Published Research

Found 62 results for Kilmartin.

• Structure of the native γ-tubulin ring complex capping spindle microtubules AuthorsDendooven T, Yatskevich S, Burt A, Chen ZA, Bellini D, Rappsilber J, Kilmartin JV, Barford D. Journal Nature Structural & Molecular Biology 10.1038/s41594-024-01281-y (2024)
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  DOI10.1038/s41594-024-01281‑y PMID38609662 PMCID  DivisionStructural Studies, Cell Biology
• Centriolar satellites are acentriolar assemblies of centrosomal proteins AuthorsQuarantotti V., Chen J. X., Tischer J., Gonzalez Tejedo C., Papachristou E. K., D'Santos C. S., Kilmartin J. V., Miller M. L., Gergely F. Journal EMBO Journal 38(14):e101082. 15 July 2019 (2019)
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  DOI10.15252/embj.2018101082 PMID31304626 PMCIDPMC6627235 DivisionCell Biology
• Ring closure activates yeast γTuRC for species-specific microtubule nucleation. AuthorsKollman J. M., Greenberg C. H., Li S., Moritz M., Zelter A., Fong K. K., Fernandez J. J., Sali A., Kilmartin J., Davis T. N., Agard D. A. Journal Nature Structural & Molecular Biology 22(2):132-137, 1 February 2015 (2015)
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  DOI10.1038/nsmb.2953 PMID25599398 PMCIDPMC4318760 DivisionCell Biology
• Lessons from yeast: the spindle pole body and the centrosome AuthorsKilmartin J. V. Journal Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 369(1650). 5 September 2014 (2014)
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  DOI10.1098/rstb.2013.0456 PMID25047610 PMCIDPMC4113100 DivisionCell Biology
• Loss of centrioles causes chromosomal instability in vertebrate somatic cells AuthorsSir J. H., Pütz M., Daly O., Morrison C. G., Dunning M., Kilmartin J. V., Gergely F. Journal Journal of Cell Biology 203(5):747-756. 9 December 2013 (2013)
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  DOI10.1083/jcb.201309038 PMID24297747 PMCIDPMC3857480 DivisionCell Biology
• CDK5RAP2 functions in centrosome to spindle pole attachment and DNA damage response AuthorsBarr A. R., Kilmartin J. V., Gergely F. Journal Journal of Cell Biology 189(1):23-39. 5 April 2010 (2010)
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  DOI10.1083/jcb.200912163 PMID20368616 PMCIDPMC2854379 DivisionCell Biology
• Structural role of Sfi 1p-centrin filaments in budding yeast spindle pole body duplication AuthorsSam Li, Alan M. Sandercock, Paul Conduit, Carol V. Robinson, Roger L. Williams, John V. Kilmartin Journal Journal of Cell Biology 173: 867-877 (2006) (2006)
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• Architecture of the human Ndc80-Hec1 complex, a critical constituent of the outer kinetochore AuthorsCiferri C., de Luca J. Monzani S., Ferrari K. J., Ristic D., Wyman C., Stark H., Kilmartin J., Salmon E. D., Musacchio A. Journal Journal of Biological Chemistry 280(32):29088-29095. 12 August 2005 (2005)
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  DOI10.1074/jbc.m504070200 PMID15961401 PMCID  DivisionCell Biology
• Interactions between centromere complexes in Saccharomyces cerevisiae AuthorsNekrasov V. S., Smith M. A., Peak-Chew S., Kilmartin J. V. Journal Molecular Biology of the Cell 14(12):4931-4946. 1 December 2003 (2003)
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  DOI10.1091/mbc.e03-06‑0419 PMID14565975 PMCIDPMC284796 DivisionCell Biology
• Sfi1p has conserved centrin-binding sites and an essential function in budding yeast spindle pole body duplication AuthorsKilmartin J. V. Journal Journal of Cell Biology 162(7):1211-1221. 22 September 2003 (2003)
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  DOI10.1083/jcb.200307064 PMID14504268 PMCIDPMC2173958 DivisionCell Biology
