• Cameron, LA, Yang G, Cimini D, Canman JC, Kisurina-Evgieneva O, Khodjakov A, Danuser G, Salmon ED. Kinesin 5-independent poleward flux of kinetochore microtubules in PtK1 cells. Journal of Cell Biology. 2006 Apr 24;173(2):173-9. (cover image)
  • Kapoor TM, Lampson MA, Hergert P, Cameron L, Cimini D, Salmon ED, McEwen BF, Khodjakov A. Chromosomes can congress to the metaphase plate before biorientation. Science. 2006 Jan 20;311(5759):388-91.
  • Molk JN, Salmon ED, Bloom K. Nuclear congression is driven by cytoplasmic microtubule plus end interactions in S. cerevisiae. Journal of Cell Biolology. 2006 Jan 2;172(1):27-39.
  • Shannon KB, Canman JC, Moree CB, Tirnauer JS, Salmon ED.Taxol-stabilized Microtubules Can Position the Cytokinetic Furrow in Mammalian Cells.
  • Molecular Biology of the Cell. 2005 Sep;16(9):4423-36.
  • Ciferri C, De Luca J, Monzani S, Ferrari KJ, Ristic D, Wyman C, Stark H, Kilmartin J, Salmon ED, Musacchio A. Architecture of the human ndc80-hec1 complex, a critical constituent of the outer kinetochore. Journal of Biological Chemistry 2005 Aug 12;280(32):29088-95.
  • Gardner MK, Pearson CG, Sprague BL, Zarzar TR, Bloom K, Salmon ED, Odde DJ. Tension-dependent regulation of microtubule dynamics at kinetochores can explain metaphase congression in yeast. Molecular Biology of the Cell. 2005 Aug;16(8):3764-75.
  • Salmon ED, Cimini D, Cameron LA, DeLuca JG. Merotelic kinetochores in mammalian tissue cells. Philosophical Transactions of the Royal Society B: Biological Sciences. 2005 Mar 29;360(1455):553-68.
  • Salmon ED. Microtubules: a ring for the depolymerization motor. Curr Biol. 2005 Apr 26;15(8):R299-302.
  • Mitchison TJ, Maddox P, Gaetz J, Groen A, Shirasu M, Desai A, Salmon ED, Kapoor TM. Roles of polymerization dynamics, opposed motors, and a tensile element in governing the length of Xenopus extract meiotic spindles. Mol Biol Cell. 2005 Jun;16(6):3064-76.
  • De Antoni A, Pearson CG, Cimini D, Canman JC, Sala V, Nezi L, Mapelli M, Sironi L, Faretta M, Salmon ED, Musacchio A. The Mad1/Mad2 complex as a template for Mad2 activation in the spindle assembly checkpoint. Curr Biol. 2005 Feb 8;15(3):214-25.
  • Cimini D, Cameron LA, Salmon ED. Anaphase spindle mechanics prevent mis-segregation of merotelically oriented chromosomes. Curr Biol. 2004 Dec 14;14(23):2149-55.
  • DeLuca JG, Dong Y, Hergert P, Strauss J, Hickey JM, Salmon ED, McEwen BF. Hec1 and nuf2 are core components of the kinetochore outer plate essential for organizing microtubule attachment sites. Mol Biol Cell. 2005 Feb;16(2):519-31.
  • Pearson CG, Yeh E, Gardner M, Odde D, Salmon ED, Bloom K. Stable kinetochore-microtubule attachment constrains centromere positioning in metaphase. Curr Biol. 2004 Nov 9;14(21):1962-7.
  • DeLuca JG, Salmon ED. Kinetochores: if you build it, they will come. Curr Biol. 2004 Nov 9;14(21):R921-3.
  • Maiato H, DeLuca J, Salmon ED, Earnshaw WC. The dynamic kinetochore-microtubule interface. J Cell Sci. 2004 Nov 1;117(Pt 23):5461-77.
  • Mitchison TJ, Maddox P, Groen A, Cameron L, Perlman Z, Ohi R, Desai A, Salmon ED, Kapoor TM. Bipolarization and poleward flux correlate during Xenopus extract spindle assembly. Mol Biol Cell. 2004 Dec;15(12):5603-15.
  • Howell BJ, Moree B, Farrar EM, Stewart S, Fang G, Salmon ED. Spindle checkpoint protein dynamics at kinetochores in living cells.Curr Biol. 2004 Jun 8;14(11):953-64.
  • Canman JC, Cameron LA, Maddox PS, Straight A, Tirnauer JS, Mitchison TJ, Fang G, Kapoor TM, Salmon ED. Determining the position of the cell division plane. Nature. 2003 Aug 28;424(6952):1074-8. (cover image)
  • J. G. DeLuca, B. Moree, J.M. Hickey, J.V. Kilmartin, E.D. Salmon. 2002. hNuf2 inhibition blocks stable kinetochore-microtubule attachment and induces mitotic cell death in HeLa cells. Journal of Cell Biology. 159 (4): 549-555.
  • J. S. Tirnauer, J. C. Canman, E.D. Salmon, and T. J. Mitchison. 2002. EB1 Targets to Kinetochores with Attached, Polymerizing Microtubules Molecular Biology of the Cell. 13 (12): 4308-4316.
  • J. S. Tirnauer, S. Grego, E. D. Salmon, and T.J. Mitchison. 2002. EB1-microtubule interactions in Xenopus egg extracts: role of EB1 in microtubule stabilization and mechanisms of targeting to microtubules. Molecular Biology of the Cell. 13: 3614-3626.
  • K.B. Shannon, J.C. Canman, and E.D. Salmon. 2002. Mad2 and BubR1 function in a single checkpoint pathway that responds to a loss of tension, Molecular Biology of the Cell. 13: 3706-3719.
  • P. Maddox, A. Desai, K. Oegema, T. J. Mitchison and E.D. Salmon. 2002. Poleward Microtubule Flux Is a Major Component of Spindle Dynamics and Anaphase A in Mitotic Drosophila Embryos. Current Biology. 2002, 12:19:1670-1674
  • J.C. Canman, N. Sharma*, A. Straight*, K. Shannon, G. Fang, and E. D. Salmon. 2002. Anaphase onset does not require the microtubule-dependent depletion of kinetochore and centromere binding proteins. Journal of Cell Science. 115: 3787-3795. *Authors contributed equally.
