Untitled Page

Date and Place of Birth: November 3, 1950 , Haverhill , Massachusetts

Address: Department of Physiology and Cellular Biophysics, Columbia University College of Physicians and Surgeons

New York , New York 10032

Education:

Yale College – B.A., summa cum laude 1967 ‑ 1971

Harvard Medical School – Medical Student 1971 - 1973

Department of Biological Chemistry, Harvard Medical

School – Ph.D. (Dr. E.P. Kennedy) 1973 ‑ 1976

Department of Biology, Massachusetts Institute of

Technology – Postdoctoral Fellow (Dr. H.F. Lodish) 1976 ‑ 1978

Appointments:

Assistant Professor, Department of Biochemistry,

Stanford University 1978 ‑ 1981

Associate Professor (tenure), Department of Biochemistry,

Stanford University 1981 ‑ 1984

Professor, Department of Biochemistry,

Stanford University 1984 ‑ 1988

E. R. Squibb Professor of Molecular Biology,

Department of Molecular Biology, Princeton University 1988 ‑ 1991

Chairman, Cellular Biochemistry

and Biophysics Program, Sloan-Kettering Institute 1991 – 2003

Paul A. Marks Chair and Chairman, Cellular Biochemistry

and Biophysics Program, Memorial Sloan-Kettering Cancer Center 1991 - 2004

Vice Chairman, Sloan-Kettering Institute 1994 – 2003

Director, Chemical Biology Center and Professor, Department of

Physiology and Cellular Biophysics, Columbia University ,

College of Physicians and Surgeons 2004 –

Member, Columbia Cancer Center 2004 –

Clyde and Helen Wu Professor of Chemical Biology 2005 -

Director, Columbia Genome Center 2005 -

Major Honors And Awards:

The Eli Lilly Award for Fundamental Research in

Biological Chemistry, U.S.A. 1986

The Passano Young Scientist Award , U.S.A. 1986

The Alexander Von Humboldt Award, Germany 1989

The Heinrich Wieland Prize, Germany 1990

Member, National Academy of Sciences , U.S.A. 1993

The Rosenstiel Award in Biomedical Sciences (with R. Schekman), U.S.A. 1994

Fellow, American Academy of Arts and Sciences 1994

The V.D. Mattia Award, U.S.A. 1994

The Fritz Lipmann Award, U.S.A. 1 995

Member, Institute of Medicine , National Academy of

Sciences, U.S.A. 1995

Dr. h.c., University of Regensburg , Germany 1995

Foreign Associate, European Molecular Biology Organization 1995

Mayor’s Award For Excellence in Science and Technology, New York 1995

Gairdner Foundation International Award (with R. Schekman), Canada 1996

King Faisal International Prize in Science (with G. Blobel and H. Pelham), Saudia Arabia 1996

PUBLICATIONS

JAMES EDWARD ROTHMAN

1. Rothman, J.E., Melchior, D.L., and Morowitz, H.J. 1972. A dilatometer for volume‑temperature determinations of liquids. Rev. Sci. Instr. 43:743‑745.

2. Rothman, J.E. and Engelman, D.M. 1972. Molecular mechanism for the interaction of phospholipid with cholesterol. Nature ( London ) New Biology 237:42‑44.

3. Engelman, D.M. and Rothman, J.E. 1972. The planar organization of lecithin‑cholesterol bilayers. J. Biol. Chem. 247:3694‑3697.

4. Rothman, J.E. 1973. The molecular basis of mesomorphic phase transitions in phospholipid systems. J. Theoret. Biol. 38:1‑16.

5. Rothman, J.E. and Dawidowicz, E.A. 1975. Asymmetric exchange of vesicle phospholipids catalyzed by the phosphatidylcholine exchange protein: Measurement of inside‑outside transitions. Biochemistry 14:2809‑2816.

6. Rothman, J.E., Tsai, D.K., Dawidowicz, E.A., and Lenard, J. 1976. Transbilayer phospholipid asymmetry and its maintenance in the membrane of influenza virus. Biochemistry 15:2361‑2370.

7. Lenard, J. and Rothman, J.E. 1976. Transbilayer distribution and movement of cholesterol and phospholipid in the membrane of influenza virus. Proc. Natl. Acad. Sci. USA 73:391‑395.

8. Dawidowicz, E.A. and Rothman, J.E. 1976. Fusion and protein‑mediated phospholipid exchange studied with single bilayer phosphatidylcholine vesicles of different density. Biochem. Biophys. Acta 455:621‑630.

9. Rothman, J.E. and Kennedy, E.P. 1977. Asymmetrical distribution of phospholipids in the membrane of Bacillus megaterium. J. Molec. Biol. 110:603‑618.

10. Rothman, J.E. and Kennedy, E.P. 1977. Rapid transmembrane movement of newly synthesized phospholipids during membrane assembly. Proc. Natl. Acad. Sci. USA 74:1821‑1825.

11. Rothman, J.E. and Lenard, J. 1977. Membrane asymmetry: The nature of membrane asymmetry provides clues to the puzzle of how membranes are assembled. Science 195:743‑753.

12. Katz, F.N., Rothman, J.E., Lingappa, V.R., Blobel, G., and Lodish, H.F. 1977. Membrane assembly in vitro: Synthesis, glycosylation and asymmetric insertion of a transmembrane protein. Proc. Natl. Acad. Sci. USA 74:3278‑3282.

13. Katz, F.N., Rothman, J.E., Knipe, D.M., and Lodish, H.F. 1977. Membrane assembly: Synthesis and intracellular processing of the vesicular stomatitis viral glycoprotein. ICN‑UCLA Symposium Proc.: J. Supramol. Struct. 7:353-370.

14. Rothman, J.E. and Lodish, H.F. 1977. Synchronised transmembrane insertion and glycosylation of a nascent membrane protein. Nature ( London ) 269:775‑780.

15. Rothman, J.E., Katz, F. N., and Lodish, H.F. 1978. Glycosylation of a membrane protein is restricted to the growing polypeptide chain but is not necessary for insertion as a transmembrane protein. Cell 15:1447‑1454.

16. Lodish, H.F. and Rothman, J.E. l979. The assembly of cell membranes. Sci. Amer. 240:48‑63.

17. Rothman, J.E. 1980. An overview of membrane structure and biosynthesis. In: Membrane‑Membrane Interactions – Symp. of the Soc. of General Physiologists. Gilula, N.B. (ed.), Raven Press, 34:1‑9.

18. Rothman, J.E. and Fine, R.E. 1980. Coated vesicles transport newly synthesized membrane glycoproteins from the endoplasmic reticulum to plasma membrane in two successive stages. Proc. Natl. Acad. Sci. USA 77:780‑784.

19. Rothman, J.E., Bursztyn‑Pettegrew, H., and Fine, R.E. 1980. Transport of the membrane glycoprotein of vesicular stomatitis virus to the cell surface in two stages by clathrincoated vesicles. J. Cell Biol. 86:162‑171.

20. Fries, E. and Rothman, J.E. 1980. Transport of vesicular stomatitis virus glycoprotein in a cell‑free extract. Proc. Natl. Acad. Sci. USA 77:3870‑3874.

21. Rothman, J.E. and Fries, E. 1981. Transport of newly synthesized vesicular stomatitis viral glycoprotein to purified Golgi membranes. J. Cell Biol. 89:162‑168.

22. Rubenstein, J.L.R., Fine, R.E., Luskey, B.D., and Rothman, J.E. 1981. Purification of coated vesicles by agarose gel electrophoresis. J. Cell Biol. 89:357‑361.

23. Fries, E. and Rothman, J.E. 1981. Transient activity of Golgi‑like membranes as donors of vesicular stomatitis viral glycoprotein in vitro. J. Cell Biol. 90:697‑704.

24. Rothman, J.E. 1981. The Golgi apparatus: Two organelles in tandem. Science 213:1212‑1219.

25. Dunphy, W.G., Fries, E., Urbani, L.J., and Rothman, J.E. 1981. Early and late functions associated with the Golgi apparatus reside in distinct compartments. Proc. Natl. Acad. Sci. USA 78:7453‑7457.

26. Schmid, S.F., Matsumoto, A.K., and Rothman, J.E. 1982. A domain of clathrin that forms coats. Proc. Natl. Acad. Sci. USA 79:91‑95.

27. Patzer, E.J., Schlossman, D.M., and Rothman, J.E. 1982. Release of clathrin from coated vesicles dependent upon a nucleoside triphosphate and a cytosol fraction. J. Cell Biol. 93:230‑236.

28. Rothman, J.E., Fries, E., Dunphy, W.G., and Urbani, L.J. 1982. The Golgi apparatus, coated vesicles, and the sorting problem. Cold Spring Harbor Symposium on Quantitative Biology 46:797‑805.

29. Rothman, J.E. 1982. The Golgi apparatus: Roles for distinct ‘cis’ and ‘trans’ compartments. In: CIBA Foundation Symp. on “Membrane Recycling” 92:120‑137.

30. Rothman, J.E. 1983. Internal membranes and the synthesis of macromolecules. In: Molecular Biology of the Cell, Chapter 7. Alberts, B., Bray, D., Lewis, J., Porter, K., Raff, M., Roberts, K., and Watson, J.D. (eds.), Garland Press, NY.

31. Balch, W.E., Fries, E., Dunphy, W.G., Urbani, L.J., and Rothman, J.E. 1983. Transport‑coupled oligosaccharide processing in a cell‑free system. Meth. Enzymol. 98:37‑47.

