JURISPRUDENCIA “ DE LOS ÚLTIMOS DIEZ AÑOS ”

Furcht, L.T. & Scott, R.E. (1974). Influence of cell cycle and cell movement on the distribution of intra-

raembranous particles in•contact-inhibited and trans­

formed cells. Exptl. Cell Res. 88, 311-3l8.

Garrahan, P.J. & Glynn, I.M, (1966). Measurement of ^^Na and ^^K

with a liquid scintillation counting system without

added scintillator. J. Physiol. 186, 55-56.

Glynn, I.M. (1964). The action of cardiac glycosides on ion

movements. Pharrnac. Rev. 16, 3^1-407.

Graham, J.M. (1972). Isolation and characterisation of membranes

from normal and transformed tissue-culture cells.

Biochem. J . 13O, 1113-1124.

Griffiths, J.B. (1972). The effect of cell population density on

nutrient uptake and cell metabolism: A comparative

study of human diploid and heteroploid cell lines.

J. Cell Sci. 10, 315-524.

Grimes, -W.J. & Schroeder, J.L. (1973)« Dibutyryl cÀMP, sugar

transport and regulatory control of cell division in

normal and transformed cells. J. Cell Biol. 36,

487-491.

Hakomori, S'. ( 1975) . Structures and organisation of * cell surface glycolipids. Dependency on cell growth and malignant

transformation. Biochim. Biophys. Acta 4i7, 35-89.

Hale, A.H., Winklehake, J.L, & Weber, M.J, (1975)* Cell surface changes and Rous sarcoma virus gene expression in synchronised cells. J . Cell Biol. 64, 398-407. Hare, J.D. (1972). A labile Serum-dependent uridine uptake

function in mouse 'embryo cells. Biochim. Biophys. Acta 282, 40l-4o8.

Harel, L . , Jullien, M. & Blat, C. (1975)* Control by cell inter­

action of phosphate uptake in 3T3 cells. Exptl. Cell

Res. 90, 201-210.

Harrison, R.G. (1907)* Observations on the living developing

nerve fibre. Proc. Soc. exp. Biol. (N.Y.) 4, 140-132.

Hassell, J.A., Colby, C. & Romano, A.H. (1975)* The effect of serum on the transport of 2-deoxyglucose by untrans­ formed and transformed 3^3 cells. J . cell. Physiol. 86, 37-46.

Hatanaka, M. & Gilden, R.V. (.1970). Virus-specified changes in

the sugar-transport kinetics of rat embryo cells

infected with murine sarcoma virus. J . natn. Cancer Inst. 43, 87-89. ^

Hatanaka, M. & Hanafusa, H. (1970). Analysis of a functional change in membrane in the process of cell trans­ formation by Rous sarcoma virus; Alteration in the

characteristics of sugar transport. Virology 41, ■ 647-652.

Hatanaka,'M. Augl, C. & Gilden, R.V. (l970). Evidence for a functional change in the plasma membrane of murine sarcoma virus-infected mouse embryo cells. J . Biol » Chem. 243, 7l4-7l7.

Hatanaka, M . , Gilden, R.V. & Kolloff, G. (1971). Induction of

nugar uptake by a hams tor pseudo ty ))0 sarcoma virus.

\Mi'oIogy A VMt-736.

Hatanaka, M., Huobner, R.J . & Gilden, R.V. (1969). Altérations

in tho char'acteristicG of sugar uptake by mouse colic

transformed by murine sarcoma viruses. J. natn. Cancer Inst. 4), 1091-IO96.

Holloy, R.W. (1972). A unifying hypothesis coricorning the nature

of malignant growth. Proc. natn. Acad. Gci. U.C.A .

69, 2840-2.841.

Holloy, R.W, (1975). Control oC growth of mammalian cells in

cell culture. Nature 258, ^(87-490*

Holley, R.W. & Kiernan, J.A. (1968). Contact inhibition of cell

division in 315 cells. Proc. natn. Acad. Sci. U.S.A.

60, 300-304.