• hNuf2 inhibition blocks stable kinetochore-microtubule attachment and induces mitotic cell death in HeLa cells AuthorsDeLuca J. G., Moree B., Hickey J. M., Kilmartin J. V., Salmon E. D. Journal Journal of Cell Biology 159(4):549-555. 18 November 2002 (2002)
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  DOI10.1083/jcb.200208159 PMID12438418 PMCIDPMC2173110 DivisionCell Biology
• The Ndc80p complex from Saccharomyces cerevisiae contains conserved centromere components and has a function in chromosome segregation AuthorsWigge P. A., Kilmartin J. V. Journal Journal of Cell Biology 152(2):349-360 (2001) (2001)
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  DOI10.1083/jcb.152.2.349 PMID11266451 PMCIDPMC2199619 Division 
• The TACC domain identifies a family of centrosomal proteins that can interact with microtubules AuthorsGergely F., Karlsson C., Still I., Cowell J., Kilmartin J., Raff J. W. Journal Proceedings of the National Academy of Sciences, USA 97(26):14352-14357. 19 December 2000 (2000)
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  DOI10.1073/pnas.97.26.14352 PMID11121038 PMCIDPMC18922 DivisionCell Biology
• Spindle pole body duplication: a model for centrosome duplication? AuthorsAdams I. R., Kilmartin J. V. Journal Trends in Cell Biology 10(8):329-335. 1 August 2000 (2000)
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  DOI10.1016/s0962-8924(00)01798‑0 PMID10884685 PMCID  DivisionCell Biology
• Localization of core spindle pole body (SPB) components during SPB duplication in Saccharomyces cerevisiae AuthorsIan R. Adams, John V. Kilmartin Journal Journal of Cell Biology 145(4):809-823 (1999) (1999)
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  DOI10.1083/jcb.145.4.809 PMID10330408 PMCIDPMC2133189 Division 
• Saccharomyces cerevisiae cells with defensive spindle pole body outer plaques accomplish nuclear migration via half-bridge-organized microtubules AuthorsBrachat A., Kilmartin J. V., Wach A., Philippsen P. Journal Molecular Biology of the Cell 9(5):977-991. 1 May 1998 (1998)
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  DOI10.1091/mbc.9.5.977 PMID9571234 PMCIDPMC25323 DivisionCell Biology
• Analysis of the Saccharomyces spindle pole by matrix-assisted laser desorption/ionization (MALDI) mass spectrometry AuthorsPhilip A. Wigge, Ole N. Jensen, Simon Holmes, Sylvie Soues, Matthias Mann, John V. Kilmartin Journal Journal of Cell Biology 141: 967-977 (1998) (1998)
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• The yeast spindle pole body is assembled around a central crystal of Spc42p AuthorsBullitt E., Rout M. P., Kilmartin J. V., Akey C. W. Journal Cell 89(7):1077-1086 (1997) (1997)
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  DOI10.1016/S0092-8674(00)80295-0 PMID9215630 PMCID  DivisionCell Biology
• Spc110p: assembly properties and role in the connection of nuclear microtubules to the yeast spindle pole body AuthorsKilmartin J. V., Goh P-Y. Journal EMBO Journal 15(17):4592-4602. 1 September 1996 (1996)
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  DOI10.1002/j.1460-2075.1996.tb00837.x PMID8887551 PMCIDPMC452189 Division 
• The spindle pole body componenet Spc98p interacts with the gamma-tubulin-like Tub4p of Saccharomyces cerevisiae at the sites of microtubule attachment AuthorsGeissler S., Pereira G., Spang A., Knop M., Soues S.,Kilmartin J., Schiebel E. Journal EMBO Journal 15(15):3899-3911 (1996) (1996)
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  DOI10.1002/j.1460-2075.1996.tb00764.x PMID8670895 PMCIDPMC452092 Division 
• Spc42p: a phosphorylated component of the S. cerevisiae spindle pole body (SPB) with an essential function during SPB duplication AuthorsAnne D. Donaldson, John V. Kilmartin Journal Journal of Cell Biology 132: 887-901 (1996) (1996)