32. Dunphy, W.G. and Rothman, J.E. 1983. Compartmentation of asparagine‑linked oligosaccharide processing in the Golgi apparatus. J. Cell Biol. 97:270‑275.

33. Schlossman, D.M., Schmid, S.L., Braell, W.A., and Rothman, J.E. 1984. An enzyme that removes clathrin coats: Purification of an uncoating ATPase. J. Cell Biol. 99:723‑733.

34. Braell, W.A., Schlossman, D.M., Schmid, S.L., and Rothman, J.E. 1984. Dissociation of clathrin coats coupled to the hydrolysis of ATP: Role of an uncoating ATPase. J. Cell Biol. 99:734‑741.

35. Rothman, J.E., Urbani, L.H., and Brands, R. 1984. Transport of protein between cytoplasmic membranes of fused cells: Correspondence to processes reconstituted in a cell‑free system. J. Cell Biol. 99:248‑259.

36. Rothman, J.E., Miller, R.L., and Urbani, L.J. 1984. Intercompartmental transport in the Golgi complex is a dissociative process: Facile transfer of membrane protein between two Golgi populations. J. Cell Biol. 99:260‑271.

37. Balch, W.E., Dunphy, W.G., Braell, W.A., and Rothman, J.E. 1984. Reconstitution of the transport of protein between successive compartments of the Golgi measured by the coupled incorporation of N‑acetylglucosamine. Cell 39:405‑416.

38. Braell, W.A., Balch, W.E., Dobbertin , D.C. , and Rothman, J.E. 1984. The glycoprotein that is transported between successive compartments of the Golgi in a cell‑free system resides in stacks of cisternae. Cell 39:511‑524.

39. Balch, W.E., Glick, B.S., and Rothman, J.E. 1984. Sequential intermediates in the pathway of intercompartmental transport in a cell‑free system. Cell 39:525‑536.

40. Schmid, S.L., Braell, W.A., Schlossman, D.M., and Rothman, J.E. 1984. A role for clathrin light chains in the recognition of clathrin cages by ‘uncoating ATPase.’ Nature 311:228‑231.

41. Rothman, J.E. and Lenard, J. 1984. Membrane traffic in animal cells. Trends Biochem. Sci. 9:176‑178.

42. Dunphy, W.G., Brands, R., and Rothman, J.E. 1985. Attachment of terminal N‑acetylglucosamine to asparagine‑linked oligosaccharides occurs in central cisternae of the Golgi stack. Cell 40:463‑472.

43. Hino, Y. and Rothman, J.E. 1985. Glucosidase II, a glycoprotein of the endoplasmic reticulum membrane. Proteolytic cleavage into enzymatically active fragments. Biochemistry 24:800‑805.

44. Balch, W.E. and Rothman, J.E. 1985. Characterization of protein transport between successive compartments of the Golgi apparatus: Asymmetric property of donor and acceptor activities in a cell-free system. Arch. Biochem. Biophys. 240:413‑425.

45. Schmid, S.L. and Rothman, J.E. 1985. Enzymatic dissociation of clathrin cages in a two- stage process. J. Biol. Chem. 260:10044‑10049.

46. Schmid, S.L. and Rothman, J.E. 1985. Two classes of binding sites for uncoating protein in clathrin triskelions. J. Biol. Chem. 260:10050‑10056.

47. Schmid, S.L., Braell, W.A., and Rothman, J.E. 1985. ATP catalyzes the sequestration of clathrin during enzymatic uncoating. J. Biol. Chem. 260:10057‑10062.

48. Dunphy, W.G. and Rothman, J.E. 1985. Compartmental organization of the Golgi stack. Cell 42:13‑21.

49. Rothman, J.E. 1985. The compartmental organization of the Golgi apparatus. Sci. Amer. 253:74‑89.

50. Brands, R., Snider, M.D., Hino, Y., Park, S.S., Gelboin, H., and Rothman, J.E. 1985. Retention of membrane proteins by the endoplasmic reticulum. J. Cell Biol. 101:1724‑1732.

51. Wattenberg, B.W., Balch, W.E., and Rothman, J.E. 1986. A novel prefusion complex formed during protein transport between Golgi cisternae in a cell‑free system. J. Biol. Chem. 261:2202‑2207.

52. Wattenberg, B.W. and Rothman, J.E. 1986. Multiple cytosolic components promote intra‑Golgi protein transport. Resolution of a protein acting at a late stage, prior to membrane fusion. J. Biol. Chem. 261:2208‑2213.

53. Rothman, J.E. and Schmid, S.L. 1986. Enzymatic recycling of clathrin from coated vesicles. Cell 46:5‑9.

54. Chappell, T.G., Welch, W.F., Schlossman, D.M., Palter, K.B., Schlesinger, M.J., and Rothman, J.E. 1986. Uncoating ATPase is a member of the 70 kilodalton family of stress proteins. Cell 45:3‑13.

55. Paquet, M.R., Pfeffer, S.R., Burczak, J.D., Glick, B.S., and Rothman, J.E. 1986. Components responsible for transport between successive Golgi cisternae are highly conserved in evolution. J. Biol. Chem. 261:4367‑4370.

56. Dunphy, W.G., Pfeffer, S.R., Clary, D.O., Wattenberg, B.W., Glick, B.S., and Rothman, J.E. 1986. Yeast and mammals utilize similar cytosolic components to drive protein transport through the Golgi complex. Proc. Natl. Acad. Sci. USA 83:1622‑1626.

57. Orci, L., Glick, B.S., and Rothman, J.E. 1986. A new type of coated vesicular carrier that appears not to contain clathrin: Its possible role in protein transport within the Golgi stack. Cell 46:171‑184.

58. Rothman, J.E. and Kornberg, R.D. 1986. Cell biology: An unfolding story of protein translocation. Nature 322:209‑210.

59. Glick, B.S. and Rothman, J.E. 1987. A possible role for acyl‑coenzyme A in intracellular protein transport. Nature 326:309‑312.

60. Chappell, T.G., Konforti, B.B., Schmid, S.L., and Rothman, J.E. 1987. The ATPase core of a clathrin uncoating protein. J. Biol. Chem. 262:746‑751.

61. Wieland, F.T., Gleason, M.L., Serafini, T.A., and Rothman, J.E. 1987. The rate of bulk flow from the endoplasmic reticulum to the cell surface. Cell 50:289‑300.

62. Rothman, J.E. 1987. Protein sorting by selective retention in the endoplasmic reticulum and Golgi stack. Cell 50:521‑522.

63. Rothman, J.E. 1987. Transport of the vesicular stomatitis glycoprotein to trans Golgi membranes in a cell‑free system. J. Biol. Chem. 262:12502‑12510.

64. Pfeffer, S.R. and Rothman, J.E. 1987. Biosynthetic protein transport and sorting by the endoplasmic reticulum and Golgi. Ann. Rev. Biochem. 56:829‑852.

65. Melançon, P., Glick, B.S., Malhotra, V., Weidman, P.J., Serafini, T., Gleason, M.L., Orci, L., and Rothman, J.E. 1987. Involvement of GTP‑binding “G” proteins in transport through the Golgi stack. Cell 51:1053‑1062.

66. Malhotra, V., Orci, L., Glick, B.S., Block, M.R., and Rothman, J.E. 1988. Role of an N‑ethylmaleimide-sensitive transport component in promoting fusion of transport vesicles with cisternae of the Golgi stack. Cell 54:221‑227.

67. Block, M.R., Glick, B.S., Wilcox , C.A. , Wieland, F.T., and Rothman, J.E. 1988. Purification of an N‑ethylmaleimide-sensitive protein catalyzing vesicular transport. Proc. Natl. Acad. Sci. USA 85:7852‑7856.

68. Orci, L., Malhotra, V., Amherdt, M., Serafini, T., and Rothman, J.E. 1989. Dissection of a single round of vesicular transport: Sequential intermediates for intercisternal movement in the Golgi stack. Cell 56:357‑368.

69. Weidman, P.J., Melançon, P., Block, M.R., and Rothman, J.E. 1989. Binding of an N‑ethylmaleimide-sensitive fusion protein to Golgi membranes requires both a soluble protein(s) and an integral membrane receptor. J. Cell Biol. 108:1589-1596.

70. Malhotra, V., Serafini, T., Orci, L., Shepherd, J.C., and Rothman, J.E. 1989. Purification of a novel class of coated vesicles mediating biosynthetic protein transport through the Golgi stack. Cell 58:329‑336.

71. Diaz, R., Mayorga, L.S., Weidman, P.J., Rothman, J.E., and Stahl, P.D. 1989. Vesicle fusion following receptor‑mediated endocytosis requires a protein active in Golgi transport. Nature 339:398‑400.

72. Beckers, C.J.M., Block, M.R., Glick, B.S., Rothman, J.E., and Balch, W.E. 1989. Vesicular transport between the endoplasmic reticulum and the Golgi stack requires the NEM-sensitive fusion protein. Nature 339:397-398.

73. Wilson , D.W., Wilcox , C.A. , Flynn, G.C., Chen, E., Kuang, W.J., Henzel, W.J., Block, M.R., Ullrich, A., and Rothman, J.E. 1989. A fusion protein required for vesicle-mediated transport in both mammalian cells and yeast. Nature 339:355‑359.

74. Flynn, G.C., Chappell, T.G., and Rothman, J.E. 1989. Peptide binding and release by proteins implicated as catalysts of protein assembly. Science 245:385‑390.