  • Shannon, K.B. and Salmon, E.D. 2002. Chromosome dynamics: New light on Aurora B kinase function. Current Biology. 12 (13): R458-R460.
  • Stricker, J., Maddox, P., Salmon, E.D., and Erickson, H.P. 2002. Rapid assembly dynamics of the Escherichia coli FtsZ-ring demonstrated by fluorescence recovery after photobleaching. PNAS. 99 (5): 3171-3175.
  • J.C. Canman, E.D. Salmon, and G. Fang. 2002. Inducing precocious anaphase in cultured mammalian cells. Cell Motility and the Cytoskeleton. 52:61-65.
  • Cimini, D., Fioravanti, D., Salmon, E.D., Degrassi, F. 2002. Merotelic kinetochore orientation versus chromosome mono-orientation in the origin of lagging chromosomes in human primary cells. Journal of Cell Science. 115 (3): 507-515.
  • B.J. Howell, B.F. McEwen*, J.C. Canman*, D.B. Hoffman, E.M. Farrar, C.L. Rieder, and E.D. Salmon. 2001. Cytoplasmic dynein/dynactin drives kinetochore protein transport to the spindle poles and has a role in mitotic spindle checkpoint inactivation. Journal of Cell Biology. 155 (7): 1159-1172. *Authors contributed equally.
  • Hoffman, D.B., Pearson, C.G., Yen, T.J., Howell, B.J., and Salmon, E.D. 2001. Microtubule-dependent changes in assembly of microtubule motor proteins and mitotic spindle checkpoint proteins at PtK1 kinetochores. Molecular Biology of the Cell. 12 (7): 1995-2009.
  • Grego, S., Cantillana, V., and Salmon, E.D. 2001. Microtubule treadmilling in vitro investigated by fluorescence speckle and confocal microscopy. Biophysical Journal. 81 (1): 66-78.
  • D. Cimini, B.J. Howell, P. Maddox, A. Khodjakov, F. Degrassi, and E.D. Salmon. 2001. Merotelic Kinetochore Orientation Is a Major Mechanism of Aneuploidy in Mitotic Mammalian Tissue Cells Journal of Cell Biology. 153: 517-528.
  • Karena A. Kosco, Chad G. Pearson, Paul S. Maddox, Peijing Jeremy Wang, Ian R. Adams, E. D. Salmon, Kerry Bloom, and Tim C. Huffaker. 2001. Control of Microtubule Dynamics by Stu2p Is Essential for Spindle Orientation and Metaphase Chromosome Alignment in Yeast
    Molecular Biology of the Cell. 12: 2870-2880.
  • Pearson, C.G., Maddox, P.S., Salmon, E.D., and Bloom, K. 2001. Budding Yeast Chromosome Structure and Dynamics during Mitosis. Journal of Cell Biology. 152: 1255-1266.
  • Mitchison, T.J. and Salmon, E.D. 2001. Mitosis: a history of division. Nature Cell Biology. 3(1):E17-21.
  • Xue, Y., Canman, J.C., Lee*, C.S., Nie*, Z., Yang*, D., Moreno*, G.T. , Young, M.K., Salmon, E.D., and Wang, W. 2000. The human SWI/SNF-B chromatin-remodeling complex is related to yeast Rsc and localizes at kinetochores of mitotic chromosomes. PNAS. 97: 13015-13020. *Authors contributed equally.
  • Howell, B.J., Hoffman, D.B., Fang, G., Murray, A.W., and Salmon, E.D. 2000. Visualization of Mad2 dynamics at kinetochroes, along spindle fibers, and at spindle poles in living cells. Journal of Cell Biology. 150(6): 1233-1250.
  • J.C. Canman, D.B. Hoffman, and E.D. Salmon. 2000. The role of pre- and post-anaphase microtubules in the cytokinesis phase of the cell cycle. Current Biology. 10:611-614.
  • Danuser, G., Tran, P.T., and Salmon, E.D. 2000. Tracking differential interference contrast diffraction line images with nanometre sensitivity. Journal of Microscopy. 198: 34-53.
  • Segal, M., Clarke, D.J., Maddox, P., Salmon, E.D., Bloom, K., and Reed, S.I. 2000. Coordinated Spindle Assembly and Orientation Requires Clb5p-dependent Kinase in Budding Yeast Journal of Cell Biology. 148(3):441-452.
  • Maddox, P., Bloom, K., and Salmon, E.D. 1999. The Polarity and Dynamics of Microtubule Assembly in the Budding Yeast Saccharomyces cerevisiae. Nature Cell Biology. 2:(1)36 - 41.
  • Faire, K., Waterman-Storer, C.M., Gruber, D., Masson, D., Salmon, E.D., and Bulinski, J.C. 1999. E-MAP-115 (ensconsin) associates dynamically with microtubules in vivo and is not a physiological modulator of microtubule dynamics. Journal of Cell Science. 112: (23) 4243-4255.
  • Maddox, P., Desai, A., Salmon, E.D., Mitchison, T.J., Oegema, K., Kapoor, T., Matsumoto, B., and Inuoe, S. 1999. Dynamic confocal imaging of mitochondria in swimming Tetramymena and of microtubule poleward flux in Xenopus extract spindles. The Biological Bulletin. 197: (2) 263-265.
  • Beach, D.L., Salmon, E.D., and Bloom, K. 1999. Localization and anchoring of mRNA in budding yeast. Current Biology. 9: (11) 569-578.
  • Waters, J.C., Chen, R.H., Murray, A.W., Gorbsky, G.J., Salmon, E.D., and Nicklas, R.B. 1999. Mad2 binding by phosphorylated kinetochores links error detection and checkpoint action in mitosis. Current Biology. 9: (12) 649-652.
