Nanomedicine, Volume I: Basic Capabilities

© 1999 Robert A. Freitas Jr. All Rights Reserved.

Robert A. Freitas Jr., Nanomedicine, Volume I: Basic Capabilities, Landes Bioscience, Georgetown, TX, 1999

 

References 1400-1499

1400. Robert A. Freitas Jr., "Exploratory Design in Medical Nanotechnology: A Mechanical Artificial Red Cell," Artificial Cells, Blood Substitutes, and Immobil. Biotech. 26(1998):411-430. See also: http://www.foresight.org/Nanomedicine/Respirocytes.html

1401. J. Gray, G.J. Hancock, "The propulsion of sea-urchin spermatozoa," J. Exp. Biol. 32(1955):802-814.

1402. G.R. Cokelet, M.A. Lichtman, "Rheology of leukocyte suspensions," in U. Bagge, G.V.R. Born, P. Gaehtgens, eds., White Blood Cells: Morphology and Rheology as Related to Function, Martinus Nijhoff, The Hague, 1982.

1403. Vicki Glaser, "Carbohydrate-Based Drugs Move CLoser to Market," Genetic Engineering News, 15 April 1998, pp. 1, 12, 32, 34.

1404. T. Karino, M. Motomiya, H.L. Goldsmith, "Flow patterns in model and natural vessels," in J.C. Stanley, ed., Biologic and Synthetic Vascular Prostheses, Grune & Stratton, New York, 1982.

1405. E.W. Knight-Jones, "Relations between metachronism and the direction of ciliary beat in Metazoa," Q. J. Micros. Sci. 95(1954):503-521.

1406. H. Machemer, "Ciliary activity and the origin of metachrony in Paramecium: Effects of increased viscosity," J. Exp. Biol. 57(1972):239-259.

1407. Jurgen Bereiter-Hahn, "I.1 Mechanical Principles of Architecture of Eukaryotic Cells," in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 3-30.

1408. M. Dembo, M. Maltrud, F. Harlow, "Numerical studies of unreactive contractile networks," Biophys. J. 50(1986):123-137.

1409. Christopher W. Akey, "Visualization of transport-related configurations of the nuclear pore transporter," Biophys. J. 58(August 1990):341-355.

1410. Carmen Perez-Terzic, Jason Pyle, Marisa Jaconi, Lisa Stehno-Bittel, David E. Clapham, "Conformational States of the Nuclear Pore Complex Induced by Depletion of Nuclear Ca2+ Stores," Science 273(27 September 1996):1875-1877.

1411. Evan Evans, Howard Bowman, Andrew Leung, David Needham, David Tirrell, "Biomembrane Templates for Nanoscale Conduits and Networks," Science 273(16 August 1996):933-935.

1412. R. Waugh, E.A. Evans, "Thermoelasticity of red blood cell membrane," Biophys. J. 26(1979):115-132.

1413. E.A. Evans, R. Waugh, "Osmotic correction to elastic area compressibility measurements on red cell membrane," Biophys. J. 20(1977):307-313.

1414. D. Needham, R.S. Nunn, "Elastic deformation and failure of lipid bilayer membranes containing cholesterol," Biophys. J. 58(1990):997-1009.

1415. E.A. Evans, R. Waugh, L. Melnik, "Elastic area compressibility modulus of red cell membrane," Biophys. J. 16(1976):585-595.

1416. S.G. Shultz, "Volume Preservation: Then and Now," News in Physiol. Sci. 4(1989):169-172.

1417. L.E. Lanyon, A.E. Goodship, C.J. Pye, J.H. MacFie, "Mechanically adaptive bone remodeling," J. Biomechanics 15(1982):141-154.

1418. L.E. Lanyon, "Functional strain as a determinant for bone remodeling," Calcif. Tiss. Res. 36(1984):556-561.

1419. C.T. Rubin, L.E. Lanyon, "Regulation of bone mass by mechanical strain magnitude," Calcif. Tiss. Res. 37(1985):411-417.