75. Melançon, P., Glick, B.S., Malhotra, V., Weidman, P.J., Serafini, T., Orci, L. , and Rothman, J.E. 1989. A role for GTP‑binding proteins in vesicular transport through the Golgi complex. In: Secretion and its Control (Chapter 11), Soc. Gen. Physiol. 44:175‑188. Oxford , J.S. and Armstrong, C.M. (eds.), Rockefeller University Press, NY.

76. Pfanner, N., Orci, L., Glick, B.S., Amherdt, M., Arden , S.R., Malhotra, V., and Rothman, J.E. 1989. Fatty acyl‑coenzyme A is required for budding of transport vesicles from Golgi cisternae. Cell 59:95‑102.

77. Rothman, J.E. 1989. Signal peptide recognition: GTP and methionine bristles. Nature 340:433‑434.

78. Rothman, J.E. 1989. Polypeptide chain binding proteins: Catalysts of protein folding and related processes in cells. Cell 59:591‑601.

79. Rothman, J.E. and Orci, L. 1990. A molecular dissection of vesicular transport. Chemtracts – Biochem. Molec. Biol. 1:89‑102.

80. Pfanner, N., Glick, B.S., Arden , S.R., and Rothman, J.E. 1990. Fatty acylation promotes fusion of transport vesicles with Golgi cisternae. J. Cell Biol. 110:955‑961.

81. Rothman, J.E. and Orci, L. 1990. Movement of proteins through the Golgi stack: A molecular dissection of vesicular transport. FASEB J. 4:1460‑1468.

82. Clary, D.O. and Rothman, J.E. 1990. Purification of three related peripheral membrane proteins needed for vesicular transport. J. Biol. Chem. 265:10109‑10117.

83. Clary, D.O., Griff, I.C., and Rothman, J.E. 1990. SNAPS, a family of NSF attachment proteins involved in intracellular membrane fusion in animals and yeast. Cell 61:709‑721.

84. Rothman, J.E. 1990. Protein folding and related processes in cells. In: Proceedings of the Welch Foundation Conference on Chemical Research 33:53‑74.

85. Helms, J.B., Karrenbauer, A., Wirtz, K.W., Rothman, J.E., and Wieland, F.T. 1990. Reconstitution of steps in the constitutive secretory pathway in permeabilized cells. Secretion of glycosylated tripeptide and truncated sphingomyelin. J. Biol. Chem. 265:20027‑20032.

86. Karrenbauer, A., Jeckel, D., Just, W., Birk, R., Schmidt, R.R., Rothman, J.E., and Wieland, F. T. 1990. The rate of bulk flow from the Golgi to the plasma membrane. Cell 63:259‑267.

87. Rothman, J.E. 1990. Phospholipid transfer market. Nature 347:519‑520. (Review)

88. Waters, M.G., Serafini, T., and Rothman, J.E. 1991. ‘Coatomer’: A cytosolic protein complex containing subunits of non‑clathrin-coated Golgi transport vesicles. Nature 349:248‑251.

89. Serafini, T., Stenbeck, G., Brecht, A., Lottspeich, F., Orci, L., Rothman, J.E., and Wieland, F.T. 1991. A coat subunit of Golgi‑derived non‑clathrin‑coated vesicles with homology to the clathrin‑coated vesicle coat protein b‑adaptin. Nature 349:215‑220.

90. Rothman, J. E. 1991. Enzymology of intracellular membrane fusion (Heinrich Wieland- Prize Lectures 1990). Klinische Wochenschrift 69:98‑104.

91. Orci, L., Tagaya, M., Amherdt, M., Perrelet, A., Donaldson, J.G., Lippincott‑Schwartz, J., Klausner, R.D., and Rothman, J.E. 1991. Brefeldin A, a drug that blocks secretion, prevents the assembly of non‑clathrin-coated buds on Golgi cisternae. Cell 64:1183-1195.

92. Waters, M.G., Griff, I.C., and Rothman, J.E. 1991. Proteins involved in vesicular transport and membrane fusion. Curr. Opin. Cell Biol. 3:615-620.

93. Wilson , D.W., Whiteheart, S.W., Orci, L., and Rothman, J.E. 1991. Intracellular membrane fusion. Trends Biochem. Sci. 16:334-337.

94. Serafini, T., Orci, L., Amherdt, M., Brunner, M., Kahn, R.A., and Rothman, J.E. 1991. ADP-ribosylation factor is a subunit of the coat of Golgi-derived COP-coated vesicles: A novel role for a GTP-binding protein. Cell 67:239-253.

95. Flynn, G.C., Pohl, J., Flocco, M.T., and Rothman, J.E. 1991. Peptide-binding specificity of the molecular chaperone BiP. Nature 353:726-730.

96. Rothman, J.E. 1992. The reconstitution of intracellular protein transport in cell-free systems. The Harvey Lectures, Series 86:65-85.

97. Rothman, J.E. and Orci, L. 1992. Molecular dissection of the secretory pathway. Nature 355:409-415. (Review)

98. Bochkareva, E.S., Lissin , N.M. , Flynn, G.C., Rothman, J.E., and Girshovich, A.S. 1992. Positive cooperativity in the functioning of molecular chaperone GroEL. J. Biol. Chem. 267:6796-6800.

99. Wilson , D. W., Whiteheart, S.W., Wiedmann, M., Brunner, M., and Rothman, J.E. 1992. A multisubunit particle implicated in membrane fusion. J. Cell Biol. 117:531-538.

100. Whiteheart, S.W., Brunner, M., Wilson , D.W., Wiedmann, M., and Rothman, J.E. 1992. Soluble N-ethylmaleimide-sensitive fusion attachment proteins (SNAPs) bind to a multi-SNAP receptor complex in Golgi membranes. J. Biol. Chem. 267:12239-12243.

101. Griff, I.C., Schekman, R., Rothman, J.E., and Kaiser , C.A. 1992. The yeast SEC 17 gene product is functionally equivalent to mammalian a-SNAP protein. J. Biol. Chem. 267:12106-12115.

102. Waters, M.G., Clary, D.O., and Rothman, J.E. 1992. A novel 115-kD peripheral membrane protein is required for intercisternal transport in the Golgi stack. J. Cell Biol. 118:1015-1026.

103. Rothman, J.E. Golgi apparatus. 1992. In: McGraw‑Hill Encyclopedia of Science and Technology, Seventh Edition, pp. 164-167.

104. Rothman, J.E. (ed.) 1992. Reconstitution of intracellular transport. Meth. Enzymol. 219, Academic Press, New York .

105. Helms, J.B. and Rothman, J.E. 1992. Inhibition by brefeldin A of a Golgi membrane enzyme that catalyses exchange of guanine nucleotide bound to ARF. Nature 360:352-354.

106. Stenbeck, G., Schreiner, R., Herrmann, D., Auerbach, S., Lottspeich, F., Rothman, J.E., and Wieland, F.T. 1992. g-COP, a coat subunit of non-clathrin-coated vesicles with homology to Sec21p. FEBS Letters 314:195-198.

107. Kahn, R.A., Randazzo, P., Serafini, T., Weiss, O., Rulka, C., Clark , J., Amherdt, M., Roller, P., Orci, L., and Rothman, J.E. 1992. The amino terminus of ADP-ribosylation factor (ARF) is a critical determinant of ARF activities and is a potent and specific inhibitor of protein transport. J. Biol. Chem. 267:13039-13046.

108. Tagaya, M., Wilson , D.W., Brunner, M., Arango, N., and Rothman, J.E. 1993. Domain structure of an N-ethylmaleimide-sensitive fusion protein involved in vesicular transport. J. Biol. Chem. 268:2662-2666.

109. Palmer, D.J., Helms, J.B., Beckers, C.J.M., Orci, L., and Rothman, J.E. 1993. Binding of coatomer to Golgi membranes requires ADP-ribosylation factor. J. Biol. Chem. 268:12083-12089.

110. Park, K., Flynn, G.C., Rothman, J.E., and Fasman, G.D. 1993. Conformational change of chaperone Hsc70 upon binding to a decapeptide: A circular dichroism study. Protein Science 2:325-330.

111. Orci, L., Palmer, D.J., Ravazzola, M., Perrelet, A., Amherdt, M., and Rothman, J.E. 1993. Budding from Golgi membranes requires the coatomer complex of non-clathrin coat proteins. Nature 362:648-652.

112. Helms, J.B., Palmer, D.J., and Rothman, J.E. 1993. Two distinct populations of ARF bound to Golgi membranes. J. Cell Biol. 121:751-760.

113. Orci, L., Palmer, D.J., Amherdt, M., and Rothman J.E. 1993. Coated vesicle assembly in the Golgi requires only coatomer and ARF proteins from the cytosol. Nature 364:732-734.

114. Stamnes, M.A. and Rothman, J.E. 1993. The binding of AP-1 clathrin adaptor particles to Golgi membranes requires ADP-ribosylation factor, a small GTP-binding protein. Cell 73:999-1005.

115. Söllner, T., Whiteheart, S.W., Brunner, M., Erdjument-Bromage, H., Geromanos, S., Tempst, P., and Rothman, J.E. 1993. SNAP receptors implicated in vesicle targeting and fusion. Nature 362:318-324.

116. Whiteheart, S.W., Griff, I.C., Brunner, M., Clary, D.O., Mayer, T., Buhrow , S.A. , and Rothman, J.E. 1993. SNAP family of NSF attachment proteins includes a brain-specific isoform. Nature 362:353-355.

