol., 347, 1025, 2005
  23. de Groot NS, Sabate R, Ventura S, Trends Biochem. Sci., 34, 408, 2009
  24. Gonzalez-Montalban N, Villaverde A, Aris A, Biochem. Biophys. Res. Commun., 355(3), 637, 2007
  25. Sabate R, Espargaro A, Saupe SJ, Ventura S, Microb. Cell Fact., 8, 56, 2009
  26. Wang L, Maji SK, Sawaya MR, Eisenberg D, Riek R, PLoS Biol., 6, e195, 2008
  27. Ami D, Natalello A, Taylor G, Tonon G, Maria DS, Biochim. Biophys. Acta, 1764, 793, 2006
  28. Doglia SM, Ami D, Natalello A, Gatti-Lafranconi P, Lotti M, Biotechnol. J., 3, 193, 2008
  29. Gonzalez-Montalban N, Natalello A, Garcia-Fruitos E, Villaverde A, Doglia SM, Biotechnol. Bioeng., 100(4), 797, 2008
  30. Ami D, Natalello A, Gatti-Lafranconi P, Lotti M, Doglia SM, Febs Lett., 579, 3433, 2005
  31. Wasmer C, Benkemoun L, Sabate R, Steinmetz MO, Coulary-Salin B, Wang L, Riek R, Saupe SJ, Meier BH, Angew. Chem. Int. Ed. Engl., 48, 4858, 2009
  32. Lewandowska A, Matuszewska M, Liberek K, J. Mol. Biol., 371, 800, 2007
  33. Morell M, Bravo R, Espargaro A, Sisquella X, Aviles FX, Fernandez-Busquets X, Ventura S, Biochim. Biophys. Acta, 1783, 1815, 2008
  34. Speed MA, Wang DI, King J, Nat. Biotechnol., 14, 1283, 1996
  35. Gonzalez-Montalban N, Garcia-Fruitos E, Ventura S, Aris A, Villaverde A, Microb. Cell. Fact., 5, 26, 2006
  36. Rinas U, Hoffmann F, Betiku E, Estape D, Marten S, J. Biotechnol., 127, 244, 2007
  37. Vera A, Aris A, Carrio M, Gonzalez-Montalban N, Villaverde A, J. Biotechnol., 119, 163, 2005
  38. Carrio MM, Villaverde A, Febs Lett., 537, 215, 2003
  39. Espargaro A, Sabate R, Ventura S, Febs Lett., 582, 3669, 2008
  40. Georgiou G, Valax P, Methods Enzymol., 309, 48, 1999
  41. Vallejo LF, Rinas U, Microb. Cell Fact., 3, 11, 2004
  42. Ferrer-Miralles N, Domingo-Espin J, Corchero JL, Vazquez E, Villaverde A, Microb. Cell Fact., 8, 17, 2009
  43. Peternel S, Grdadolnik J, Gaberc-Porekar V, Komel R, Microb. Cell Fact., 7, 34, 2008
  44. Jevsevar S, Gaberc-Porekar V, Fonda I, Podobnik B, Grdadolnik J, Menart V, Biotechnol. Prog., 21(2), 632, 2005
  45. Vera A, Gonzalez-Montalban N, Aris A, Villaverde A, Biotechnol. Bioeng., 96(6), 1101, 2007
  46. Oberg K, Chrunyk BA, Wetzel R, Fink AL, Biochemistry, 33, 2628, 1994
  47. Natalello A, Santarella R, Doglia SM, de Marco A, Protein Expr. Purif., 58(2), 356, 2008
  48. Ami D, Bonecchi L, Cali S, Orsini G, Tonon G, Doglia SM, Biochim. Biophys. Acta, 1624, 6, 2003
  49. Garcia-Fruitos E, Martinez-Alonso M, Gonzalez-Montalban N, Valli M, Mattanovich D, Villaverde A, J. Mol. Biol., 374, 195, 2007