  • Waterman-Storer, C. M., Worthylake, R.A., Liu, B.P., Burridge, K., and Salmon, E.D. 1999. Microtubule growth activiates Rac1 to promote lamellipodial protrusion in fibroblasts. Nature Cell Biology. 1:45-50.
  • Maddox, P., E. Chin, A. Mallavarapu, E. Yeh, E. D. Salmon and K. Bloom. 1999. Astral microtubule and spindle dynamics in mating and the first zygotic division in the budding yeast Saccharomyces cerevisiae. Journal of Cell Biology. 144: 977-987.
  • Maddox, P. 1999. Researchers Find that mRNA is Actually Green.-not affiliated with THE ONION.
  • Waterman-Storer, C.M. and Salmon, E.D. 1999. Positive feedback interactions between microtubule and actin dynamics during cell motility. Current Opinion in Cell Biology. 11: (1) 61-67.
  • Salmon, E.D., and Way, M. 1999. Cytoskeleton. Current Opinion in Cell Biology 11: (1) 15-17.
  • Waterman-Storer, C. M., A. Desai, J. C. Bulinski and E. D. Salmon. 1998. Fluorescent speckle microscopy: Visualizing the movement, assembly and turnover of macromolecular assemblies in living cells. Current Biology. 8:1227-1230.
  • Tran, P. T., Z. Wang, R. Sterba, S. F. Parsons, M. P. Sheetz, and E. D. Salmon. 1998. Direct measurement of microtubule flexual rigidity with the laser trap. Eur. Biophysical Journal. Submitted.
  • Bi, E.,  P. S. Maddox, D.J. Lew, E. D. Salmon, J. MacMillian, E. Yeh and J. R. Pringle.  1998. Roles of nonessential actomyosin contractile ring and of the septins in Saccharomyces cerevisiae cytokinesis. Journal of Cell Biology. 142:1301-1312.
  • Waterman-Storer, C. M., and E. D. Salmon.  1998. How microtubules get fluorescent speckles. Biophysical Journal. 75:2059-2069.
  • Salmon, E. D. and J. C. Canman. 1998. How to align and use the microscope. In Current Protocols in Cell Biology. In Press.
  • Shaw, S. L.,  P. Maddox, R. V. Skibbens, E. Yeh, E. D. Salmon, and K. Bloom.  1997.  Nuclear and spindle dynamics in budding yeast. Molecular Biology of the Cell.  9:1627-1631.
  • Waterman-Storer, C. L., A. Desai and E. D. Salmon. 1998. Fluorescent speckle microscopy of spindle microtubule assembly and motility in living cells. Methods in Cell Biology. 61: 155-173.
  • Rieder, C. L. and E. D. Salmon. 1998. The vertebrate cell kinetochore and its roles during mitosis. Trends in Cell Biology. 8: 310-318.
  • Waterman-Storer, C. M., and E. D. Salmon.  1998.  Endoplasmic reticulum membrane tubules are distributed by microtubules in living cells using three distinct mechanisms. Current Biology. 8: 798-806.
  • Waterman-Storer, C. M., and E. D. Salmon.  1998.  Multimode digital imaging system for fluorescence studies of microtubule and endoplasmic reticulum dynamics in living cells. Applications of Optical Engineering to the study of Cellular Pathology  1:125-138.
  • Waters, J. C., R. H. Chen, A. W. Murray and E. D. Salmon. 1998. Mad2 and the spindle assembly checkpoint: The roles of tension and microtubule attachment. Journal of Cell Biology. 141:1181-1191.
  • Desai, A. P. S. Maddox, T. J. Mitchison and E. D. Salmon. 1998. Anaphase A chromosome movement and poleward spindle microtubule flux occur at the same rates in Xenopus extract spindles. Journal of Cell Biology. 141:703-713.
  • Skibbens, R. V., and E. D. Salmon.  1997.  Micromanipulation of chromosomes in mitotic vertebrate tissue cells: Tension controls the state of kinetochore movement.  Experimental Cell Research.  235:314-324.
  • Waterman-Storer, C. M., S. L. Shaw and E. D. Salmon.  1998.  Production and presentation of digital movies. Trends in Cell Biology. 7:503-506.
  • Salmon, E. D., S. L. Shaw, J. Waters, C. M. Waterman-Storer, P. S. Maddox, E. Yeh, and K. Bloom.  1998. A high-resolution multimode digital microscope system. Methods in Cell Biology.  56:185-215.
  • Salmon, E. D., and P. Tran.  1998.  High resolution video-enhanced differential interference contrast (VE-DIC) light microscopy. Methods in Cell Biology.  56:153-184.
  • Salmon, E. D., E. Yeh, S. L. Shaw, R. Skibbens, and K. Bloom.  1998.  High resolution video and digital enhanced differential interference contrast light microscopy of cell division in budding yeast.  Methods in Enzymology.  298:317-31.
  • Roberts, T. M., E. D. Salmon, and M. Stewart.  1998.  Hydrostatic pressure shows that lamellipodial motility in Ascaris sperm requires membrane-associated MSP filament nucleation and elongation. Journal of Cell Biology.  140: 367-375.
  • Shaw, S. L., E. Yeh, P. Maddox, K. Bloom, and E. D. Salmon.  1997.  Imaging GFP-fusion proteins in Saccharomyces cerevisiae. Current Biology. 7:701-704.
  • Oldenbourg, R., E. D. Salmon and P. T. Tran. 1997. Birefringence of single and bundled microtubules. Biophysical Journal. 74:645-652.
  • Shaw, S. L., E. Yeh, E. D. Salmon, and K. Bloom.  1997.  Astral microtubule dynamics in yeast:  A microtubule-based searching mechanism for spindle orientation and nuclear migration into the bud. Journal of Cell Biology.  139:985-994.
  • Tran, P. T., E. D. Salmon and S. Inoue. 1997. UV cutting of MAPs-bound microtubules. The Biological Bulletin. 193:218-219.
  • Waterman-Storer, C. M. and E. D. Salmon.  1997.  Actomyosin-based retrograde flow of microtubules in the lamella of migrating epithelial cells influences microtubule dynamic instability and turnover and is associated with microtubule breakage and treadmilling.  Journal of Cell Biology. 139:417-434.