117. Orci, L., Perrelet, A., Ravazzola, M., Wieland, F.T., Schekman, R., and Rothman, J.E. 1993. “BFA bodies”: A subcompartment of the endoplasmic reticulum. Proc. Natl. Acad. Sci. USA 90:11089-11093.

118. Söllner, T., Bennett, M.K., Whiteheart, S.W., Scheller, R.H., and Rothman, J.E. 1993. A protein assembly-disassembly pathway in vitro that may correspond to sequential steps of synaptic vesicle docking, activation, and fusion. Cell 75:409-418.

119. Tanigawa, G., Orci, L., Amherdt, M., Ravazzola, M., Helms, J.B., and Rothman, J.E. 1993. Hydrolysis of bound GTP by ARF protein triggers uncoating of Golgi-derived COP-coated vesicles. J. Cell Biol. 123:1365-1371.

120. Ostermann, J., Orci, L., Tani, K., Amherdt, M., Ravazzola, M., Elazar, Z.., and Rothman, J.E. 1993. Stepwise assembly of functionally active transport vesicles. Cell 75:1015-1025.

121. Kuge, O., Hara-Kuge, S., Orci, L., Ravazzola, M., Amherdt, M., Tanagawa, G., Wieland, F.T., and Rothman, J.E. 1993. z-COP, a subunit of coatomer, is required for COP-coated vesicle assembly. J. Cell Biol. 123:1727-1734.

122. Hara-Kuge, S., Kuge, O., Orci, L., Amherdt, M., Ravazzola, M., Wieland, F.T., and Rothman, J.E. 1994. En bloc incorporation of coatomer subunits during the assembly of COP-coated vesicles. J. Cell Biol. 124:883-892.

123. Elazar, Z., Mayer, T., and Rothman, J.E. 1994. Removal of Rab GTP-binding proteins from Golgi membranes by GDP dissociation inhibitor inhibits inter-cisternal transport in the Golgi stacks. J. Biol. Chem. 269:794-797.

124. Elazar, Z., Orci, L., Ostermann, J., Amherdt, M., Tanigawa, G., and Rothman, J.E. 1994. ADP-ribosylation factor and coatomer couple fusion to vesicle budding. J. Cell Biol. 124:415-424.

125. Rothman, J.E. and Warren , G. 1994. Implications of the SNARE hypothesis for intracellular membrane topology and dynamics. Curr. Biol. 4:220-233.

126. Kuge, O., Dascher, C., Orci, L., Rowe, T., Amherdt, M., Plutner, H., Ravazzola, M., Tanigawa, G., Rothman, J.E., and Balch, W.E. 1994. Sar1 promotes vesicle budding from the endoplasmic reticulum but not Golgi compartments. J. Cell Biol. 125:51-65.

127. Whiteheart, S.W., Rossnagel, K., Buhrow , S.A. , Brunner, M., Jaenicke, R., and Rothman, J.E. 1994. N-ethylmaleimide-sensitive fusion protein: A trimeric ATPase whose hydrolysis of ATP is required for membrane fusion. J. Cell Biol. 126:945-954.

128. Söllner, T. and Rothman, J.E. 1994. Neurotransmission: Harnessing fusion machinery at the synapse. Trends Neurosci. 17:344-348.

129. Søgaard, M., Tani, K., Ye, R.R., Geromanos, S., Tempst, P., Kirchhausen, T., Rothman, J.E., and Söllner, T. 1994. A Rab protein is required for the assembly of SNARE complexes in the docking of transport vesicles. Cell 78:937-948.

130. Rothman, J.E. 1994. Mechanisms of intracellular protein transport. Nature 372:55-63.

131. Rothman, J.E. 1994. Intracellular membrane fusion. In: Molecular and Cellular Mechanisms of Neurotransmitter Release. Stjärne, L., Greengard, P., Grillner, S., Hökfelt, T., and Ottoson, D. (eds.), Raven Press, NY, pp. 81-96.

132. Orci, L., Perrelet, A., Ravazzola, M., Amherdt, M., Rothman, J.E., and Schekman, R. 1994. Coatomer-rich endoplasmic reticulum. Proc. Natl. Acad. Sci. USA 91:11924-11928.

133. DeBello, W.M., O’Connor, V., Dresbach, T., Whiteheart, S.W., Wang, S.S.-H, Schweizer, F.E., Betz, H., Rothman, J.E., and Augustine, G.J. 1995. SNAP-mediated protein-protein interactions essential for neurotransmitter release. Nature 373:626-630.

134. Miesenböck, G. and Rothman, J.E. 1995. The capacity to retrieve escaped ER proteins extends to the trans-most cisterna of the Golgi stack. J. Cell Biol. 129:309-319.

135. Stamnes, M.A., Craighead, M.W., Hoe, M.H., Lampen, N., Geromanos, S., Tempst, P., and Rothman, J.E. 1995. An integral membrane component of coatomer-coated transport vesicles defines a family of proteins involved in budding. Proc. Natl. Acad. Sci. USA 92:8011-8015.

136. Schiavo, G., Gmachl, M.J.S., Stenbeck, G., Söllner, T.H., and Rothman, J.E. 1995. A possible docking and fusion particle for synaptic transmission. Nature 378:733-736.

137. Rothman, J.E. 1996. The protein machinery of vesicle budding and fusion. Protein Science 5:185-194.

138. Rothman, J.E. and Orci, L. 1996. Budding vesicles in living cells. Sci. Amer. 274:70-75.

139. Nagahama, M., Orci, L., Ravazzola, M., Amherdt, M., Lacomis, L., Tempst, P., Rothman, J.E., and Söllner, T.H. A v-SNARE implicated in intra-Golgi transport. 1996. J. Cell Biol. 133:507-516.

140. Rothman, J.E. and Wieland, F.T. 1996. Protein sorting by transport vesicles. Science 272:227-234.

141. Veit, M., Söllner, T.H., and Rothman, J.E. 1996. Multiple palmitoylation of synaptotagmin and the t-SNARE SNAP-25. FEBS Lett. 385:119-123.

142. Rothman, J.E. 1996. Mechanisms of intracellular protein transport. Felix Hoppe-Seyler Lecture 1996, Biol. Chem. 377:407-410.

143. Fiedler, K., Veit, M., Stamnes, M.A., and Rothman, J.E. 1996. Bimodal interaction of coatomer with the p24 family of putative cargo receptors. Science 273:1396-1399.

144. Schiavo, G., Gu, Q.M., Prestwich, G.D., Söllner, T.H., and Rothman, J.E. 1996. Calcium-dependent switching of the specificity of phosphoinositide binding to synaptotagmin. Proc. Natl. Acad. Sci. USA 93:13327-13332.

145. Söllner, T.H. and Rothman, J.E. 1996. Molecular machinery mediating vesicle budding, docking and fusion. Experientia 52:1021-1025.

146. Schiavo, G., Stenbeck, G., Rothman, J.E., and Söllner, T.H. 1997. Binding of the synaptic vesicle v-SNARE, synaptotagmin, to the plasma membrane t-SNARE, SNAP-25, can explain docked vesicles at neurotoxin-treated synapses. Proc. Natl. Acad. Sci. USA 94:997-1001.

147. Miesenböck, G. and Rothman, J.E. 1997. Patterns of synaptic activity in neural networks recorded by light emission from synaptolucins. Proc. Natl. Acad. Sci. USA 94:3402-3407.

148. Paek, I. , Orci, L., Ravazzola, M., Erdjument-Bromage, H., Amherdt, M., Tempst, P., Söllner, T.H., and Rothman, J.E. 1997. ERS-24, a mammalian v-SNARE implicated in vesicle traffic between the ER and the Golgi. J. Cell Biol. 137:1017-1028.

149. McNew, J.A., Søgaard, M., Lampen , N.M. , Machida , S., Ye, R.R., Lacomis, L., Tempst, P., Rothman, J.E., and Söllner, T.H. 1997. Ykt6p, a prenylated SNARE essential for endoplasmic reticulum-Golgi transport. J. Biol. Chem. 272:17776-17783.

150. Rothman, J.E., and Söllner, T.H. 1997. Throttles and dampers: Controlling the engine of membrane fusion. Science 276:1212-1213.

151. Orci, L., Stamnes, M., Ravazzola, M., Amherdt, M., Perrelet, A., Söllner, T.H., and Rothman, J.E. 1997. Bidirectional transport by distinct populations of COPI-coated vesicles. Cell 90:335-349.

152. Fiedler, K. and Rothman, J.E. 1997. Sorting determinants in the transmembrane domain of p24 proteins. J. Biol. Chem. 272:24739-24742.

153. Orci, L., Perrelet, A., and Rothman, J.E. 1998. Vesicles on strings: Morphological evidence for processive transport within the Golgi stack. Proc. Natl. Acad. Sci. USA 95:2279-2283

154. Weber, T., Zemelman, B.V., McNew, J.A., Westermann, B., Gmachl, M., Parlati, F., Söllner, T.H., and Rothman, J.E. 1998. SNAREpins: Minimal machinery for membrane fusion. Cell 92:759-772.

155. Miesenböck, G., De Angelis, D.A., and Rothman, J.E. 1998. Visualizing secretion and synaptic transmission with pH-sensitive green fluorescent proteins. Nature 394:192-195.

156. De Angelis, D.A., Miesenböck, G., Zemelman, B.V., and Rothman, J.E. 1998. PRIM: Proximity imaging of green fluorescent protein-tagged polypeptides. Proc. Natl. Acad. Sci. USA 95:12312-12316.