  50. Ventura S, Villaverde A, Trends Biotechnol., 24, 179, 2006
  51. Garcia-Fruitos E, Gonzalez-Montalban N, Morell M, Vera A, Ferraz RM, Aris A, Ventura S, Villaverde A, Microb. Cell Fact., 4, 27, 2005
  52. Garcia-Fruitos E, Aris A, Villaverde A, Appl. Environ. Microbiol., 73, 289, 2007
  53. Nahalka J, J. Ind. Microbiol. Biotechnol., 35, 219, 2008
  54. Nahalka J, Gemeiner P, Bucko M, Wang PG, Artif. Cells Blood Substit. Immobil. Biotechnol., 34, 515, 2006
  55. Nahalka J, Nidetzky B, Biotechnol. Bioeng., 97(3), 454, 2007
  56. Nahalka J, Patoprsty V, Org. Biomol. Chem., 7, 1778, 2009
  57. Nahalka J, Vikartovska A, Hrabarova E, J. Biotechnol., 134, 146, 2008
  58. Nahalka J, Mislovicova D, Kavcova H, Mol. Biosyst., 5, 819, 2009
  59. Thomas JG, Baneyx F, J. Bacteriol., 180, 5165, 1998
  60. Han MJ, Lee JW, Lee SY, J. Proteome Res., 4, 2429, 2005
  61. Mogk A, Deuerling E, Vorderwulbecke S, Vierling E, Bukau B, Mol. Microbiol., 50, 585, 2003
  62. Gonzalez-Montalban N, Garcia-Fruitos E, Villaverde A, Nat. Biotechnol., 25, 718, 2007
  63. de Marco A, Deuerling E, Mogk A, Tomoyasu T, Bukau B, BMC Biotechnol., 7, 32, 2007
  64. de Marco A, Schroedel A, BMC Biochem., 6, 10, 2005
  65. Martinez-Alonso M, Gonzalez-Montalban N, Garcia-Fruitos E, Villaverde A, Appl. Environ. Microbiol., 101, 1353, 2008
  66. Martinez-Alonso M, Gonzalez-Montalban N, Garcia-Fruitos E, Villaverde A, Microb. Cell Fact., 8, 4, 2009
  67. Martinez-Alonso M, Vera A, Villaverde A, FEMS Microbiol. Lett., 273, 187, 2007
  68. Martinez-Alonso M, Garcia-Fruitos E, Villaverde A, Biotechnol. Bioeng., 101(6), 1353, 2008
  69. Martinez-Alonso M, Toledo-Rubio V, Noad R, Unzueta U, Ferrer-Miralles N, Roy P, Villaverde A, Appl. Environ. Microbiol., 75, 7850, 2009
  70. Martinez-Alonso M, Gomez-Sebastian S, Escribano JM, Saiz JC, Ferrer-Miralles N, Villaverde A, Appl. Microbiol. Biotechnol., Oct. 30, [Epub ahead of print], 2009
  71. Roessl U, Nahalka J, Nidetzky B, Biotechnol. Lett., Nov. 27, [Epub ahead of print], 2009
  72. de Marco A, Sevastsyanovich YR, Cole JA, N. Biotechnol., 25, 170, 2009
  73. de Marco A, Microb. Cell Fact., 7, 20, 2008
  74. Weibezahn J, Schlieker C, Tessarz P, Mogk A, Bukau B, Biol. Chem., 386, 739, 2005
  75. Mogk A, Bukau B, Curr. Biol., 14, R78, 2004
  76. Weibezahn J, Bukau B, Mogk A, Microb. Cell Fact., 3, 1, 2004
  77. Schlieker C, Tews I, Bukau B, Mogk A, Febs Lett., 578, 351, 2004
참고문헌정보(참고문헌, 인용문헌)는 화학공학소재연구정보센터에 의해 제공되고 있습니다.