Двойная спираль. Забытые герои сражения за ДНК - Гарет Уильямс

Bridges C. Non-disjunction as proof of the chromosome theory of heredity. Genetics 1916; 1:1–52, 107–63.

Brown A. J.D. Bernal. The Sage of Science. Oxford: OUP, 2005.

Brown R. On the organs and mode of fecundation in Orchideae and Asclepiadeae, with additional observations. Trans Linn Soc London 1833; 16:685–745.

Buess H. Joh. Friedrich Miescher and the contribution of Basle physicians to the biology of the nineteenth century. Yale J Biol Med 1953; 25:250–61.

Caspersson T., Schultz J. Nucleic acid metabolism of the chromosomes in relation to gene reproduction. Nature 1938; 142:294–295.

Chargaff E. On the nucleoproteins and nucleic acids of microorgan– isms. Cold Spring Harb Symp Quant Biol 1947; 12:28–34.

Chargaff E. Some recent studies on the composition and structure of nucleic acids. J Cell Physiol 1951; 38:41–58.

Chargaff E. Heraclitean Fire: Sketches from a Life before Nature. New York: Rockefeller University Press; 1978.

Chargaff E., Vischer E.M., Doniger R., Green C., Misani F. The composition of the desoxypentose nucleic acids of thymus and spleen. J Biol Chem 1949; 177:405–411.

Chargaff E., Zamenhof S., Green C. Composition of human desoxypentose nucleic acid. Nature 1950; 165:756–757.

Cobb M. Life’s Greatest Secret. The race to crack the genetic code. London: Profile Books, 2015.

Coburn A.F. Oswald Theodore Avery and DNA. Perspectives in Biology and Medicine 1969; 12:623–630.

Cohen S.S., Lehman R. Erwin Chargaff, 1905–2002. Biographical Memoir. Washington DC: Natl Acad Sci, 2010, p. 1–15.

Corner G.W. A History of the Rockefeller Institute 1901–1953: Origins and Growth. New York: Rockefeller Univ. Press; 1964.

Cornford F.M. Microcosmographica Academica. Being a guide for the young academic politician. London: Bowes & Bowes, 1908.

Correns C.E. G. Mendels Regel über das Verhalten der Nachkommenschaft der Rassenbastarde. Berichte der Deutsche Botan Gesellsch 1900; 18:158–168.

Creeth J.M. Some Physicochemical Studies on Nucleic Acids and Related Substances. PhD thesis, University of Nottingham, 1947.

Crick F.H.C. On protein synthesis. Symp Soc Exp Biol 1958; 12:155–7.

Crick F.H.C. On the genetic code. Nobel Lecture 1962.

Crick F. What Mad Pursuit. A personal view of scientific discovery. New York: Basic Books Inc, 1988.

Crick F.H.C., Hughes A.A.W. The physical properties of cytoplasm, a study by means of the magnetic particle method, Pt. I: experimental, Pt. II: theoretical treatment. Expl Cell Res 1950; 1:37–64, 505–542.

Crow J.F. N.I. Vavilov, martyr to genetic truth. Genetics 1993; 134:1–4.

Dahm R. Friedrich Miescher and the discovery of DNA. Dev Biol 2005; 278:274–88.

Darwin C.R. On the Origin of Species by Means of Natural Selection, or the Preservation of Favoured Races in the Struggle for Life. 1st edn. London: John Murray, 1859.

Davidson J.N. The Biochemistry of the Nucleic Acids, 2nd edn. London: Methuen, 1953.

Dawson M.H. The interconvertibility of ‘R’ and ‘S’ forms of Pneumo-coccus. J Exp Med 1928; 47:577–591.

Dawson M.H. The transformation of pneumococcal types: I & II. J Exp Med 1930; 51:99–122, 123–147.

Dawson M.H., Sia R.H.P. In vitro transformation of pneumococcal types. Parts I & II. J Exp Med 1931; 54:681–699, 701–710.

De Vries H. Das Spaltungsgesetz der Bastarde. Berichte der Deutsch Botan Gesellsch 1900;18: 83–90.

De Vries H. Sur la loi de disjonction des hybrides. Comptes Rendus hebdo des Séances de l’Académie des Sciences 1900; 130:845–847.

Dobzhansky T. Genetics and the Origin of Species, 3rd edn revised. New York: Columbia University Press, 1951.

Dochez A.R., Avery O.T. The elaboration of specific soluble substance by pneumococcus during growth. J Exp Med 1917; 26:477–493.

Dodson E.O. Mendel and the rediscovery of his work. Sci Monthly 1955; 81:187–95.

Downie A.W. Pneumococcal transformation – a backward view. Fourth Griffith Memorial Lecture. J Gen Microbiol 1972; 73: 1–11.

Dubos R.J. The decomposition of yeast nucleic acid by a heat-resistant enzyme. Science 1937; 85:549–550.

Dubos R.J. Oswald Theodore Avery. Biogr Mem Fellows R Soc 1956; 2:35–48.

Dubos R. The Professor, the Institute, and DNA. New York: Rockefeller Univ Press, 1976.

Dubos R.J. Fess Avery: the man and the scientist. In: Institute to University: a Seventy-fifth Anniversary Colloquium. New York: Rockefeller Univ Press, 1977, pp. 47–60.

Dunitz J.D. Linus Carl Pauling, 1901–1994. A Biographical Memoir. Washington DC: Natl Acad Sci 1997, 219–61.

Edlbacher S. Albrecht Kossel zum Gedächtnis. Zeitschr Physiol Chem 1928; 177:1–3.

Eichling C.W. I talked with Mendel. J Heredity 1942; 33:243–6.

Eisenberg D. The discovery of the alpha-helix and the beta-sheet, the principal structural features of proteins. Proc Natl Acad Sci 2003; 100:11207–10.

Ewald P.P. (ed). Fifty Years of X-ray Crystallography. Utrecht: IUCR, 1962. Перепечатано в формате PDF для Конгресса IUCr XVIII, Глазго, 1999 г. Доступно на сайте https://www.iucr.org/publ/50yearsofxraydiffraction.

Finch J. A Nobel Fellow on Every Floor. A History of the Medical Research Council Laboratory of Molecular Biology. Cambridge: MRC Mol Biol Lab, 2008.

Flemming W. Zellsubstanz, Kern und Zeitheilung. Leipzig: F.C.W. Vogel, 1882.

Flemming W. Neue Beiträge zur Kenntnis der Zelle. Archiv für Mikroscopische Anatomie 1887; 29:389–463.

Franklin R.E., Caspar D.L.D., Klug A. The structure of viruses as determined by X-ray diffraction. In Holton C.S. (ed), Plant Pathology. Problems and Progress. Madison: University of Wisconsin Press, 1959.

Franklin R.E., Gosling R.G. Molecular configuration in sodium thymonucleate. Nature 1953a; 171:740–741.

Franklin R.E., Gosling R.G. Evidence for two-chain helix in crystalline structure of sodium deoxyribonucleate. Nature 1953b; 172:156–157.

Franklin R.E., Gosling R.G. The structure of sodium thymonucleate fibres. I. The influence of water content. Acta Crystallographica 1953c; 6:673–7.

Franklin R.E., Gosling R.G. The structure of sodium thymonucleate fibres. II. The cylindrically symmetrical Patterson function. Acta Crystallographica 1953d;