157. Stamnes, M., Schiavo, G., Stenbeck, G., Söllner, T.H., and Rothman, J.E. 1998. ADP-ribosylation factor and phosphatidic acid levels in Golgi membranes during budding of coatomer-coated vesicles. Proc. Natl. Acad. Sci. USA 95:13676-13680.

158. Hohl, T.M., Parlati, F., Wimmer, C., Rothman, J.E., Söllner, T.H., and Engelhardt, H. 1998. Arrangement of subunits in 20 S particles consisting of NSF, SNAPs, and SNARE complexes. Mol. Cell 2:539-548.

159. Bremser, M., Nickel, W., Schweikert, M., Ravazzola, M., Amherdt, M., Hughes , C.A. , Söllner, T.H., Rothman, J.E., and Wieland, F.T. 1999. Coupling of coat assembly and vesicle budding to packaging of putative cargo receptors. Cell 96:495-506.

160. McNew, J.A., Weber, T., Engelman, D.M., Söllner, T.H., and Rothman, J.E. 1999. The length of the flexible SNAREpin juxtamembrane region is a critical determinant of SNARE-dependent fusion. Mol. Cell 4:415-421.

161. Parlati, F., Weber, T., McNew, J.A., Westermann, B., Söllner, T.H., and Rothman, J.E. 1999. Rapid and efficient fusion of phospholipid vesicles by the a-helical core of a SNARE complex in the absence of an N-terminal regulatory domain. Proc. Natl. Acad. Sci. USA 96:12565-12570.

162. Nickel, W., Weber, T., McNew, J.A., Parlati, F., Söllner, T.H., and Rothman, J.E. 1999. Content mixing and membrane integrity during membrane fusion driven by pairing of isolated v-SNAREs and t-SNAREs. Proc. Natl. Acad. Sci. USA 96:12571-12576.

163. Brügger, B., Nickel, W., Weber, T., Parlati, F., McNew, J.A., Rothman, J.E., and Söllner, T. 2000. Putative fusogenic activity of NSF is restricted to a lipid mixture whose coalescence is also triggered by other factors. EMBO J. 19:1272-1278.

164. Rivera, V.M., Wang, X., Wardwell, S., Courage, N.L., Volchuk, A., Keenan, T., Holt, D.A., Gilman, M., Orci, L., Cerasoli Jr., F., Rothman, J.E., and Clackson, T. 2000. Regulation of protein secretion through controlled aggregation in the endoplasmic reticulum. Science 287:826-830.

165. Moroi, Y., Mayhew, M., Trcka, J., Hoe, M.H., Takechi, Y., Hartl, F.U., Rothman, J.E., and Houghton, A.N. 2000. Induction of cellular immunity by immunization with novel hybrid peptides complexed to heat shock protein 70. Proc. Natl. Acad. Sci. USA 97:3485-3490.

166. Castellino, F., Boucher, P.E., Eichelberg, K., Mayhew, M., Rothman, J.E., Houghton, A.N., and Germain, R.N. 2000. Receptor-mediated uptake of antigen/heat shock protein complexes results in major histocompatibility complex class I antigen presentation via two distinct processing pathways. J. Exp. Med. 191:1957-1964.

167. Weber, T., Parlati, F., McNew, J.A., Johnston , R.J., Westermann, B., Söllner, T.H., and Rothman, J.E. 2000. SNAREpins are functionally resistant to disruption by NSF and aSNAP. J. Cell Biol. 149:1063-1072.

168. McNew, J.A., Weber, T., Parlati, F., Johnston , R.J., Melia, T.J., Söllner, T.H., and Rothman, J.E. 2000. Close is not enough: SNARE-dependent membrane fusion requires an active mechanism that transduces force to membrane anchors. J. Cell Biol. 150:105-117.

169. Volchuk, A., Amherdt, M., Ravazzola, M., Brügger, B., Rivera, V.M., Clackson, T., Perrelet, A., Söllner, T.H., Rothman, J.E., and Orci, L. 2000. Megavesicles implicated in the rapid transport of intracisternal aggregates across the Golgi stack. Cell 102:335-348.

170. Sankaranarayanan, S., De Angelis, D., Rothman, J.E., and Ryan, T.A. 2000. The use of pHluorins for optical measurements of presynaptic activity. Biophys. J. 79:2199-2208.

171. McNew, J.A., Parlati, F., Fukuda, R., Johnston , R.J., Paz, K., Paumet, F., Söllner, T.H., and Rothman, J.E. 2000. Compartmental specificity of cellular membrane fusion encoded in SNARE proteins. Nature 407:153-159.

172. Parlati, F., McNew, J.A., Fukuda, R., Miller, R., Söllner, T.H., and Rothman, J.E. 2000. Topological restriction of SNARE-dependent membrane fusion. Nature 407:194-198.

173. Fukuda, R., McNew, J.A., Weber, T., Parlati, F., Engel, T., Nickel, W., Rothman, J.E., and Söllner, T.H. 2000. Functional architecture of an intracellular membrane t-SNARE. Nature 407:198-202.

174. Orci, L., Ravazzola, M., Volchuk, A., Engel, T., Gmachl, M., Amherdt, M., Perrelet, A., Söllner, T.H., and Rothman, J.E. 2000. Anterograde flow of cargo across the Golgi stack potentially mediated via bidirectional “percolating” COPI vesicles. Proc. Natl. Acad. Sci. USA 97:10400-10405.

175. Orci, L., Amherdt, M., Ravazzola, M., Perrelet, A., and Rothman, J.E. 2000. Exclusion of Golgi residents from transport vesicles budding from Golgi cisternae in intact cells. J. Cell Biol. 150:1263-1269.

176. Pelham, H.R.B., and Rothman, J.E. 2000. The debate about transport in the Golgi – Two sides of the same coin? Cell 102:713-719.

177. Wimmer, C., Hohl, T.M., Hughes , C.A. , Müller , S.A. , Söllner, T.H., Engel, A., and Rothman, J.E. 2001. Molecular mass, stoichiometry, and assembly of 20 S particles. J. Biol. Chem. 276:29091-29097.

178. Rothman, J.E. 2001. Great Experiments: Protein Transport – The Cell-free Reconstitution of Vesicle Transport (http://www.ergito.com/servlet/Lookup?expt=rothman1)

179. Rothman, J.E., and Söllner, T.H. 2001. Great Experiments: Protein Transport – The SNARE Complex and Its Role In the Specificity of Membrane Fusion (http://www.ergito.com/servlet/Lookup?expt=rothman2)

180. Paumet, F., Brügger, B., Parlati, F., McNew, J.A., Söllner, T.H., and Rothman, J.E. 2001. A t-SNARE of the endocytic pathway must be activated for fusion. J. Cell Biol. 155:961-968.

181. Parlati, F., Varlamov, O., Paz, K., McNew, J.A., Hurtado, D., Söllner, T.H., and Rothman, J.E. 2002. Distinct SNARE complexes mediating membrane fusion in Golgi transport based on combinatorial specificity. Proc. Natl. Acad. Sci. USA 99:54424-5429.

182. Melia, T.E., Weber, T., McNew, J.A., Fisher, L.E., Johnston , R.J., Parlati, F., Mahal, L.K., Söllner, T.H., and Rothman, J.E. 2002 Regulation of membrane fusion by conformational switching of the membrane-proximal coil of the t-SNARE during zippering of SNAREpins. J. Cell Biol. 158:929-940.

1 83. Cosson, P., Amherdt, M., Rothman, J.E., and Orci, L. 2002. A resident Golgi protein is excluded from per-Golgi vesicles in NRK cells. Proc. Natl. Acad. Sci.

USA

99: 1 283 1 - 1 2834.

184. Rothman, J.E. 2002. Lasker Basic Medical Research Award. The machinery and principles of vesicle transport in the cell. Nature Med. 8:1059-1062

185. Hu, C., Ahmed, M., Melia, T.J., Söllner, T.H., Mayer, T., and Rothman, J.E. 2003. Fusion of cells by ‘flipped’ SNAREs. Science 300: 1745-1749.

186. Burri, L., Varlamov, O., Döge , C.A. Hofmann, K., Beilharz, T., Rothman, J.E., Söllner, T.H. and Lithgow, T. 2003. A novel SNARE required for retrograde transport to the endoplasmic reticulum. Proc. Natl. Acad. Sci.

USA

100:9873-9877.

187. Varmalov, O., Volchuk, A., Rahimian, V., Doege , C.A. , Paumet, F., Eng, W.E., Arango, N., Parlati, F., Ravazzola, M., Orci, L., Söllner,T.H., and Rothman, J.E. 2004.

i-SNAREs: inhibitory SNAREs that fine-tune the specificity of membrane fusion. J. Cell Biol. 164:79-88.

188. Paumet, F., Rahimian, V. and James E. Rothman. 2004. The Specificity of SNARE-dependent fusion in encoded in the SNARE motif. Proc. Natl. Acad. Sci. USA 101:3376-3380.

189. Fix, M., Melia, T.J., Jaiswal, J.K. Rappoport, J.Z., You, D., Sollner, T.H., Rothman, J.E. and Simon, S.M. 2004. Imaging single-membrane fusion events mediatd by SNARE proteins. Proc. Natl. Acad. Sci. USA 101:7311-7316.