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• Genetic and biochemical approaches to spindle function and chromosome segregation in eukaryotic microorganisms AuthorsKilmartin J. V. Journal Current Opinion in Cell Biology 6(1):50-54 (1994) (1994)
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  DOI10.1016/0955-0674(94)90115‑5 PMID8167025 PMCID  DivisionCell Biology
• Preparation of yeast spindle pole bodies AuthorsMichael P. Rout, John V. Kilmartin Journal Cell Biology: A Laboratory Handbook pp.605-612 (1994) (1994)
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• NDC10: a gene involved in chromosome segregation in Saccharomyces cerevisiae AuthorsPhuay-Yee Goh, John V. Kilmartin Journal Journal of Cell Biology 121: 503-512 (1993) (1993)
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• A spacer protein in the Saccharomyces cerevisiae spindle pole body whose transcript is cell cycle‑regulated AuthorsJohn V. Kilmartin, Susan L. Dyos, Douglas Kershaw, John T. Finch Journal Journal of Cell Biology 123: 1175-1184 (1993) (1993)
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• Components of the yeast spindle and spindle pole body AuthorsMichael P. Rout, John V. Kilmartin Journal Journal of Cell Biology 111: 1913-1927 (1990) (1990)
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• Structural rearrangements of tubulin and actin during the cell cycle of the yeast Saccharomyces AuthorsKilmartin J. V., Adams A. E. M. Journal Journal of Cell Biology 98(3):922-933 (1984) (1984)
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  DOI10.1083/jcb.98.3.922 PMID6365930 PMCIDPMC2113161 Division 
• Microtubules and actin filaments during the yeast cell cycle AuthorsJohn V. Kilmartin Journal Molecular Biology of the Cytoskeleton. Edited by Gary G. Borisy, Don W. Cleveland, Douglas B. Murphy pp.185-192 (1984) (1984)
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• Rat monoclonal antitubulin antibodies derived by using a new nonsecreting rat cell line AuthorsKilmartin J. V., Wright B., Milstein C. Journal Journal of Cell Biology 93(3):576-582. 1 June 1982 (1982)
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  DOI10.1083/jcb.93.3.576 PMID6811596 PMCIDPMC2112140 DivisionCell Biology, Protein & Nucleic Acid Chemistry,
• Purification of yeast tubulin by self-assembly in vitro AuthorsJohn V. Kilmartin Journal Biochemistry 20: 3629-3622 (1981) (1981)
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• Removal of specific C-terminal residues from human hemoglobin using carboxypeptidases A and B AuthorsJ. V. Kilmartin Journal Methods in Enzymology 76: 167-171 (1981) (1981)
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• Role of C-terminal histidine in the alkaline Bohr effect of human hemoglobin AuthorsKilmartin J. V., Fogg J. H., Perutz M. F. Journal Biochemistry 19(14):3189-3183. 8 July 1980 (1980)
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  DOI10.1021/bi00555a013 PMID7407039 PMCID  DivisionStructural Studies
• Identification of residues contributing to the Bohr effect of human haemoglobin. Appendix: Mechanism of deamidation of haemoglobin providence Asn AuthorsPerutz M. F., Kilmartin J. V., Nishikura K., Fogg J. H., Butler P. J. G., Rollema H. S. Appendix: Perutz M. F., Fogg J. H., Fox J. A. Journal Journal of Molecular Biology 138(3):649-668. 15 May 1980 (1980)
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  DOI10.1016/s0022-2836(80)80022‑2 PMID7411620 PMCID  DivisionStructural Studies
• Response of the Bohr group salt bridges to ligation of the T state of haemoglobin Kansas AuthorsKilmartin J. V., Anderson N. L., Ogawa S. Journal Journal of Molecular Biology 123(1):71-87. 25 July 1978 (1978)