1420. D.B. Jones, H. Nolte, J.-G. Scholubbers, E. Turner, D. Veltel, "Biochemical signal transduction of mechanical strain in osteoblastlike cells," Biomaterials 12(1991):101-110.

1421. R.P. Rand, "Mechanical properties of the red cell membrane. II. Viscoelastic breakdown of the membrane," Biophys. J. 4(1964):303-316.

1422. R. Skalak, A. Tozeren, R.P. Zarda, S. Chien, "Strain energy function of red blood cell membranes," Biophys. J. 13(1973):245-264.

1423. E. Schulze, M. Kirschner, "Microtubule dynamics in interphase cells," J. Cell Biol. 102(1986):1020-1031.

1424. R.B. Nicklas, "A quantitative comparison of cellular motile systems," Cell Motil. 4(1984):1-5.

1425. A. Ben-Ze'ev, "Cell shape, the complex cellular networks, and gene expression," J. Muscle Res. Cell Motil. 6(1985):23-53.

1426. A.S.G. Curtis, G.M. Seehar, "The control of cell division by tension or diffusion," Nature 274(1978):52-53.

1427. C. Yeh, G.A. Rodan, "Tensile forces enhance prostaglandin E synthesis in osteoblastic cells grown on collagen ribbons," Calcif. Tissue Int. 36(1984):S67-S71.

1428. C. Masters, "Interactions between glycolytic enzymes and components of the cytomatrix," J. Cell Biol. 99(1984):222s-225s.

1429. U. Tillmann, J. Bereiter-Hahn, "Relation of actin fibrils to energy metabolism of endothelial cells," Cell Tissue Res. 243(1986):579-585.

1430. Konrad Beck, "II.1 Mechanical Concepts of Membrane Dynamics: Diffusion and Phase Separation in Two Dimensions," in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 79-99.

1431. K. Jacobson, Y. Hou, Z. Derzko, J. Wojcieszyn, D. Organisciak, "Lipid lateral diffusion in the surface membranes of cells and in multibilayers formed from plasma membrane lipids," Biochemistry 20(1981):5268-5275.

1432. D.E. Koppel, M.P. Sheetz, M. Schindler, "Matrix control of protein diffusion in biological membranes," Proc. Natl. Acad. Sci. USA 78(1981):3576-3580.

1433. J.A. Bloom, W.W. Webb, "Lipid diffusibility in the intact erythrocyte membrane," Biophys. J. 42(1983):295-305.

1434. D.E. Golan, W. Veatch, "Lateral mobility of band 3 in the human erythrocyte membrane studied by fluorescence photobleaching recovery: evidence for control by cytoskeletal interactions," Proc. Natl. Acad. Sci. USA 77(1980):2537-2541.

1435. M. McCloskey, M. Poo, "Protein diffusion in cell membranes: some biological implications," Intern. Rev. Cytol. 87(1984):19-81.

1436. D.A. Pink, "Protein lateral movement in bilipid layers. Simulation studies of its dependence upon protein concentration," Biochim. Biophys. Acta 818(1985):200-204.

1437. R.D. Allen, D.G. Weiss, J.H. Hayden, D.T. Brown, H. Fujiwake, M. SImpson, "Gliding movement of and bidirectional transport along single native microtubules from squid axoplasm: evidence for an active role of microtubules in cytoplasmic transport," J. Cell Biol. 100(1985):1736-1752.

1439. R.H. Miller, R.J. Lasek, "Crossbridges mediate anterograde and retrograde vesicle transport along microtubules in squid axoplasm," J. Cell Biol. 101(1985):2181-2193.

1440. M. Schliwa, K.B. Pryzwansky, J. van Blerkom, "Implications of cytoskeletal interactions for cellular architecture and behavior," Philos. Trans. Roy. Soc. London B Biol. Sci. 299(1982):199-205.

1441. S. Sasaki, J.K. Stevens, N. Bodick, "Serial reconstruction of microtubule arrays within dendrites of the cat retinal ganglion cell: the cytoskeleton of a vertebrate dendrite," Brain Res. 259(1982):193-206.