190. Fukasawa, M., Varlamov, O., Eng, W.S., Söllner, T.S., Rothman, J.E. 2004. Localization and activity of the SNARE Ykt6 determined by its regulatory domain and palmitoylation. Proc. Natl. Acad. Sci. USA. 101: 4815-4820.

1 9 1 . Volchuk, A., Ravazzola, M., Perrelet, A., Eng, W.S., Di Liberto, M., Varlamov, O., Fukasawa, M., Engel, T., Söllner, T.S., Rothman, J.E., Orci. L. 2004. Countercurrent Distribution of Two Distinct SNARE Complexes Mediating transport within the Golgi Stack. Mol. Biol. of the Cell 1 5: 1 506- 1 5 1 8.

192. Becker, T., Volchuk, A., and Rothman, J.E. 2004. Differential use of ER membrane for phagocytosos in J774 macrophages. Proc. Natl. Acad. Sci. USA . 102:4022-4026.

193. Paumet, F, Rahimian, V., Di Liberto, M. and Rothman, J.E. 2005. Concerted Auto-Regulation in Yeast Endosomal, t-SNAREs. J. Biol. Chem. 280: 21137-21143.

194. Giraudo, C.G., Hu, C., You, D., Slovic, A., Mosharov, E.V., Sulzer, D., Melia, T.J., Rothman, J.E. 2005. SNAREs Can Promote Complete Fusion and Hemifusion as Alternative Outcomes. J. Cell Biol. 170:249-280.

195. Cosson, P., Ravazzola, M., Varlamov, O., Söllner, T.H., Di Liberto, M., Volchuk, A., Rothman, J.E., Orci, L. 2005. Dynamic transport of SNARE proteins in the Golgi apparatus. Biological Sciences. Proc. Natl. Acad. Sci. USA . 102:14647-14652.