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  DOI10.1016/0022-2836(78)90377-7 PMID28419 PMCID  Division 
• Role of Bohr group salt bridges in cooperativity in hemoglobin AuthorsJ. V. Kilmartin, K. Imai, R. T. Jones, A. R. Faruqi, J. Fogg, J. M. Baldwin Journal Biochimica et Biophysica Acta 534: 15-25 (1978) (1978)
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• Specific modification of the alpha chain C-terminal carboxyl group of hemoglobin by trypsin-catalyzed hydrazinolysis AuthorsJ. V. Kilmartin, A. Arnone, J. Fogg Journal Biochemistry 16: 5393-5397 (1977) (1977)
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• The Bohr effect of human hemoglobin AuthorsJohn V. Kilmartin Journal Trends in Biochemical Sciences November 1977: 247-249 (1977) (1977)
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• Structure and function of haemoglobin Philly (Tyr C1 (35)beta->Phe) AuthorsT. Asakura, K. Adachi, J. S. Wiley, L. W.-M. Fung, C. Ho, J. V. Kilmartin, M. F. Perutz Journal Journal of Molecular Biology 104: 185-195 (1976) (1976)
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• Influence of globin structures on the state of the heme. Ferrous low spin derivatives AuthorsMax F. Perutz, John V. Kilmartin, Kiyoshi Nagai, Attila Szabo, Sanford R. Simon Journal Biochemistry 15: 378-387 (1976) (1976)
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• Interaction of haemoglobin with protons, CO2 and 2,3‑diphosphoglycerate AuthorsJ. V. Kilmartin Journal British Medical Bulletin 32: 209-212 (1976) (1976)
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• Functional role of the salt bridges in hemoglobin AuthorsJ. V. Kilmartin, K. Imai, R. T. Jones Journal Erythrocyte Structure and Function. Alan R. Liss, Inc. pp.21-35 (1975) (1975)
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• Alteration of functional properties associated with the change in quaternary structure in unliganded haemoglobin AuthorsJ. V. Kilmartin, J. A. Hewitt, J. F. Wootton Journal Journal of Molecular Biology 93: 203-218 (1975) (1975)
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• Hemoglobin Cochin-Port-Royal: consequences of the replacement of the beta chain C-terminal by an arginine AuthorsH. Wajcman, J. V. Kilmartin, A. Najman, D. Labie Journal Biochimica et Biophysica Acta 400: 354-364 (1975) (1975)
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• Identification of the high and low affinity CO2-binding sites of human haemoglobin AuthorsM. Perrella, J. V. Kilmartin, J. Fogg, L. Rossi‑Bernardi Journal Nature 256: 759-761 (1975) (1975)
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• Influence of DPG on the Bohr effect of human hemoglobin AuthorsKilmartin J. V. Journal FEBS Letters 38: 147-148 (1974) (1974)
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• The alkaline Bohr effect of human hemoglobin AuthorsJ. V. Kilmartin Journal Ann. NY. Acad. Sci. 241: 465-471 (1974) (1974)
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• The interaction of inositol hexaphosphate with methaemoglobin AuthorsJ. V. Kilmartin Journal Biochemical Journal 133: 725-733 (1973)
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  DOI10.1042/bj1330725 PMID4748831 PMCIDPMC1177762 Division 
• Direct measurement of the pK values of an alkaline Bohr group in human haemoglobin AuthorsJ. V. Kilmartin, J. J. Breen, G. C. K. Roberts, C. Ho Journal Proceedings of the National Academy of Sciences, USA 70: 1246-1249 (1973)
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  DOI10.1073/pnas.70.4.1246 PMID 4515623 PMCIDPMC433468 Division 
• Interaction of hemoglobin with hydrogen ions, carbon dioxide, and organic phosphates AuthorsJ. V. Kilmartin, L. Rossi-Bernardi Journal Physiological Reviews 53: 836-890 (1973) (1973)