  • Schaar, B. T., G. K. T. Chan, P. Maddox, E. D. Salmon, and T. J. Yen.  1997. CENP-E function at kinetochores is essential for chromosome alignment.  Journal of Cell Biology.  139:1373-1382.
  • Waterman-Storer, C. M. and E. D. Salmon. 1997. Microtubule dynamics: Treadmilling comes around again. Current Biology. 7: R369-R372.
  • Tran, P. T. and E. D. Salmon.  1997. A metastable intermediate state of microtubule dynamic instability that differs significantly between plus and minus ends. Journal of Cell Biology. 138:105-117.
  • Tran, P. T., P. Joshi and E. D. Salmon. 1997.  How tubulin subunits are lost from the shortening ends of microtubules. Journal of Structural Biology. 118:107-118.
  • Waters, J. C. and E. D. Salmon. 1997. Pathways of spindle assembly.  Current Opinion in Cell Biology. 9:37-43.
  • Parsons, S. F. and E. D. Salmon.  1997.  Microtubule assembly in clarified Xenopus extracts.  Cell Motil. and Cytoskel. 36:1-11.
  • O'Brien, E. T., E. D. Salmon and H. P. Erickson.  1997.  How calcium causes microtubule depolymerization.  Cell Motil. and Cytoskel.  36:125-135.
  • Yang, S. S., E. Yeh, E. D. Salmon and K. Bloom. 1997. Identification of a mid-anaphase checkpoint in budding yeast. Journal of Cell Biology. 136:1-10.
  • Chen, R. H., J. C. Waters, E. D. Salmon and A. W. Murray.  1996.  Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores.  Science. 274:242-246.
  • Murray, A. W. , A. Desai, E. D. Salmon.  1996.  Real time observation of anaphase in vitro. Proceedings of the National Academy of Sciences (of the United States of America). 93:12327-12332.
  • Salmon, E. D. and J. C. Waters. 1996. A high resolution multimode digital imaging system for fluorescence studies in mitosis.  In, Analytical Use of Fluorescent Probes in Oncology, Kohen and Hirschberg, eds., Plenum Press, New York, pp 349-356.
  • Crenshaw, H., J. A. Allen, V. Skeen, A. K. Harris, and E. D. Salmon.  1996.  Hydrostatic pressure has different effects on the assembly of tubulin, actin, myosin II, vinculin, talin, vimentin, and cytokeratin in mammalian tissue cells.  Experimental Cell Research. 227:285-297.
  • Waters, J. C., R. V. Skibbens and E. D. Salmon. 1996.   Oscillating mitotic newt lung cell kinetochore are, on average, under tension and rarely push. Journal of Cell Science. 109:2823-2831.
  • Salmon, E. D., J. C. Waters and C. Waterman-Storer. 1996. Multi-mode light microscopy for microtubule assembly dynamics and chromosome movement in vivo and in vitro.  In Proceedings of the 54th Annual Meeting of the Electron Microscopy Society of America.  G. W. Bailey, editor.  San Francisco Press, San Francisco, CA.  In press..
  • Waters, J. C., T. J. Mitchison, C. L. Rieder and E. D. Salmon. 1996.   The kinetochore microtubule minus-end disassembly associated with poleward flux produces a force that can do work. Molecular Biology of the Cell.  7:12547-1558.
  • Crenshaw, H. C. and E. D. Salmon. 1996.  Hydrostatic pressure to 400 ATM does not induce changes in cytosolic concentration of Ca2+ in mouse fibroblasts:  Measurements using fura-2-fluorescence. Experimental Cell Research.  227:277-284.
  • Waters, J. C. and E. D. Salmon.  1996.  Cytoskeleton: A catastrophic kinesin.  Current Biology. 6:361- 363.
  • Waters, J. C. and E. D. Salmon.  1995.  Chromosomes take an active role in spindle assembly.  BioEssays 17:911-914.
  • Shaw, S. L., E. D. Salmon and R. V. Quatrano.  1995.  Digital photography for the light microscope: Results with a gated, video rate CCD camera and NIH-Image.  Biotechniques. 19:946-955.
  • Inoué, S. I. and E. D. Salmon.  1995.  Force generation by microtubule assembly/disassembly in mitosis and related movements. Molecular Biology of the Cell.  6:1619-1640.
  • Tran, P. T., S. F. Parsons, R. Sterba, Z. Wang, M. P. Sheetz and E. D. Salmon.  1995.  Direct measurement of microtubule flexural rigidity with the laser trap.  In The Cytoskeleton and Cell Function, D. Helfman and E. Raff, editors.  Cold Spring Harbor Laboratory, New York.
  • Skibbens, R. V. and E. D. Salmon.  1995.  The direction of kinetochore motility in mitotic newt lung cells is regulated by tension:  evidence from stretching chromosome arms.  Cell Motil. Cytoskel. submitted.
  • Skibbens, R. V., C. L. Rieder and E. D. Salmon.  1995.  Kinetochore motility after severing between sister centromeres using laser microsurgery: evidence that kinetochore direction instability and position is regulated by tension.  Journal of Cell Science.  108:2537-2548.
  • Salmon, E. D.  1995.  Video-enhanced differential interference contrast (VE-DIC) light microscopy and the discovery of kinesin. Trends in Cell Biology. 5:154-158.
  • Yeh, E., R. V. Skibbens, J. W. Cheng, E. D. Salmon and K. Bloom.  1995.  Spindle dynamics and cell cycle regulation of dynein in the budding yeast, Saccharomyces cerevisiae. Journal of Cell Biology.  130:687-700.
  • Waterman-Storer, C. M., J. Gregory, S. F. Parsons and E. D. Salmon.  1995.  Membrane/microtubule tip attachment complexes (TACs) allow the assembly dynamics of plus ends to push and pull membranes into tubulovesicular networks in interphase Xenopus egg extracts. Journal of Cell Biology.  130:1161-1169.
