References

1. Asenjo, J., Parrado, J., and Andrews, B. (1991) Rational design of purification processes for recombinant proteins. Ann. NY Acad. Sci. 646, 334-56.

2. Albertsson, P.-A. (1967) Two-phase separation of viruses. Meth. Virol. 2,303-321.

3. Philipson, L. (1969) Aqueous polymer phase systems in virology, in Fundamental Techniques in Virology (Habel, K. and Salzman, P., eds.), Academic, New York, pp. 109-128.

4. Albertsson, P.-A. (1974) Concentration of virus by phase partition. Water Resources Symp. 7, 16-18.

5. Magnusson, K.-E. and Stendahl, O. (1985) Partitioning of bacteria, virus and phages, in Partitioning in Aqueous Two-Phase Systems: Theory, Methods, Uses, and Applications to Biotechnology (Walter, H., Brooks, D. E., and Fisher, D., eds.), Academic, Orlando, FL, pp. 415-452.

6. Walter, H. and Johansson, G. (1986) Partitioning in aqueous two-phase systems: an overview. Anal. Biochem. 155, 215-242.

7. Hammar, L. (1994) Concentration of biomaterials: virus concentration and viral protein isolation. Methods Enzymol. 228, 640-658.

8. Lund, E., Hedstrom, C.-E., and Stranneg&rd, O. (1966) Concentration of enterovirus for detection. Am. J. Epidem. 84, 282-286.

9. Grindrod, J. and Chiver, D. O. (1970) A polymer two phase system adopted to virus detection. Arch. Gesamte. Virusforsch. 31, 365-372.

10. Maini, P. and Piva, I. (1977) [Isolation of viruses from urban sewage: comparison of methods]. Boll. 1st. Sieroter. Milan 56, 201-205.

11. Poyry, T., Stenvik, M., and Hovi, T. (1988) Viruses in sewage waters during and after a poliomyelitis outbreak and subsequent nationwide oral poliovirus vaccination campaign in Finland. Appl. Environ. Microbiol. 54, 371-374.

12. Hazlett, D. (1977) A comparison of six methods for the concentration of a porcine enterovirus. Can. J. Microbiol. 23, 1052-1058.

13. Anderson, E. C., Master, R. C., and Mowat, G. N. (1971) Immune response to pigs of inactivated foot-and mouth disease vaccines: response to DEAE-Dextran and saponin adjuvated vaccines. Res. Vet. Sci. 12, 351-357.

14. The Wellcome Foundation Ltd. (1964) Vaccine améliorés. En partiqulier, des vaccins contenant du virus de fièvre aphteuse vivant. (Vaccine improvements. Purification of Foot-and-Mouth Disease Virus by two-phase extraction). Belgian Patent No. 636,492.

15. Pomelova, V., Gaidamovich, S., Demenev, V., and Kadoshnikov I. (1986) [Concentration of the Venezuelan equine encephalomyelitis virus in a 2-phase system of water-soluble polymers]. Vopr. Virusol. 31, 584-587.

16. Pomelova, V., Bychenkova, T., Lavrova, N., Melqnikova, E., Buinitskaia, O., Gaidomovich, S., and Khramov, E. (1991) [The detection of antibodies to the Venezuelan equine encephalomyelitis virus by immunoenzyme analysis using antigen purified in a water-polymer system]. Vopr. Virusol. 36, 486-489.

17. Philipson, L., Albertsson, P.-Â., and Frick, G. (1960) The purification and concentration of viruses by aqueous polymer phase systems. Virology 11, 553-571.

18. Norrby, E. C. J. and Albertsson, P.-Â. (1960) Concentration of poliovirus by aqueous polymer system. Nature 188, 1047,1048.

19. Hammar, L., Eriksson, S., Malm, K., and Morein, B. (1989) Concentration and purification of feline leukaemia virus (FeLV) and its outer envelope protein gp70 by aqueous two-phase systems. J. Virol. Methods 24, 91-102.

20. Hammar, L., Merza, M., Malm, K., Eriksson, S., and Morein, B. (1989) The use of aqueous two-phase systems to concentrate and purify bovine leukemia virus outer envelope protein gp51. Biotechnol. Appl. Biochem. 11, 296-306.