Holley, R.W. & Kiernan, J.A. (1974a). Control of the initiation

of DNA synthesis of 313 cells: Serum factors. Proc.

natn. Acad. Sci. U.S.A. 71, 2908-2911 »

Holley, R.W. & Kiernan, J.A. (1974b). Control of the initiation

: of DNA synthesis in 3T3 cells: Low molecular weight

nutrients. Proc. natn. Acad. Sci. U.S.A. 71, 2942-

2943.

Hornsey, S' & Howard, A. (1956). Autoradiographic studies with

mouse Erlich ascites tumour. Ann. N.Y, Acad. Sci.

63, 915-928.

Howard, A. & Pelc, S.R. (l953')« Synthesis of deoxyribonucleic

acid in normal and irradiated cells in relation to

its chromosome, breakage. Heredity 6 , 261-273*

Hynes, R.G. (1974). Role of surface alterations in cell trans­

formation: the importance of proteases and surface proteins. Cell 1, l47-l56.

Isselbacher, K.J. (1972). Increased uptake of amino acids and

2-deoxyglucose by virus-transformed cells in culture.

Proc, natn. Acad. Sci. U.S.A. 69, 583-589,

Jimenez de Asua, L. & Roxengurt, E., (1974). Multiple control'

mechanisms underlie initiation of growth in -animal cells. Nature 251, 624-626.

Jimenez de Asua, L. , Rozengurt, E. & Dulbecco, R. ('197^)»

Kinetics of early changes in phosphate and uridine

transport and cyclic AMP levels stimulated by serum

in density-inhibited 3^3 cells. Proc. natn. Acad. Sci

U.S.A. 71, 96-98.

Jung, C. & Rothstein, A. (19&7). Cation metabolism in relation to

cell size in synchronously grown tissue culture cells* \ J. Gen. Physiol. 90, 917-932.

Kawai, S. & Hanafusa, U. (1971). The effects of reciprocal

changes in temperature on the transformed state of cells infected with a Rous sarcoma virus mutant. Virology 46, 470-479.

Keynes, R.D. & I/ewis, P.P. (1951)» The sodium and potassium

content of cephalopod nerve fibres. J. Physiol.

114, 191-182.

Kimelberg, H.K. & Mayhew, E. (1975). Increased ouaba_tf, in-sensitive

Rb uptake and sodium and potassium ion active

ATPase activity ip transformed cell lines. J. Biol.

Chera. 250, 100-104.

Kletzein, R.F. & Perdue, J.F. (1973). . The inhibition of sugar ''

transport in chick embryo fibroblasts by cytochalasin B.

Evidence for a membrane specific effect. J. Biol. Chem.

2.48, 711-719.

Kletzein, RPF. & Perdue, J.F, (1974a). Sugar transport in chick embryo fibroblasts. I. A functional change in the

plasma membrane associated with the rate of cell growth* J. Biol. Chem. 249, 3366-3374.

Kletzein, R.F. & Perdue, J.F. (1974b). Sugar transport in chick embryo fibroblasts. II. Alterations in transport following transformation by a temperature-sensitive

mutant of the Rous sarcoma virus. J. Biol. Chem.

249, 3375-5382.

Kletzein, R.F. & Periue, J.F. (I9?4_c). Sugar transport in chick' embryo fibroblasts. III. Evidence for post-transcript­

ional and post-translational regulation of transport following serum addition.' J . Biol. Chem. 249, 33&3- 3387. ; .

Kram, R, & Tomkins, G.M. (1973)« Pleiotypic control by cyclic AMP: Interaction with cyclic GMP and possible role of microtubules. Proc. natn. Acad. Sci. U.S.A. 70,

1659- 1663.

Kram, R, , Maniont, T.P, & Tomkins, G.M. ( 1973) . Pleiotypic

control by adenosine 3 ' :5'-cyclic monophosphate: A model for growth control in animal cells. Proc. natn. Acad. Sci. U.S.A. 70, l432-l436.

Kruse, P.F. & Miedema, E. (1965)* ‘Production and characterisation

of multiple layered populations of animal cells.