  • Endow, S. A., S. J. Kang, L. L. Satterwhite, M. D. Rose, V. P.Skeen and E. D. Salmon.  1994.  Yeast Kar3 is a minus-end microtubule motor protein that destabilizes microtubules preferentially at the minus ends.  EMBO Journal.  13:2708-2713.
  • Skibbens, R. V. and E. D. Salmon.  1994.  Kinetochore directional instability in vertebrate mitotic cells.  NATO ASI Series.  H 84:545-550.
  • Liang, H., W. H. Wright, C. L. Rieder, E. D. Salmon, G. Profeta, J. Andrews, Y. Liu, G. J. Sonek, and M. W. Berns.  1994.  Directed movement of chromosome arms and fragments in mitotic newt lung cells using optical scissors and optical tweezers.  Experimental Cell Research.  213:308-312.
  • Rieder, C. L., A. Schultz, R. Cole, J. Ault, J. Waters, and E. D. Salmon.  1994.  Correlative light and electron microscopic studies on the mechanisms of mitosis in vertebrate somatic cells (Invited).  International Congress for Electron Microscopy.  13:75-78.
  • Salmon, E. D., T. Inoue, A. Desai and A. W. Murray.  1994.  High resolution multimode digital imaging system for mitosis studies in vivo and in vitroThe Biological Bulletin.  187:231-232.
  • Cassimeris, L., C. L. Rieder, and E. D. Salmon.  1994.  Microtubule assembly and kinetochore directional instability in vertebrate monopolar spindles:  Implications for the mechanism of chromosome congression.  Journal of Cell Science.  107:285-297.
  • Rieder, C. L., and E. D. Salmon.  1994.  Motile kinetochores and polar ejection forces dictate chromosome position on the vertebrate mitotic spindle. Journal of Cell Biology.  24:  124:223-233.
  • Endow, S. A., R. Chandra, A. H. Yamamoto, E. D. Salmon, and D. J. Komma.  1994.  Mutants of the Drosophila ncd microtubule motor protein cause centrosomal defects in mitosis.  Journal of Cell Science.  107:859-867.
  • Skibbens, R. V., V. P. Skeen and E. D. Salmon.  1993.  The directional instability of kinetochore motility during chromosome congression and segregation in mitotic newt cells:  A push-pull mechanism. Journal of Cell Biology.  122:859-875.
  • Gliksman, N. R., R. V. Skibbens and E. D. Salmon. 1993. How the transistion frequencies of microtubule dynamic instability (Nucleation, Catastrophe and Rescue) regulate microtubule dynamics in interphase and mitosis:  Analysis using a Monte Carlo computer simulation. Molecular Biology of the Cell. 4:1035-1050.
  • Gliksman, N. R., S. F. Parsons and E. D. Salmon. 1993. Cytoplasmic extracts from the eggs of sea urchins and clams for the study of microtubule-associated motility and bundling. Methods in Cell Biology.  39:237-251.
  • Chandra, R., E. D. Salmon, H. P. Erickson, A. Lockhart and S. A. Endow. 1993. Structural and functional domains of the Drosophlia ncd microtubule motor protein.  Journal of Biological Chemistry.  268:9005-9013.
  • Chandra, R., S. A. Endow, V. P. Skeen and E. D. Salmon. 1993.  An N terminal truncation of the ncd motor protein supports diffusional movement of microtubules in motility assays.  Journal of Cell Science.  104:899-906.
  • Gliksman, N. R. and E. D. Salmon.  1993.  Microtubule associated motility in cytoplasmic extracts of sea urchin eggs.  Cell Motility and Cytoskeleton 24: 167-178.
  • Pryer, N. K., R. A. Walker, V. P. Skeen, B. D. Bourns, M. F. Soboerio and E. D. Salmon.  1992. Brain microtubule associated proteins modulate microtubule dynamic instability in vitro: Real-time observations using video microscopy.  Journal of Cell Science. 103:965-976.
  • Mitchison, T. J. and E. D. Salmon. 1992. Poleward kinetochore fiber movement occurs during both metaphase and anaphase-A in newt lung cell mitosis.  Journal of Cell Biology.  119:569-582.
  • Gliksman, N. R., S. F. Parsons and E. D. Salmon. 1992. Okadaic acid induces interphase to mitotic-like microtubule dynamic instability by inactivating rescue.  Journal of Cell Biology.  119:1271-1276.
  • Salmon, E. D. 1992. High-resolution video-enhanced light microscopy.  In Proceedings of the 50th Annual Meeting of the Electron Microscopy Society of America.  G. W. Bailey, editor.  San Francisco Press, San Francisco, CA.  414-415.
  • Simon, J. R., N. A. Adam and E. D. Salmon. 1991. Microtubules and tubulin sheet polymers elongate from isolated axonemes in vitro as observed by negative-stain electron microscopy.  Micron Microsc. Acta. 22:405-412.
  • Simon, J. R., S. F. Parsons and E. D. Salmon. 1991. Buffer conditions and non-tubulin factors critically affect the microtubule dynamic instability of sea urchin egg tubulin.  Cell Motil. Cytoskel. 21:1-14.
  • Walker, R. A., N. K. Pryer and E. D. Salmon. 1991. Dilution of individual microtubules observed in real time in vitro: Evidence that cap size is small and independent of elongation rate.  Journal of Cell Biology. 114:73-81.
  • Salmon, E. D., S. Magers, R. Skibbens, and N. R. Gliksman. 1991. Video-enhanced differential interference contrast (VE-DIC) light microscopy: A method for semi-automatic object tracking. In Proceedings of the 49th Annual Meeting of the Electron Microscopy Society of America.  G. W. Bailey, editor.  San Francisco Press, San Francisco, CA.  pp. 238-239.
  • Ault, J. G., A. J. DeMarco, E. D. Salmon and C. L. Rieder. 1991. Studies on the ejection properties of asters: Astral microtubule turnover influences the oscillatory behavior and positioning of mono-oriented chromosomes.  Journal of Cell Science. 99:701-710.
  • Wise, D., L. Cassimeris, C. L. Rieder, P. Wadsworth and E. D. Salmon. 1991. Chromosome fiber dynamics and congression oscillations in metaphase PtK2 cells at 23oC. Cell Motil. Cytoskel. 18:131-142.