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• Role of the alpha-amino groups of the alpha and beta chains of human hemoglobin in oxygen-linked binding of carbon dioxide AuthorsJohn V. Kilmartin, Janice Fogg, Massimo Luzzana, Luigi Rossi‑Bernardi Journal Journal of Biological Chemistry 248: 7039-7043 (1973) (1973)
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• Noncooperativity of the alphabeta dimer in the reaction of hemoglobin with oxygen AuthorsJ. A. Hewitt, J. V. Kilmartin, L. F. Ten Eyck, M. F. Perutz Journal Proceedings of the National Academy of Sciences, USA 69: 203-207 (1972)
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  DOI10.1073/pnas.69.1.203 PMID4500548 PMCIDPMC427576 Division 
• Molecular mechanism of the Bohr Efect AuthorsJ. V. Kilmartin Journal Alfred Benzon Symposium IV: 93-100 (1972)
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• Haemoglobin Hiroshima and the mechanism of the alkaline Bohr effect AuthorsM. F. Perutz, P. Del Pulsinelli, L. Ten Eyck, J. V. Kilmartin, S. Shibata, I. Iuchi, T. Miyaji, H. B. Hamilton Journal Nature New Biology 332: 147-149 (1971)
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  DOI10.1038/newbio232147a0 PMID5285571 PMCID  Division 
• The binding of carbon dioxide by horse haemoglobin AuthorsJ. V. Kilmartin, L. Rossi‑Bernardi Journal Biochemical Journal 124: 31-45 (1971)
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  DOI10.1042/bj1240031 PMID5166592 PMCID  Division 
• The binding of carbon dioxide by horse haemoglobin AuthorsJ. V. Kilmartin, L. Rossi‑Bernardi Journal Biochemical Journal 124: 31-45 (1971)
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  DOI10.1042/bj1240031 PMID5166592 PMCIDPMC1177110 Division 
• Haemoglobin Tak: a variant with additional residues at the end of the beta‑chains AuthorsG. Flatz, Judith L. Kinderlerer, J. V. Kilmartin, H. Lehmann Journal The Lancet April 10: 732-733 (1971)
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  DOI10.1016/S0140-6736(71)91994-5 PMID4101432 PMCID  Division 
• The effect of removal of C-terminal residues on cooperative interactions in hemoglobin AuthorsJ. V. Kilmartin, J. A. Hewitt Journal Cold Spring Harbor Symposia on Quantitative Biology XXXVI: 311-314 (1971) (1971)
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• Inhibition of the Bohr effect after removal of C-terminal histidines from haemoglobin beta‑chains AuthorsJ. V. Kilmartin, J. F. Wootton Journal Nature 228: 766-767 (1970)
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  DOI10.1038/228766a0 PMID5472965 PMCID  Division 
• Some properties of horse hemoglobin specifically modified at the alpha-amino groups AuthorsKilmartin J. V., Rossi-Bernardi L. Journal CO2: Chemical, Biochemical and Physiological Aspects 73-81 (1970)
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• Identification of residues responsible for the alkaline Bohr effect in haemoglobin AuthorsPerutz M. F., Muirhead H., Mazzarella L., Crowther R. A., Greer J.,Kilmartin J. V. Journal Nature 222(5200):1240-1243 (1969)
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  DOI10.1038/2221240a0 PMID5789657 PMCID  Division 
• Inhibition of CO2 combination and reduction of the Bohr effect in haemoglobin chemically modified at its alpha-amino groups AuthorsKilmartin J. V., Rossi-Bernardi L. Journal Nature 222(5200):1243-1246 (1969)
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  DOI10.1038/2221243a0 PMID5789658 PMCID  Division 
• Amino-acid replacements in horse haemoglobin AuthorsKilmartin J. V., Clegg J. B. Journal Nature 213(5073):269-271 (1967)
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  DOI10.1038/213269a0 PMID6030605 PMCID  Division