21. Hammar, L. and Gilljam, G. (1990) Extraction of HIV-1 in aqueous two-phase systems to obtain a high yield of gp120. AIDS Res. Hum. Retroviruses 6,1379-1388.

22. Gilljam, G., Siridewa, K., and Hammar, L. (1994) Purification of simian immunodeficiency virus, SIVmac251, and of its external envelope glycoprotein, gp148. J. Chromatogr. A 675, 89-100.

23. Hammar, L., Gilljam, G., and Wahren, B. (1992) Purification of SIV and its external glycoprotein, gp148. Report to EC Concerted Research Program, European Vaccine Against AIDS, Rome.

24. Andrews, B., Huang, R., and Asenjo, J. (1995) Purification of virus like particles from yeast cells using aqueous two-phase systems. Bioseparation 5, 105-112.

25. Svensson, U., Persson, R., and Everitt, E. (1981) Virus-receptor interaction in the adenovirus system I. Identification of virion attachment proteins of the HeLa cell plasma membrane. J. Virol. 38, 70-81.

26. Bengtsson, S., Philipsson, L., and Albertsson, L.-Â. (1962) Counter-current distribution of poliovirus. Biochem. Biophys. Res. Commun. 9, 318-322.

27. Bengtsson, S. and Philipson, L. (1963) Counter-current distribution of poliovirus type 1. Virology 20, 176-184.

28. Walter, H., Edgell, M. H., and Hutchinson, C. A. (1970) Separation of bacteriophage (PHI)-X174 mutants by CCD in two-phase aqueous systems. Biochim. Biophys. Acta 204, 248-251.

29. Philipson, L., Killander, J., and Albertsson, P. A. (1966) Interaction between poliovirus and immunoglobulins. I. Detection of virus antibodies by partition in aqueous two-phase systems. Virology 28, 22-34.

30. Philipson, L. and Bennich, H. (1966) Interaction between poliovirus and immunoglobulins. III. The effect of cleavage products of rabbit gamma-G-globulin on the infectivity and distribution of virus in polymer phase systems. Virology 29, 330-338.

31. Lantz, P. G., Tjerneld, F., Hahn-Hagerdahl, B., and Rädström, P. (1996) Use of aqueous two-phase systems in sample preparation for polymerase chain reaction-based detection of microorganisms. J. Chromatogr. 680, 165-170.

32. Albertsson, P.-Ä. and Frick, G. (1960) Partition of virus particles in two-phase systems. Biochim. Biophys. Acta 37, 230-237.

33. Wesslen, T., Albertsson, P.-Ä., and Philipsson, L. (1959) Concentration of animal viruses using two-phase systems of aqueous polymer solutions. Arch. Gesamte Virusforsch. 9, 510-520.

34. Zheng, H., Zhao, L., and Sun, F. (1992) [A new virus of rabbit. II. Study on morphological structure and some physicochemical properties of a strain of rabbit hemorrhagic disease virus]. Wei Sheng Wu Hsueh Pao 32, 198-203.

35. Nakai, H. (1965) Concentration of Japanese encephalitis virus by aqueous polymer two-phase system. Acta. Virol. 9, 89-91.

36. Kashkina, G., Krasheniuk, A., Vasilqeva, G., and Boichuk, L. (1981) [Use of a 2-phase system of water-soluble polymers to concentrate measles and mumps virus]. Vopr. Virusol. 26, 607-611.

37. Pavlenko, I. V., Krasheniuk, A. I., Salnikova, T. A., Brezgun, A. A., and Smorodinova, I. P. (1985) Study on concentration and purification of measles virus using two-phase systems of water-soluble polymers. Vopr. Virusol. 30, 732-736.

38. Schloer, G. and Breese, SS J. (1982) Purification of african malignant catarrhal fever virus using a two-phase aqueous polymer system. J. Gen. Virol. 59,101-110.