  • Cassimeris, L. and E. D. Salmon. 1991.  Kinetochore fibers shorten by loss of subunits at the kinetochore of prometaphase chromosomes. Journal of Cell Science. 98:151-158.
  • Walker, R. A., E. D. Salmon, and S. A. Endow. 1990. The Drosophila claret segregation protein is a minus-end directed motor molecule. Nature. 347:780-782.
  • Walker, R. A., N. R. Gliksman and E. D. Salmon.  1990.  Using video-enhanced differential interference contrast microscopy to analyze the assembly dynamics of individual microtubules in real time.  In Optical Microscopy for Biology.  B. Herman and K. Jacobson, editors.  Wiley-Liss, NY. pp 395-407.
  • Simon, J. and E. D. Salmon. 1990. The structure of microtubule ends during the elongation and shortening phases of dynamic instability examined by negative-stain electron microscopy. Journal of Cell Science. 96:571-582.
  • Samuel, R. E., E. D. Salmon and R. W. Briehl.  1990.  Nucleation and growth of fibers and gel formation in sickle hemoglobin observed in real time by video microscopy. Nature. 345:833-835.
  • O'Brien, E. T., R. W. Walker, E. D. Salmon and H. P. Erickson.  1990.  The effects of magnesium on the dynamic instability of individual microtubules.  In Structure, Interactions and Assembly of Cytoskeletal and Extracellular Proteins.  P. M. Bailey, editor.  Springer-Verlag, Berlin.  (In press)
  • O'Brien, E. T., E. D. Salmon, R.A. Walker, and H. P. Erickson.  1990.  Effects of magnesium on the dynamic instability of individual microtubules.  Biochemistry. 29: 6648-6656.
  • Hays, T. S., and E. D. Salmon.  1990.  Poleward force at the kinetochore in metaphase depends on the number of kinetochore microtubules.  Journal of Cell Biology.  110:391-404.
  • Cassimeris, L., C. L. Rieder, G. Rupp and E. D. Salmon.  1990.  Stability of microtubule attachment to metaphase kinetochores in PtK1 cells.  Journal of Cell Science.  96:9-15.
  • Salmon, E. D. and S. M. Wolniak. 1990.  Role of microtubules in stimulating cytokinesis in animal cells. Ann. N.Y. Acad. Sci. 582:88-98.
  • Caplow, M., R. Ruhlen, J. Snanks, R. A. Walker and E. D. Salmon.  1989.  Stabilization of microtubules by tubulin-GDP-Pi subunits.  Biochemistry. 28:8136-8141.
  • Salmon, E. D., R. A. Walker, and N. K. Pryer.  1989.  Video-enhanced differential interference contrast light microscopy. Biotechniques. 7:624-633.
  • Walker, R. A., S. Inoué, and E. D. Salmon.  1989.  Asymmetric behavior of microtubule ends following ultraviolet-microbeam irradiation of individual microtubules in vitro.  Journal of Cell Biology.  108:931-937.
  • Taylor, D. L., and E. D. Salmon.  1989.  Basic fluorescence microscopy.  Methods in Cell Biology.  29:207-237.
  • Salmon, E. D. and L. Cassimeris.  1989.  Fluorescence studies of microtubule dynamics in living cells.  In Microspectrofluorometry of Single Cells.  E. Kohen, editor.  Academic Press, NY.
  • Salmon, E. D.  1989.  Microtubule dynamics and chromosome movement.  In Mitosis:  Molecules and Mechanisms.  J. S. Hyams and B. R. Frinkley, editors.  Academic Press, London.  pp. 119-182.
  • Salmon, E. D.  1989.  Cytokinesis in animal cells. Current Opinion in Cell Biology.  1:541-547.
  • Salmon, E. D.  1989.  Metaphase chromosome congression and anaphase poleward movement.  In Cell Movement, vol. 2: Kinesin, Dynein, and Microtubule Dynamics.  F. D. Warner and J. R. McIntosh, editors.  Alan R. Liss, NY.  pp. 431-440.
  • Walker, R. A., E. T. O'Brien, N. K. Pryer, M. F. Soboeiro, W. A. Voter, H. P. Erickson, and E. D. Salmon.  1988.  Dynamic instability of individual, MAP-free microtubules analyzed by video light microscopy:  rate constants and transition frequencies. Journal of Cell Biology.  107:1437-1448
  • Walker, R. A., S. Inoué and E. D. Salmon.  1988.  Analysis of the mechanism of microtubule dynamic instability using a UV-microbeam to sever elongating microtubules.  In Proceedings of the 46th Annual Meeting of the Electron Microscopy Society of America.
  • Walker, R. A., S. Inoué and E. D. Salmon.  1988.  Asymmetric behavior of severed microtubule ends following ultraviolet-microbeam irradiation of individual microtubules in vitroJournal of Cell Biology.  108:931-937.
  • Wadsworth, P. and E. D. Salmon.  1988.  Spindle microtubule dynamics:  Modulation by metabolic inhibitors.  Cell Motil. Cytoskel.
  • Pryer, N. K., R. A. Walker, M. F. Soboeiro, and E. D. Salmon.  1988.  Effect of mammalian brain MAPs on dynamic instability of microtubules observed by video-DIC microscopy.  Cell Motil. Cytoskel.  10:345.
  • Porter, M. E., P. M. Grissom, J. M. Scholey, E. D. Salmon, and J. R. McIntosh.  1988.  Dynein isoforms in sea urchin eggs. Journal of Biological Chemistry.  263:6759-6771.
  • Cassimeris, L., N. K. Pryer, and E. D. Salmon.  1988.  Real-time observations of microtubule dynamic instability in living cells. Journal of Cell Biology.  107:2223-2231.
  • Cassimeris, L., S. Inoué, and E. D. Salmon.  1988.  Microtubule dynamics in the chromosomal spindle fiber:  analysis by fluorescence and high-resolution polarization microscopy.  Cell Motil. Cytoskel.  10:185-196.