		James Edward Rothman Curriculum vitae

Home			Date and Place of Birth: November 3, 1950 , Haverhill , Massachusetts Address: Department of Physiology and Cellular Biophysics, Columbia University College of Physicians and Surgeons New York , New York 10032 Education: Yale College – B.A., summa cum laude 1967 ‑ 1971 Harvard Medical School – Medical Student 1971 - 1973 Department of Biological Chemistry, Harvard Medical School – Ph.D. (Dr. E.P. Kennedy) 1973 ‑ 1976 Department of Biology, Massachusetts Institute of Technology – Postdoctoral Fellow (Dr. H.F. Lodish) 1976 ‑ 1978 Appointments: Assistant Professor, Department of Biochemistry, Stanford University 1978 ‑ 1981 Associate Professor (tenure), Department of Biochemistry, Stanford University 1981 ‑ 1984 Professor, Department of Biochemistry, Stanford University 1984 ‑ 1988 E. R. Squibb Professor of Molecular Biology, Department of Molecular Biology, Princeton University 1988 ‑ 1991 Chairman, Cellular Biochemistry and Biophysics Program, Sloan-Kettering Institute 1991 – 2003 Paul A. Marks Chair and Chairman, Cellular Biochemistry and Biophysics Program, Memorial Sloan-Kettering Cancer Center 1991 - 2004 Vice Chairman, Sloan-Kettering Institute 1994 – 2003 Director, Chemical Biology Center and Professor, Department of Physiology and Cellular Biophysics, Columbia University , College of Physicians and Surgeons 2004 – Member, Columbia Cancer Center 2004 – Clyde and Helen Wu Professor of Chemical Biology 2005 - Director, Columbia Genome Center 2005 - Major Honors And Awards: The Eli Lilly Award for Fundamental Research in Biological Chemistry, U.S.A. 1986 The Passano Young Scientist Award , U.S.A. 1986 The Alexander Von Humboldt Award, Germany 1989 The Heinrich Wieland Prize, Germany 1990 Member, National Academy of Sciences , U.S.A. 1993 The Rosenstiel Award in Biomedical Sciences (with R. Schekman), U.S.A. 1994 Fellow, American Academy of Arts and Sciences 1994 The V.D. Mattia Award, U.S.A. 1994 The Fritz Lipmann Award, U.S.A. 1 995 Member, Institute of Medicine , National Academy of Sciences, U.S.A. 1995 Dr. h.c., University of Regensburg , Germany 1995 Foreign Associate, European Molecular Biology Organization 1995 Mayor’s Award For Excellence in Science and Technology, New York 1995 Gairdner Foundation International Award (with R. Schekman), Canada 1996 King Faisal International Prize in Science (with G. Blobel and H. Pelham), Saudia Arabia 1996 The Harden Medal , U.K. 1997 The Lounsbery Award, National Academy of Sciences , U.S.A. 1997 The Feodor Lynen Award (with G. Blobel and G. Schatz), U.S.A. 1997 Dr. h.c., University of Geneva , Switzerland 1997 The Jacobæus Prize, Denmark 1999 The Heineken Prize, The Netherlands 2000 The Otto-Warburg Medal, Germany 2001 The Louisa Gross Horwitz Prize (with R. Schekman), U.S.A. 2002 The Lasker Basic Research Award (with R. Schekman), U.S.A. 2002 Honorary Member, Japanese Biochemical Society 2005 Lectureships: Lamport Visiting Professor, Columbia College of Physicians and Surgeons 1985 Welch Foundation Lecturer, State of Texas 1987 Wellcome Foundation Lecturer, F.A.S.E.B. 1988 Proctor Lectureship in Life Sciences, University of Illinois 1989 Mayer Lecturer, Massachusetts Institute of Technology 1989 Japan Society for the Promotion of Science 1990 Albert Claude Lecture, European Society for Cell Biology 1990 Utter Lecture, Case Western Reserve School of Medicine 1990 The Harvey Lectures 1991 Nordic Molecular Biology Association Lecture 1992 Gavin Borden Lecture, British Society for Cell and Developmental Biology 1993 Crane Lecture, Rutgers Medical School 1993 Hille Lecture in Neuroscience, Univ. of Washington 1994 Lehninger Lecture, Johns Hopkins University School of Medicine 1994 Garland Lecture, University of Dundee 1995 Baird Hastings Lecture, Harvard Medical School 1995 Grass Foundation Distinguished Lecture, Society of Neuroscience 1995 Distinguished Scientist Lectures, Bard College 1995 Steenbock Lectures, Univ. of Wisconsin-Madison 1996 Hoppe-Seyler Lecture, German Biochemical Society 1996 The Weizmann Memorial Lectures, Weizmann Institute, Israel 1996 Von Neumann Memorial Lectures, The Institute for Advanced Study 1996 Cruickshank Lecturer, Gordon Research Conference 1997 The Jubilee Lecture, British Biochemical Society 1997 Samuel Rudin Distinguished Visiting Professor, Columbia University College of Physicians and Surgeons 1998 Life Sciences Lecturer, University of Michigan 2000 Beering Award for Advancement of Biomedical Science, Indiana University School of Medicine 2005 Honorary Professor, Peking Union Medical College , Beijing , China 2005 Q. R. Murphy Lecture in Physiology, University of Wisconsin 2005 Activities: Editorial Board, Molecular and Cellular Biology 1982 ‑ 1984 Chairman, Gordon Conference on Molecular Membrane Biology 1983 Board of Editors, Science 1984 ‑ 1989 Editorial Committee, Annual Review of Biochemistry 1985 ‑ 1990 Editorial Board, Cell 1984 ‑ 1994 NIH Study Section, Molecular Cytology 1990 ‑ 1994 Council, National Institute of Digestive and Kidney Diseases, NIH 1997 - 1999 Developmental Therapeutics Review Group, National Cancer Institute 1997 - 1998 Board of Senior Editors, Journal of Clinical Investigation 2002 - Associate Editor, Annual Review of Biochemistry 2003 – PUBLICATIONS JAMES EDWARD ROTHMAN 1. Rothman, J.E., Melchior, D.L., and Morowitz, H.J. 1972. A dilatometer for volume‑temperature determinations of liquids. Rev. Sci. Instr. 43:743‑745. 2. Rothman, J.E. and Engelman, D.M. 1972. Molecular mechanism for the interaction of phospholipid with cholesterol. Nature ( London ) New Biology 237:42‑44. 3. Engelman, D.M. and Rothman, J.E. 1972. The planar organization of lecithin‑cholesterol bilayers. J. Biol. Chem. 247:3694‑3697. 4. Rothman, J.E. 1973. The molecular basis of mesomorphic phase transitions in phospholipid systems. J. Theoret. Biol. 38:1‑16. 5. Rothman, J.E. and Dawidowicz, E.A. 1975. Asymmetric exchange of vesicle phospholipids catalyzed by the phosphatidylcholine exchange protein: Measurement of inside‑outside transitions. Biochemistry 14:2809‑2816. 6. Rothman, J.E., Tsai, D.K., Dawidowicz, E.A., and Lenard, J. 1976. Transbilayer phospholipid asymmetry and its maintenance in the membrane of influenza virus. Biochemistry 15:2361‑2370. 7. Lenard, J. and Rothman, J.E. 1976. Transbilayer distribution and movement of cholesterol and phospholipid in the membrane of influenza virus. Proc. Natl. Acad. Sci. USA 73:391‑395. 8. Dawidowicz, E.A. and Rothman, J.E. 1976. Fusion and protein‑mediated phospholipid exchange studied with single bilayer phosphatidylcholine vesicles of different density. Biochem. Biophys. Acta 455:621‑630. 9. Rothman, J.E. and Kennedy, E.P. 1977. Asymmetrical distribution of phospholipids in the membrane of Bacillus megaterium. J. Molec. Biol. 110:603‑618. 10. Rothman, J.E. and Kennedy, E.P. 1977. Rapid transmembrane movement of newly synthesized phospholipids during membrane assembly. Proc. Natl. Acad. Sci. USA 74:1821‑1825. 11. Rothman, J.E. and Lenard, J. 1977. Membrane asymmetry: The nature of membrane asymmetry provides clues to the puzzle of how membranes are assembled. Science 195:743‑753. 12. Katz, F.N., Rothman, J.E., Lingappa, V.R., Blobel, G., and Lodish, H.F. 1977. Membrane assembly in vitro: Synthesis, glycosylation and asymmetric insertion of a transmembrane protein. Proc. Natl. Acad. Sci. USA 74:3278‑3282. 13. Katz, F.N., Rothman, J.E., Knipe, D.M., and Lodish, H.F. 1977. Membrane assembly: Synthesis and intracellular processing of the vesicular stomatitis viral glycoprotein. ICN‑UCLA Symposium Proc.: J. Supramol. Struct. 7:353-370. 14. Rothman, J.E. and Lodish, H.F. 1977. Synchronised transmembrane insertion and glycosylation of a nascent membrane protein. Nature ( London ) 269:775‑780. 15. Rothman, J.E., Katz, F. N., and Lodish, H.F. 1978. Glycosylation of a membrane protein is restricted to the growing polypeptide chain but is not necessary for insertion as a transmembrane protein. Cell 15:1447‑1454. 16. Lodish, H.F. and Rothman, J.E. l979. The assembly of cell membranes. Sci. Amer. 240:48‑63. 17. Rothman, J.E. 1980. An overview of membrane structure and biosynthesis. In: Membrane‑Membrane Interactions – Symp. of the Soc. of General Physiologists. Gilula, N.B. (ed.), Raven Press, 34:1‑9. 18. Rothman, J.E. and Fine, R.E. 1980. Coated vesicles transport newly synthesized membrane glycoproteins from the endoplasmic reticulum to plasma membrane in two successive stages. Proc. Natl. Acad. Sci. USA 77:780‑784. 19. Rothman, J.E., Bursztyn‑Pettegrew, H., and Fine, R.E. 1980. Transport of the membrane glycoprotein of vesicular stomatitis virus to the cell surface in two stages by clathrincoated vesicles. J. Cell Biol. 86:162‑171. 20. Fries, E. and Rothman, J.E. 1980. Transport of vesicular stomatitis virus glycoprotein in a cell‑free extract. Proc. Natl. Acad. Sci. USA 77:3870‑3874. 21. Rothman, J.E. and Fries, E. 1981. Transport of newly synthesized vesicular stomatitis viral glycoprotein to purified Golgi membranes. J. Cell Biol. 89:162‑168. 22. Rubenstein, J.L.R., Fine, R.E., Luskey, B.D., and Rothman, J.E. 1981. Purification of coated vesicles by agarose gel electrophoresis. J. Cell Biol. 89:357‑361. 23. Fries, E. and Rothman, J.E. 1981. Transient activity of Golgi‑like membranes as donors of vesicular stomatitis viral glycoprotein in vitro. J. Cell Biol. 90:697‑704. 24. Rothman, J.E. 1981. The Golgi apparatus: Two organelles in tandem. Science 213:1212‑1219. 25. Dunphy, W.G., Fries, E., Urbani, L.J., and Rothman, J.E. 1981. Early and late functions associated with the Golgi apparatus reside in distinct compartments. Proc. Natl. Acad. Sci. USA 78:7453‑7457. 26. Schmid, S.F., Matsumoto, A.K., and Rothman, J.E. 1982. A domain of clathrin that forms coats. Proc. Natl. Acad. Sci. USA 79:91‑95. 27. Patzer, E.J., Schlossman, D.M., and Rothman, J.E. 1982. Release of clathrin from coated vesicles dependent upon a nucleoside triphosphate and a cytosol fraction. J. Cell Biol. 93:230‑236. 28. Rothman, J.E., Fries, E., Dunphy, W.G., and Urbani, L.J. 1982. The Golgi apparatus, coated vesicles, and the sorting problem. Cold Spring Harbor Symposium on Quantitative Biology 46:797‑805. 29. Rothman, J.E. 1982. 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Multiple palmitoylation of synaptotagmin and the t-SNARE SNAP-25. FEBS Lett. 385:119-123. 142. Rothman, J.E. 1996. Mechanisms of intracellular protein transport. Felix Hoppe-Seyler Lecture 1996, Biol. Chem. 377:407-410. 143. Fiedler, K., Veit, M., Stamnes, M.A., and Rothman, J.E. 1996. Bimodal interaction of coatomer with the p24 family of putative cargo receptors. Science 273:1396-1399. 144. Schiavo, G., Gu, Q.M., Prestwich, G.D., Söllner, T.H., and Rothman, J.E. 1996. Calcium-dependent switching of the specificity of phosphoinositide binding to synaptotagmin. Proc. Natl. Acad. Sci. USA 93:13327-13332. 145. Söllner, T.H. and Rothman, J.E. 1996. Molecular machinery mediating vesicle budding, docking and fusion. Experientia 52:1021-1025. 