Life's Greatest Secret (53 page)

Read Life's Greatest Secret Online

Authors: Matthew Cobb

BOOK: Life's Greatest Secret
13.22Mb size Format: txt, pdf, ePub
Science,
vol. 122, 1955, pp. 907–10.
Gulland, J. M., ‘Some aspects of the chemistry of nucleotides’,
Journal of the Chemistry Society,
vol. 1944, 1944, pp. 208–17.
Gulland, J. M., ‘The structures of nucleic acids’,
Symposia of the Society for Experimental Biology,
vol. 1, 1947a, pp. 1–14.
Gulland, J. M., ‘The structures of nucleic acids’,
Cold Spring Harbor Symposia in Quantitative Biology,
vol. 12, 1947b, pp. 95–103.
Guo, H., Zhu, P., Yan, L.
et al.,
‘The DNA methylation landscape of human early embryos’,
Nature,
vol. 511, 2014, pp. 606–10.
Haddow, A., ‘Transformation of cells and viruses’,
Nature,
vol. 154, 1944, pp. 194–9.
Hager, T.,
Force of Nature: The Life of Linus Pauling,
New York, Simon & Schuster, 1995.
Haldane, J. B. S., ‘A physicist looks at biology’,
Nature,
vol. 155, 1945, pp. 375–6.
Hall, K., ‘William Astbury and the biological significance of nucleic acids, 1938–1951’,
Studies in the History and Philosophy of Biological and Biomedical Sciences,
vol. 42, 2011, pp. 119–28.
Hall, K.,
The Man in the Monkeynut Coat: William Astbury and the Forgotten Road to the Double Helix,
Oxford, Oxford University Press, 2014.
Halloran, S. M., ‘The birth of molecular biology: An essay in the rhetorical criticism of scientific discourse’, in R. A. Harris (ed.),
Landmark Essays on Rhetoric of Science: Case Studies,
Mahwah, NJ, Hermagoras Press, 1997, pp. 39–53.
Hammer, M. F., Woerner, A. E., Mendez, F. L.
et al.,
‘Genetic evidence for archaic admixture in Africa’,
Proceedings of the National Academy of Sciences USA,
vol. 108, 2011, pp. 15123–8.
Hanawalt, P. C., ‘Density matters: The semiconservative replication of DNA’,
Proceedings of the National Academy of Sciences USA,
vol. 101, 2004, pp. 17889–94.
Hao, B., Gong, W., Ferguson, T. K.
et al.,
‘A new UAG-encoded residue in the structure of a methanogen methyltransferase’,
Science,
vol. 296, 2002, pp. 1462–6.
Hargittai, I.,
Candid Science II: Conversations with Famous Biomedical Sciences,
London, Imperial College Press, 2002.
Hartl, D. L. and Orel, V., ‘What did Gregor Mendel think he discovered?’,
Genetics,
vol. 131, 1992, pp. 245–53.
Hartl, F. U., Bracher, A. and Hayer-Hartl, M., ‘Molecular chaperones in protein folding and proteostasis’,
Nature,
vol. 475, 2011, pp. 324–32.
Hatfield, D. L. and Gladyshev, V. N., ‘How selenium has altered our understanding of the genetic code’,
Molecular and Cell Biology,
vol. 22, 2002, pp. 3565–76.
Hayden, E. C., ‘Is the $1,000 genome for real?’,
http://www.nature.com/news/is-the-1–000-genome-for-real-1.14530
, 2014.
Heard, E. and Martienssen, R. A., ‘Transgenerational epigenetic inheritance: myths and mechanisms’,
Cell,
vol. 157, 2014, pp. 95–109.
Heaton, N., ‘Interview with Norma Heaton, November 18, 2010 by Jason Gart’,
http://profiles.nlm.nih.gov/ps/access/JJBCCX.pdf
, 2010.
Hegreness, M. and Meselson, M., ‘What did Sutton see?: Thirty years of confusion over the chromosomal basis of Mendelism’,
Genetics,
vol. 176, 2007, pp. 1939–44.
Heidelberger, M., Kneeland, Jr, Y. and Price, K. M., ‘Alphonse Raymond Dochez, 1882–1964’,
Biographical Memoir,
Washington DC, National Academy of Sciences, 1971.
Heijmans, B. T., Tobi, E. W., Stein, A. D.
et al.,
‘Persistent epigenetic differences associated with prenatal exposure to famine in humans’,
Proceedings of the National Academy of Sciences USA,