1442. H. Stebbings, C. Hunt, "The nature of the clear zone around microtubules," Cell Tissue Res. 227(1982):609-617.

1443. H.C. MacGregor, H. Stebbings, "A massive system of microtubules associated with cytoplasmic movement in telotrophic ovarioles," J. Cell Sci. 6(March 1970):431-449.

1444. D.G. Weiss, G.W. Gross, "Intracellular transport in axonal microtubular domains. I. Theoretical considerations on the essential properties of a force generating mechanism," Protoplasma 114(1983):179-197.

1445. W.A. Voter, H.P. Erickson, "Electron microscopy of MAP 2 (microtubule associated protein 2)," J. Ultrastruct. Res. 80(1982):374-382.

1446. L. Cassimeris, P. Wadsworth, E.D. Salmon, "Dynamic instability and differential stability of cytoplasmic microtubules in human monocytes," in M. De Brabander, J. de Mey, eds., Microtubules and Microtubule Inhibitors, Elsevier, Amsterdam, 1985, pp. 119-125.

1447. T. Mitchison, M. Kirschner, "Dynamic instability of microtubule growth," Nature 312(1984):237-242.

1448. Dieter G. Weiss, George M. Langford, Robert D. Allen, "II.2 Implications of Microtubules in Cytomechanics: Static and Motile Aspects," in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 100-113.

1449. Michael E.J. Holwill, Peter Satir, "II.4 Generation of Propulsive Forces by Cilia and Flagella," in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 120-130.

1450. Y. Yano, T. Miki-Noumura, "Sliding velocity between outer doublet microtubules of sea-urchin sperm axonemes," J. Cell Sci. 44(1980):169-186.

1451. C.B. Lindemann, W.G. Rudd, R. Rikmenspoel, "The stiffness of the flagella of impaled bull sperm," Biophys. J. 13(1973):437-448.

1452. R.P. Rand, A.C. Burtun, "Mechanical Properties of the Red Cell Membrane. I. Membrane Stiffness and Intracellular Pressure," Biophys. J. 4(1964):115-135.

1453. D.B. Lairand, N.B. Matveeva, V.A. Teplov, S.I. Beylina, "The role of elastoosmotic parameters in locomotion of myxomycete plasmodia," Acta Protozool. 11(1972):339-354.

1454. Michal Opas, "V.3 The Transmission of Forces Between Cells and Their Environment," in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 273-285.

1455. M.A. Hubbe, "Adhesion and detachment of biological cells in vitro," Prog. Surf. Sci. 11(1981):65-138.

1456. M. Opas, L. Kalinina, "Comparison of locomotion and adhesion in four strains of Amoeba proteus," Acta Protozool. 19(1980):339-344.

1457. C.S. Izzard, L.R. Lochner, "Formation of cell-to-substrate contacts during fibroblast motility: an interference-reflexion study," J. Cell Sci. 42(1980):81-116.

1458. K.-L.P. Sung, L.A. Sung, M. Crimmins, S.J. Burakoff, S. Chien, "Determination of Junction Avidity of Cytolytic T Cell and Target Cell," Science 234(1986):1405-1408.

1459. K.-L.P. Sung, L.A. Sung, M. Crimmins, S.J. Burakoff, S. Chien, "Biophysical basis of cell killing by cytotoxic T lymphocytes," J. Cell Sci. 91(1988):179-189.

1460. J.R. Blake, M.A. Sleigh, "Mechanics of ciliary locomotion," Biol. Rev. 49(1974):85-125.

1461. D.W. James, J.F. Taylor, "The stress developed by sheets of chick fibroblasts in vitro," Exp. Cell Res. 54(1969):107-110.

1462. R.J. Goldacre, "The role of the cell membrane in the locomotion of Amoebae and the source of the motive force and its control by feedback," Exp. Cell Res. 8(1961):1-16.