39. Murphy, F. A., Fauquet, C. M., Bishop, D. H. L., Ghabrial, S. A., Jarvis, A. W., Martelli, G. P., Mayo, M. A., and Summers, M. D. (1995) Virus taxonomy; Classification and nomenclature of viruses. Sixth report of the international comittee on taxonomy of viruses, in Archives of Virology. Suppl. 10, SpringerVerlag, New York.

40. Schloer, G. (1985) Polypeptides and structure of African swine fever virus. Virus Res. 3, 295-310.

41. Grindrod, J. and Cliver, D. O. (1969) Dextran sulfate acts as an virus inhibitor in vitro. Arch. Gesamte. Virusforsch. 28, 337-347.

42. Mitsuya, H., Looney, D. J., Kuno, S., Ueno, R., Wong-Staal, F., and Broder, S. (1988) Dextran sulfate supression of virus in the HIV family. Science 240, 646-649.

43. Bradfield, J. W. B., Souhami, R. L., and Addison, J. L. (1974) The mechanisms of the adjuvant action of dextran sulfate. Immunology 26, 383-386.

44. Pagano, J. S. and McCutchan, J. S. (1969) Enhancement of viral infectivity with DEAE-dextran: Application to development of vaccines. Progr. Immunobiol. Standard 3, 152-158.

45. Rossi, C. R. and Kiesel, G. K. (1978) Bovine respiratory syncytial virus infection of bovine embryonic lung cultures: enhencement of infectivity with DEAE-dext-ran and virus-infected cells. Arch. Virol. 56, 227-236.

46. Sasaki, K., Furukawa, T., and Potkin, S. A. (1981) Enhancement of infectivity of cell-free varicella zoster virus with DEAE-dextran. Proc. Soc. Exp. Biol. Med. 166, 281-286.

47. Wallis, C. and Melnick, J. L. (1968) Mechanism of enhencement of virus plaques by cationic polymers. J. Virol. 2, 267-274.

48. Booth, J. C. (1977) Enhancement of DEAE-dextran of the plaque forming activity of foot-and-mouth disease virus-antibody complexes in pig kidney 1B-RS-2 cells. Arch. Virol. 55, 251-261.

49. Wittmann, G., Dietzschold, B., and Bauer, K. (1975) Some investigations on the adjuvant mechanism of DEAE-Dextran. Arch. Virol. 47, 225-235.

50. Houston, W. E., Crabbs, C. L., and Kremer, R. J. (1976) Adjuvant effects of DEAE- dextran. Infect. Immunol. 13, 1559-1562.

51. Sehon, A. H. (1989) Modulation of antibody responses by conjugates of antigens with monomethoxypolyethylene glycol. Adv. Exp. Med. Biol. 251, 341-351.

52. Dreborg, S. and Äkerblom, E. B. (1990) Immunotherapy with monomethoxy polyethylene glycol modified allergens. Crit. Rev. Ther. Drug. Carrier. Syst. 6, 315-365.

53. Hagen, A. J., Oliver, C. N., and Sitrin, R. D. (1997) Optimization and scale-up of solvent extraction in purification of Hepatitis A virus (VAQTA). Biotech. Bioeng. 56, 83-88.

54. Albertsson, P.-Ä. (1986) Partition of Cell Particles and Macromolecules. Wiley-Interscience, New York.

55. Albertsson, P.-Ä. and Tjerneld, F. (1994) Phase diagrams. Methods Enzymol. 228, 3-13.

56. Birkenmeier, G. (1994) Partitioning of blood proteins using immobilized dyes. Methods Enzymol. 228, 154-167.

57. Brusca, J. S. and Radolf, J. D. (1994) Isolation of integral membrane proteins by phase partitioning with Triton X-114. Methods Enzymol. 228, 182-193.

How To Bolster Your Immune System

How To Bolster Your Immune System

All Natural Immune Boosters Proven To Fight Infection, Disease And More. Discover A Natural, Safe Effective Way To Boost Your Immune System Using Ingredients From Your Kitchen Cupboard. The only common sense, no holds barred guide to hit the market today no gimmicks, no pills, just old fashioned common sense remedies to cure colds, influenza, viral infections and more.

Get My Free Audio Book


Post a comment