  • Bourns, B., S. Franklin, L. Cassimeris, and E. D. Salmon.  1988.  High hydrostatic pressure effects in vivo:  Changes in cell morphology, microtubule assembly and actin organization.  Cell Motil. Cytoskel.  10:380-390.00
  • Salmon, E. D.  1988.  A model of metaphase chromosome congression and anaphase poleward movement.  In Cell Movement:  Kinesin and Microtubule Associated Proteins.  F. D. Warner and J. R. McIntosh, editors.  Alan R. Liss, NY.
  • Salmon, E. D., R. A. Walker, E. T. O'Brien, N. K. Pryer, W. A. Voter, and H. P. Erickson.  1987.  Visualization of the polymerization dynamics of individual 25nm-diameter microtubules in real time.  In Proceedings of the 45th Annual Meeting of the Electron Microscopy Society of America.  G. W. Bailey, editor.  San Francisco Press, San Francisco.  pp. 636-637.
  • Cassimeris, L. U., R. A. Walker, N. K. Pryer, and E. D. Salmon.  1987.  Dynamic instability of microtubules.  BioEssays. 7:149-154.
  • Wadsworth, P. and E. D. Salmon.  1986.  Preparation and characterization of fluorescent analogs of tubulin.  Meth. Enzymol.  134:519-528.
  • Wadsworth, P. and E. D. Salmon.  1986.  Microtubule dynamics in mitotic spindles of living cells.  Ann. NY Acad. Sci.  466:580-592.
  • Wadsworth, P. and E. D. Salmon.  1986.  Analysis of the treadmilling model during metaphase of mitosis using fluorescence redistribution after photobleaching.  Journal of Cell Biology.  102:1032-1038.
  • Rieder, C. L., E. A. Davison, L. C. W. Jensen, L. Cassimeris, and E. D. Salmon.  1986.  Oscillatory movements of monooriented chromosomes and their position relative to the spindle pole result from the ejection properties of the aster and half-spindle. Journal of Cell Biology.  103:581-591.
  • Pryer, N. K., P. Wadsworth, and E. D. Salmon.  1986.   Polarized microtubule gliding and particle saltations produced by soluble factors from sea urchin eggs and embryos.  Cell Motil. Cytoskel.  6:537-548.
  • Otter, T., B. Bourns, S. Franklin, C. Rieder, and E. D. Salmon.  1986.  Hydrostatic pressure effects on cytoskeletal organization and ciliary motility: A calcium hypothesis.  In Current Perspectives in High Pressure Biology.  H. W. Jannasch, A. M. Zimmerman, and R. E. Marquis, editors.  pp. 75-93.
  • Hays, T. S. and E. D. Salmon.  1986.  Stabilization of microtubules in isolated spindles by tubulin-colchicine complex.  Cell Motil. Cytoskel.  6:282-290.
  • Cassimeris, L. U., P. Wadsworth, and E. D. Salmon.  1986.  Dynamics of microtubule depolymerization in monocytes. Journal of Cell Biology.  102:2023-2032.
  • Salmon, E. D., and P. Wadsworth.  1986.  Fluorescence studies of microtubule dynamics in living cells.  In Applications of Fluorescence in the Biomedical Sciences.  D. L. Taylor, A. S. Waggoner, F. Lanni, R. F. Murphy and R. R. Birge, editors.  Alan R. Liss, NY.  pp. 377-403.
  • Rieder, C. L., E. A. Davison, L. C. W. Jensen and E. D. Salmon.  1985.  The distal kinetochore is not responsible for the oscillation of monooriented chromosomes in newt lung cells.  In Microtubules and Microtubule Inhibitors.  M. DeBrabander and J. DeMey, editors.  Elsevier, Amersterdam.  pp. 253-260.
  • Otter, T. and E. D. Salmon.  1985.  Motility of Paramecia during pressurization and decompression.  J. Exp. Biol. 117:29-43.
  • Cassimeris, L. U., P. Wadsworth, and E. D. Salmon.  1985.  Dynamic instability of cytoplasmic microtubules in living cells.  In Microtubules and Microtubule Inhibitors.  M. DeBrabander and J. DeMey, editors.  Elsevier, Amsterdam.
  • Salmon, E. D. and P. Wadsworth.  1985.  Fluorescence studies of microtubule dynamics in living cells.  In Fluorescence Approaches in Biomedical Sciences.  D. L. Taylor, editor.  Alan R. Liss, New York.  pp. 377-403.
  • Rieder, C. L., E. A. Davison, L. C. W. Jensen and E. D. Salmon.  1985.  The distal kinetochore is not responsible for the oscillation of monooriented chromosomes in newt lung cells.  In Microtubules and Microtubule Inhibitors.  M. DeBrabander and J. DeMey, editors.  Elsevier, Amersterdam.  pp. 253-260.
  • Otter, T. and E. D. Salmon.  1985.  Motility of Paramecia during pressurization and decompression.  J. Exp. Biol. 117:29-43.
  • Cassimeris, L. U., P. Wadsworth, and E. D. Salmon.  1985.  Dynamic instability of cytoplasmic microtubules in living cells.  In Microtubules and Microtubule Inhibitors.  M. DeBrabander and J. DeMey, editors.  Elsevier, Amsterdam.
  • Salmon, E. D. and P. Wadsworth.  1985.  Fluorescence studies of microtubule dynamics in living cells.  In Fluorescence Approaches in Biomedical Sciences.  D. L. Taylor, editor.  Alan R. Liss, New York.  pp. 377-403.
  • Scholey, J. M., B. Neighbors, J. R. McIntosh and E. D. Salmon.  1984.  Isolation of microtubules and a dynein-like MgATPase from unfertilized sea urchin eggs.  Journal of Biological Chemistry. 259:6516-6525.
  • Saxton, W. M., D. L. Stemple, R. J. Leslie, E. D. Salmon, M. Zavortink, and J. R. McIntosh.  1984.  Tubulin dynamics in cultured mammalian cells.  Journal of Cell Biology.  99:2175-2186.