1463. Arthur Forer, "Chapter 23. Chromosome movements during cell-division," in A. Lima-de-Faria, ed., Handbook of Molecular Cytology, Volume 15, North Holland Publ. Co., Amsterdam, 1969, pp. 553-601.

1464. M. Haberey, "Cinematography of cell membrane behavior and flow phenomena in Amoeba proteus," Acta Protozoologica 11(1972):95-102.

1465. L. Wolpert, C.M. Thompson, C.H. O'Neill; in R.D. Allen, N. Kamiya, eds., Primitive Motile Systems in Cell Biology, Academic Press, New York, 1964, pp. 143-172.

1466. H. Komnick, W. Stockem, K.E. Wohlfarth-Bottermann, "Cell Motility: Mechanisms in Protoplasmic Streaming and Amoeboid Movement," Int. Rev. Cytol. 34(1973):169-252.

1467. E.J. Ambrose, J.A. Forrester, "Electrical phenomena associated with cell movements," Symposia of the Society for Experimental Biology 22(1968):237-248.

1468. Marileen Dogterom, Bernard Yurke, "Measurement of the Force-Velocity Relation for Growing Microtubules," Science 278(31 October 1997):856-860.

1469. R.D. Allen, "The consistency of amoeba cytoplasm and its bearing on the mechanism of amoeboid movement. II. The effects of centrifugal acceleration observed in the centrifuge microscope," J. Biophys. Biochem. Cytol. 8(1960):379-397.

1470. K. Yagi, "The mechanical and colloidal properties of Amoeba protoplasm and their relations to the mechanism of amoeboid movement," Comp. Biochem. Physiol. 3(1961):73-91.

1471. N. Kamiya; in R.D. Allen, N. Kamiya, eds., Primitive Motile Systems in Cell Biology, Academic Press, New York, 1964, pp. 257-278.

1472. D. Nichols, (tube feet papers), Quart. J. Microsc. Sci. 100(1959):73-87, 100(1959):539-555, 101(1960):105-117, and 102(1961):157-180.

1473. J.B. Buchanan, J.D. Woodley, "Extrusion and retraction of the tube-feet of Ophiuroids," Nature 197(1963):616-617.

1474. J.D. Woodley, (Ophiuroid water-vascular system); in N. Millott, ed., Echinoderm Biology, Academic Press, London, 1967, pp. 75-104.

1475. J.E. Smith, (tube feet of starfish), Phil. Trans. Roy. Soc. B 232(1946):279-310.

1476. A. Kusumi, Y. Sako, M. Yamamoto, "Confined lateral diffusion of membrane receptors as studied by single particle tracking (nanovid microscopy). Effects of calcium-induced differentiation in cultured epithelial cells," Biophys. J. 65(1993):2021-2040.

1477. Yasushi Sako, Akihiro Kusumi, "Barriers for Lateral Diffusion of Transferrin Receptor in the Plasma Membrane as Characterized by Receptor Dragging by Laser Tweezers: Fence vs. Tether," J. Cell Biol. 129(June 1995):1559-1574.

1478. Y. Sako, A. Kusumi, "Compartmentalized structure of the plasma membrane for lateral diffusion of receptors as revealed by nanometer-level motion analysis," J. Cell Biol. 125(1994):1251-1264.

1479. Michael Edidin, Scot C. Kuo, Michael P. Sheetz, "Lateral Movements of Membrane Glycoproteins Restricted by Dynamic Cytoplasmic Barriers," Science 254(1991):1379-1382.

1480. R. Simpson, B. Yang, P. Doherty, S. Moore, F. Walsh, K. Jacobson, "The Mosaic Structure of Cell Membranes Revealed by Transient Confinement of GPI-Linked NCAM-125," Biophys. J. 68(February 1995):A436.

1481. Philip L. Yeagle, "Chapter 3. The Dynamics of Membrane Lipids," in Philip Yeagle, ed., The Structure of Biological Membranes, CRC Press, Boca Raton, 1992, pp. 157-174.