146. Schiavo, G., Stenbeck, G., Rothman, J.E., and Söllner, T.H. 1997. Binding of the synaptic vesicle v-SNARE, synaptotagmin, to the plasma membrane t-SNARE, SNAP-25, can explain docked vesicles at neurotoxin-treated synapses. Proc. Natl. Acad. Sci. USA 94:997-1001. 147. Miesenböck, G. and Rothman, J.E. 1997. Patterns of synaptic activity in neural networks recorded by light emission from synaptolucins. Proc. Natl. Acad. Sci. USA 94:3402-3407. 148. Paek, I. , Orci, L., Ravazzola, M., Erdjument-Bromage, H., Amherdt, M., Tempst, P., Söllner, T.H., and Rothman, J.E. 1997. ERS-24, a mammalian v-SNARE implicated in vesicle traffic between the ER and the Golgi. J. Cell Biol. 137:1017-1028. 149. McNew, J.A., Søgaard, M., Lampen , N.M. , Machida , S., Ye, R.R., Lacomis, L., Tempst, P., Rothman, J.E., and Söllner, T.H. 1997. Ykt6p, a prenylated SNARE essential for endoplasmic reticulum-Golgi transport. J. Biol. Chem. 272:17776-17783. 150. Rothman, J.E., and Söllner, T.H. 1997. Throttles and dampers: Controlling the engine of membrane fusion. Science 276:1212-1213. 151. Orci, L., Stamnes, M., Ravazzola, M., Amherdt, M., Perrelet, A., Söllner, T.H., and Rothman, J.E. 1997. Bidirectional transport by distinct populations of COPI-coated vesicles. Cell 90:335-349. 152. Fiedler, K. and Rothman, J.E. 1997. Sorting determinants in the transmembrane domain of p24 proteins. J. Biol. Chem. 272:24739-24742. 153. Orci, L., Perrelet, A., and Rothman, J.E. 1998. Vesicles on strings: Morphological evidence for processive transport within the Golgi stack. Proc. Natl. Acad. Sci. USA 95:2279-2283 154. Weber, T., Zemelman, B.V., McNew, J.A., Westermann, B., Gmachl, M., Parlati, F., Söllner, T.H., and Rothman, J.E. 1998. SNAREpins: Minimal machinery for membrane fusion. Cell 92:759-772. 155. Miesenböck, G., De Angelis, D.A., and Rothman, J.E. 1998. Visualizing secretion and synaptic transmission with pH-sensitive green fluorescent proteins. Nature 394:192-195. 156. De Angelis, D.A., Miesenböck, G., Zemelman, B.V., and Rothman, J.E. 1998. PRIM: Proximity imaging of green fluorescent protein-tagged polypeptides. Proc. Natl. Acad. Sci. USA 95:12312-12316. 157. Stamnes, M., Schiavo, G., Stenbeck, G., Söllner, T.H., and Rothman, J.E. 1998. ADP-ribosylation factor and phosphatidic acid levels in Golgi membranes during budding of coatomer-coated vesicles. Proc. Natl. Acad. Sci. USA 95:13676-13680. 158. Hohl, T.M., Parlati, F., Wimmer, C., Rothman, J.E., Söllner, T.H., and Engelhardt, H. 1998. Arrangement of subunits in 20 S particles consisting of NSF, SNAPs, and SNARE complexes. Mol. Cell 2:539-548. 159. Bremser, M., Nickel, W., Schweikert, M., Ravazzola, M., Amherdt, M., Hughes , C.A. , Söllner, T.H., Rothman, J.E., and Wieland, F.T. 1999. Coupling of coat assembly and vesicle budding to packaging of putative cargo receptors. Cell 96:495-506. 160. McNew, J.A., Weber, T., Engelman, D.M., Söllner, T.H., and Rothman, J.E. 1999. The length of the flexible SNAREpin juxtamembrane region is a critical determinant of SNARE-dependent fusion. Mol. Cell 4:415-421. 161. Parlati, F., Weber, T., McNew, J.A., Westermann, B., Söllner, T.H., and Rothman, J.E. 1999. Rapid and efficient fusion of phospholipid vesicles by the a-helical core of a SNARE complex in the absence of an N-terminal regulatory domain. Proc. Natl. Acad. Sci. USA 96:12565-12570. 162. Nickel, W., Weber, T., McNew, J.A., Parlati, F., Söllner, T.H., and Rothman, J.E. 1999. Content mixing and membrane integrity during membrane fusion driven by pairing of isolated v-SNAREs and t-SNAREs. Proc. Natl. Acad. Sci. USA 96:12571-12576. 163. Brügger, B., Nickel, W., Weber, T., Parlati, F., McNew, J.A., Rothman, J.E., and Söllner, T. 2000. Putative fusogenic activity of NSF is restricted to a lipid mixture whose coalescence is also triggered by other factors. EMBO J. 19:1272-1278. 164. Rivera, V.M., Wang, X., Wardwell, S., Courage, N.L., Volchuk, A., Keenan, T., Holt, D.A., Gilman, M., Orci, L., Cerasoli Jr., F., Rothman, J.E., and Clackson, T. 2000. Regulation of protein secretion through controlled aggregation in the endoplasmic reticulum. Science 287:826-830. 165. Moroi, Y., Mayhew, M., Trcka, J., Hoe, M.H., Takechi, Y., Hartl, F.U., Rothman, J.E., and Houghton, A.N. 2000. Induction of cellular immunity by immunization with novel hybrid peptides complexed to heat shock protein 70. Proc. Natl. Acad. Sci. USA 97:3485-3490. 166. Castellino, F., Boucher, P.E., Eichelberg, K., Mayhew, M., Rothman, J.E., Houghton, A.N., and Germain, R.N. 2000. Receptor-mediated uptake of antigen/heat shock protein complexes results in major histocompatibility complex class I antigen presentation via two distinct processing pathways. J. Exp. Med. 191:1957-1964. 167. Weber, T., Parlati, F., McNew, J.A., Johnston , R.J., Westermann, B., Söllner, T.H., and Rothman, J.E. 2000. SNAREpins are functionally resistant to disruption by NSF and aSNAP. J. Cell Biol. 149:1063-1072. 168. McNew, J.A., Weber, T., Parlati, F., Johnston , R.J., Melia, T.J., Söllner, T.H., and Rothman, J.E. 2000. Close is not enough: SNARE-dependent membrane fusion requires an active mechanism that transduces force to membrane anchors. J. Cell Biol. 150:105-117. 169. Volchuk, A., Amherdt, M., Ravazzola, M., Brügger, B., Rivera, V.M., Clackson, T., Perrelet, A., Söllner, T.H., Rothman, J.E., and Orci, L. 2000. Megavesicles implicated in the rapid transport of intracisternal aggregates across the Golgi stack. Cell 102:335-348. 170. Sankaranarayanan, S., De Angelis, D., Rothman, J.E., and Ryan, T.A. 2000. The use of pHluorins for optical measurements of presynaptic activity. Biophys. J. 79:2199-2208. 171. McNew, J.A., Parlati, F., Fukuda, R., Johnston , R.J., Paz, K., Paumet, F., Söllner, T.H., and Rothman, J.E. 2000. Compartmental specificity of cellular membrane fusion encoded in SNARE proteins. Nature 407:153-159. 172. Parlati, F., McNew, J.A., Fukuda, R., Miller, R., Söllner, T.H., and Rothman, J.E. 2000. Topological restriction of SNARE-dependent membrane fusion. Nature 407:194-198. 173. Fukuda, R., McNew, J.A., Weber, T., Parlati, F., Engel, T., Nickel, W., Rothman, J.E., and Söllner, T.H. 2000. Functional architecture of an intracellular membrane t-SNARE. Nature 407:198-202. 174. Orci, L., Ravazzola, M., Volchuk, A., Engel, T., Gmachl, M., Amherdt, M., Perrelet, A., Söllner, T.H., and Rothman, J.E. 2000. Anterograde flow of cargo across the Golgi stack potentially mediated via bidirectional “percolating” COPI vesicles. Proc. Natl. Acad. Sci. USA 97:10400-10405. 175. Orci, L., Amherdt, M., Ravazzola, M., Perrelet, A., and Rothman, J.E. 2000. Exclusion of Golgi residents from transport vesicles budding from Golgi cisternae in intact cells. J. Cell Biol. 150:1263-1269. 176. Pelham, H.R.B., and Rothman, J.E. 2000. The debate about transport in the Golgi – Two sides of the same coin? Cell 102:713-719. 177. Wimmer, C., Hohl, T.M., Hughes , C.A. , Müller , S.A. , Söllner, T.H., Engel, A., and Rothman, J.E. 2001. Molecular mass, stoichiometry, and assembly of 20 S particles. J. Biol. Chem. 276:29091-29097. 178. Rothman, J.E. 2001. Great Experiments: Protein Transport – The Cell-free Reconstitution of Vesicle Transport (http://www.ergito.com/servlet/Lookup?expt=rothman1) 179. Rothman, J.E., and Söllner, T.H. 2001. Great Experiments: Protein Transport – The SNARE Complex and Its Role In the Specificity of Membrane Fusion (http://www.ergito.com/servlet/Lookup?expt=rothman2) 180. Paumet, F., Brügger, B., Parlati, F., McNew, J.A., Söllner, T.H., and Rothman, J.E. 2001. A t-SNARE of the endocytic pathway must be activated for fusion. J. Cell Biol. 155:961-968. 181. Parlati, F., Varlamov, O., Paz, K., McNew, J.A., Hurtado, D., Söllner, T.H., and Rothman, J.E. 2002. Distinct SNARE complexes mediating membrane fusion in Golgi transport based on combinatorial specificity. Proc. Natl. Acad. Sci. USA 99:54424-5429. 182. Melia, T.E., Weber, T., McNew, J.A., Fisher, L.E., Johnston , R.J., Parlati, F., Mahal, L.K., Söllner, T.H., and Rothman, J.E. 2002 Regulation of membrane fusion by conformational switching of the membrane-proximal coil of the t-SNARE during zippering of SNAREpins. J. Cell Biol. 158:929-940. 1 83. Cosson, P., Amherdt, M., Rothman, J.E., and Orci, L. 2002. A resident Golgi protein is excluded from per-Golgi vesicles in NRK cells. Proc. Natl. Acad. Sci. USA 99: 1 283 1 - 1 2834. 184. Rothman, J.E. 2002. Lasker Basic Medical Research Award. The machinery and principles of vesicle transport in the cell. Nature Med. 8:1059-1062 185. Hu, C., Ahmed, M., Melia, T.J., Söllner, T.H., Mayer, T., and Rothman, J.E. 2003. Fusion of cells by ‘flipped’ SNAREs. Science 300: 1745-1749. 186. Burri, L., Varlamov, O., Döge , C.A. Hofmann, K., Beilharz, T., Rothman, J.E., Söllner, T.H. and Lithgow, T. 2003. A novel SNARE required for retrograde transport to the endoplasmic reticulum. Proc. Natl. Acad. Sci. USA 100:9873-9877. 187. Varmalov, O., Volchuk, A., Rahimian, V., Doege , C.A. , Paumet, F., Eng, W.E., Arango, N., Parlati, F., Ravazzola, M., Orci, L., Söllner,T.H., and Rothman, J.E. 2004. i-SNAREs: inhibitory SNAREs that fine-tune the specificity of membrane fusion. J. Cell Biol. 164:79-88. 188. Paumet, F., Rahimian, V. and James E. Rothman. 2004. The Specificity of SNARE-dependent fusion in encoded in the SNARE motif. Proc. Natl. Acad. Sci. USA 101:3376-3380. 189. Fix, M., Melia, T.J., Jaiswal, J.K. Rappoport, J.Z., You, D., Sollner, T.H., Rothman, J.E. and Simon, S.M. 2004. Imaging single-membrane fusion events mediatd by SNARE proteins. Proc. Natl. Acad. Sci. USA 101:7311-7316. 190. Fukasawa, M., Varlamov, O., Eng, W.S., Söllner, T.S., Rothman, J.E. 2004. Localization and activity of the SNARE Ykt6 determined by its regulatory domain and palmitoylation. Proc. Natl. Acad. Sci. USA. 101: 4815-4820. 1 9 1 . Volchuk, A., Ravazzola, M., Perrelet, A., Eng, W.S., Di Liberto, M., Varlamov, O., Fukasawa, M., Engel, T., Söllner, T.S., Rothman, J.E., Orci. L. 2004. Countercurrent Distribution of Two Distinct SNARE Complexes Mediating transport within the Golgi Stack. Mol. Biol. of the Cell 1 5: 1 506- 1 5 1 8. 192. Becker, T., Volchuk, A., and Rothman, J.E. 2004. Differential use of ER membrane for phagocytosos in J774 macrophages. Proc. Natl. Acad. Sci. USA . 102:4022-4026. 193. Paumet, F, Rahimian, V., Di Liberto, M. and Rothman, J.E. 2005. Concerted Auto-Regulation in Yeast Endosomal, t-SNAREs. J. Biol. Chem. 280: 21137-21143. 194. Giraudo, C.G., Hu, C., You, D., Slovic, A., Mosharov, E.V., Sulzer, D., Melia, T.J., Rothman, J.E. 2005. SNAREs Can Promote Complete Fusion and Hemifusion as Alternative Outcomes. J. Cell Biol. 170:249-280. 195. Cosson, P., Ravazzola, M., Varlamov, O., Söllner, T.H., Di Liberto, M., Volchuk, A., Rothman, J.E., Orci, L. 2005. Dynamic transport of SNARE proteins in the Golgi apparatus. Biological Sciences. Proc. Natl. Acad. Sci. USA . 102:14647-14652.
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