  • Leslie, R. J., W. M. Saxton, T. J. Mitchison, B. Neighbors, E. D. Salmon and J. R. McIntosh.  1984.  Assembly properties of fluorescein-labeled tubulin in vitro before and after fluorescence photobleaching.  Journal of Cell Biology.  99:2146-2156.
  • Salmon, E. D. and S. Wolniak.  1984.  Taxol stabilization of mitotic spindle microtubules:  Analysis using calcium-induced depolymerization.  J. Cell Motil.  4:155-167.
  • Salmon, E. D., W. M. Saxton, R. J. Leslie, M. L. Karow, and J. R. McIntosh.  1984.  Spindle microtubule dynamics in sea urchin embryos.  Analysis using a fluorescein-labeled tubulin and measurements of fluorescence redistribution after photobleaching. Journal of Cell Biology.  99:2165-2174.
  • Salmon, E. D., W. M. Saxton, R. J. Leslie, M. L. Karow, and J. R. McIntosh.  1984.  Diffusion coefficient of fluorescein-labeled tubulin in the cytoplasm of embryonic cells of sea urchin:  Measurement by video image processing of fluorescence redistribution after photobleaching. Journal of Cell Biology.  99:2157-2164.
  • Salmon, E. D., M. McKeel, and T. Hays.  1984.  The rapid rate of tubulin dissociation from microtubules in the mitotic spindle in vivo measured by blocking polymerization with colchicine. Journal of Cell Biology.  99:1067-1076.
  • Salmon, E. D.  1984.  Tubulin dynamics in microtubules of the mitotic spindle.  In Molecular Biology of the Cytoskeleton.  G. Borisy, D. Murphy and D. Cleveland, editors.  Cold Spring Harbor Laboratory, Cold Spring Harbor, NY.  pp. 99-109.
  • Begg, D. A., E. D. Salmon and H. Hyatt.  1983.  Changes in the structural organization of actin in the sea urchin egg cortex in response to hydrostatic pressure. Journal of Cell Biology. 97:1795-1805.
  • Hays, T., D. Wise and E. D. Salmon.  1982.  Traction force on a kinetochore at metaphase acts as a linear function of kinetochore fiber length.  Journal of Cell Biology. 93:374-382.
  • Salmon, E. D.  1982.  Calcium, spindle microtubule dynamics and chromosome movement.  Cell Differentiation 11:353-355.
  • Salmon, E. D.  1982.  Mitotic spindles isolated from sea urchin eggs with EGTA lysis buffers. Methods in Cell Biology.  25:69-105.
  • Salmon, E. D. and D. DeRosier.  1981.  A surveying optical diffractometer.  J. Microscopy 123:239-247.
  • Pratt, M. M., T. Otter, and E. D. Salmon.  1980.  Dynein-like Mg2+ ATPase in mitotic spindles isolated from sea urchin eggs.  (Stronglycentrotus droebachensis). Journal of Cell Biology. 86:738-745.
  • Salmon, E. D. and R. R. Segall.  1980.  Calcium-labile mitotic spindles isolated from sea urchin eggs (Lytechinus variegatus). Journal of Cell Biology. 86:355-365.
  • Salmon, E. D. and D. A. Begg.  1980.  Functional implications of cold-stable microtubules in kinetochore fibers of insect spermatocytes during anaphase.  Journal of Cell Biology. 85:853-865.
  • Salmon, E. D.  1980.  Calcium at low micromolar concentrations induces depolymerization of microtubules with concurrent fiber shortening in isolated spindles.  In Mechanism of Cell Movement II, Fifth NIBB Conference, N. Kamiya and H. Ishikawa, editors.   National Institute for Basic Biology, Okazaki, Japan. pp. 69-72.
  • Otter, T. and E. D. Salmon.  1979.  Hydrostatic pressure reversibly blocks membrane control of ciliary motility in Paramecium. Science. 206:358-361.
  • Salmon, E. D.  1979.  Cell Division.  In McGraw-Hill Yearbook of Science and Technology.  D. Lapedes, editor.  McGraw-Hill, New York. pp. 123-126.
  • Salmon, E. D., D. Goode, T. K. Maugel, and D. B. Bonar.  1976.  Pressure-induced depolymerization of spindle microtubules.  III.  Differential stability in HeLa cells.  Journal of Cell Biology. 69:443-454.
  • Salmon, E. D. and G. W. Ellis.  1976.  Compensator transducer increases ease, accuracy and rapidity of measuring changes in specimen birefringence with polarization microscopy.  Journal of Microscopy. 106:63-69.
  • Salmon, E. D.  1976.  Pressure-induced depolymerization of spindle microtubules.  IV.  Production and regulation of chromosome movement.  In Cell Motility. Cold Spring Harbor Conferences on Cell Proliferation, vol. 3.  R. Goldman, T. Pollard and J. Rosenbaum, editors.  Cold Spring Harbor Laboratory, Cold Spring Harbor,NY.  pp. 1329-1342.
  • Inoué, S., J. Fuseler, E. D. Salmon, and G. W. Ellis.  1975.  Functional organization of mitotic microtubules - physical chemistry of the in vivo equilibrium system.  Biophysical Journal. 15:725-744.
  • Salmon, E. D. and G. W. Ellis.  1975.  A new miniature hydrostatic pressure chamber for microscopy:  Strain-free optical glass windows facilitate phase contrast and polarized light microscopy of living cells.  Optional fixture permits simultaneous control of pressure and temperature. Journal of Cell Biology. 65:587-602.
  • Salmon, E. D.  1975.  Pressure-induced depolymerization of brain microtubules in vitro. Science. 189:884-886.
  • Salmon, E. D.  1975.  Pressure-induced depolymerization of spindle microtubules.  II.  Thermodynamics of in vivo spindle assembly.  Journal of Cell Biology. 66:114-127.
  • Salmon, E. D.  1975.  Pressure-induced depolymerization of spindle microtubules.  I.  Spindle birefringence and length changes.  Journal of Cell Biology. 65:603-614.
  • Salmon, E. D.  1975.  Spindle microtubules:  Thermodynamics of in vivo assembly and role in chromosome movement.  Ann. NY Acad. Sci. 253:383-406.

 

 

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