1482. Michael Edidin, "Chapter 12. Translational Diffusion of Membrane Proteins," in Philip Yeagle, ed., The Structure of Biological Membranes, CRC Press, Boca Raton, 1992, pp. 539-567.

1483. Richard J. Cherry, "Chapter 11. Membrane Protein Dynamics: Rotational Dynamics," in Philip Yeagle, ed., The Structure of Biological Membranes, CRC Press, Boca Raton, 1992, pp. 507-537.

1484. James J. Campbell, Joseph Hedrick, Albert Zlotnik, Michael A. Siani, Darren A. Thompson, Eugene C. Butcher, "Chemokines and the Arrest of Lymphocytes Rolling Under Flow Conditions," Science 279(16 January 1998):381-384.

1485. Paul T. Englund,"The Structure and Biosynthesis of Glycosyl Phosphatidylinositol Protein Anchors," Annu. Rev. Biochem. 62(1993):121-138.

1486. Jeff Koechling, Marc H. Raibert, "How Fast Can a Legged Robot Run?" in Paolo Dario, Giulio Sandini, Patrick Aebischer, eds., Robots and Biological Systems: Towards a New Bionics, Springer-Verlag, New York, 1993, pp. 239-269.

1488. Eliot R. Clarke, Eleanor Linton Clarke, "Observations on Changes in Blood Vascular Endothelium in the Living Animal," Amer. J. Anat. 57(1935):385-438.

1489. J.V. Hurley, "An Electron Microscopic Study of Leucocytic Emigration and Vascular Permeability in Rat Skin," Austral. J. Exp. Biol. 41(1963):171-186.

1490. M.E. Smith, W.L. Ford, "The recirculating lymphocyte pool of the rat: a systematic description of the migratory behavior of recirculating lymphocytes," Immunology 49(1983):83-94.

1491. Una S. Ryan, "Chapter 30. Endothelial Cells," in John H. Barker, Gary L. Anderson, eds., Clinically Applied Microcirculation Research, CRC Press, Boca Raton FL, 1995, pp. 407-418.

1492. Stanley Davis, "Chapter 16. Biomedical Applications of Particle Engineering," in Richard R.H. Coombs, Dennis W. Robinson, eds., Nanotechnology in Medicine and the Biosciences, Gordon & Breach Publishers, Netherlands, 1996, pp. 243-262.

1493. Werner W. Franke, Pamela Cowin, Christine Grund, Caecilia Kuhn, Hans-Peter Kapprell, "The Endothelial Junction: The Plaque and Its Components," in Nicolae Simionescu, Maya Simionescu, eds., Endothelial Cell Biology in Health and Disease, Plenum Press, New York, 1988, pp. 147-166.

1494. Stephen M. Schwartz, Ronald L. Heimark, Mark W. Majesky, "Developmental Mechanisms Underlying Pathology of Arteries," Physiol. Rev. 70(October 1990):1177-1209.

1495. Timothy A. Springer, "Traffic Signals on Endothelium for Lymphocyte Recirculation and Leukocyte Emigration," Annu. Rev. Physiol. 57(1995):827-872.

1496. Joseph A. Madri, Bruce M. Pratt, Judith Yannariello-Brown, "Endothelial Cell-Extracellular Matrix Interactions: Matrix as a Modulator of Cell Function," in Nicolae Simionescu, Maya Simionescu, eds., Endothelial Cell Biology in Health and Disease, Plenum Press, New York, 1988, pp. 167-188.

1497. M. van der Rest, P. Bruckner, "Collagens: Diversity at the Molecular and Supramolecular Levels," Curr. Opin. Cell. Biol. 3(1993):430-436.

1498. D.J. Prockop, K.I. Kivirikko, "Collagens: Molecular Biology, Diseases, and Potentials for Therapy," Ann. Rev. Biochem. 64(1995):403-434.

1499. R.B. Vernon, J.C. Angello, M.L. Iruela-Arispe, et al., "Reorganization of basement membrane matrices by cellular traction promotes the formation of cellular networks in vitro," Lab. Invest. 66(1992):536-547.

 

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