vol. 105, 2008, pp. 17046–9.
Heims, S. J.,
John von Neumann & Norbert Weiner: From Mathematics to the Technologies of Life and Death,
London, MIT Press, 1980.
Heims, S. J.,
The Cybernetics Group,
London, MIT Press, 1991.
Henikoff, S., Keene, M. A., Fechtel, K. and Fristrom, J. W., ‘Gene within a gene: nested
Drosophila
genes encode unrelated proteins on opposite DNA strands’,
Cell,
vol. 44, 1986, pp. 33–42.
Hershey, A. D., ‘Functional differentiation within particles of bacteriophage T2’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 18, 1953, pp. 135–40.
Hershey, A. D., ‘The injection of DNA into cells by phage’, in J. Cairns, G. S. Stent and J. D. Watson (eds),
Phage and the Origins of Molecular Biology,
Cold Spring Harbor, Cold Spring Harbor Laboratory of Quantitative Biology, 1966, pp. 100–8.
Hershey, A. D., ‘Transcript’, in F. W. Stahl (ed.),
We Can Sleep Later: Alfred D. Hershey and the Origins of Molecular Biology,
Cold Spring Harbor, Cold Spring Harbor Laboratory Press, 2000, pp. 105–6.
Hershey, A. D. and Chase, M., ‘Independent functions of viral protein and nucleic acid in growth of bacteriophage’,
Journal of General Physiology,
vol. 36, 1952, pp. 39–56.
Higham, T., Douka, K., Wood, R.
et al.,
‘The timing and spatiotemporal patterning of Neanderthal disappearance’,
Nature,
vol. 512, 2014, pp. 306–9.
Hoagland, M. B., Zamecnik, P. C. and Stephenson, M. L., ‘Intermediate reactions in protein biosynthesis’,
Biochimica Biophysica Acta,
vol. 24, 1957, pp. 215–16.
Hoagland, M. B., Stephenson, M. L., Scott, J. F.
et al.,
‘A soluble ribonucleic acid intermediate in protein synthesis’,
Journal of Biological Chemistry,
vol. 231, 1958, pp. 241–57.
Hodges, A.,
Alan Turing: The Enigma,
London, Vintage, 2012.
Hödl, M. and Basler, K., ‘Transcription in the absence of histone H3.2 and H3K4 methylation’,
Current Biology,
vol. 22, 2012, pp. 2253–7.
Holley, R. W., Apgar, J., Everett, G. A.
et al.,
‘Structure of a ribonucleic acid’,
Science,
vol. 147, 1965, pp. 1462–5.
Holliday, R., ‘Physics and the origins of molecular biology’,
Journal of Genetics,
vol. 85, 2006, pp. 93–7.
Holmes, F. L.,
Meselson, Stahl, and the Replication of DNA: A History of ‘The Most Beautiful Experiment in Biology’,
London, Yale University Press, 2001.
Holmes, F. L.,
Reconceiving the Gene: Seymour Benzer’s Adventures in Phage Genetics,
ed. W. C. Summers, London, Yale University Press, 2006.
Holzmüller, W.,
Information in Biological Systems: The Role of Macromolecules,
Cambridge, Cambridge University Press, 1984.
Hong, X., Scofield, D. G. and Lynch, M., ‘Intron size, abundance, and distribution within untranslated regions of genes’,
Molecular Biology and Evolution,
vol. 23, 2006, pp. 2392–404.
Horowitz, N. H., Berg, P., Singer, M.
et al.,
‘A centennial: George W. Beadle, 1903–1989’,
Genetics,
vol. 166, 2004, pp. 1–10.
Hotchkiss, R. D., ‘Etudes chimiques sur le facteur transformant du pneumocoque’,
Colloques Internationaux du Centre National de la Recherche Scientifique,
vol. 8, 1949, pp. 57–65.
Hotchkiss, R. D., ‘Oswald T. Avery’,
Genetics,
vol. 51, 1965, pp. 1–10.
Hotchkiss, R. D., ‘The identification of nucleic acids as genetic determinants’,
Annals of the New York Academy of Sciences,
vol. 325, 1979, pp. 321–42.
Hotchkiss, R. D., ‘DNA in the decade before the double helix’,
Annals of the New York Academy of Sciences,
vol. 758, 1995, pp. 55–73.
Hotchkiss, R. D., ‘Growing up into our long genes’, in F. W. Stahl (ed.),
We Can Sleep Later: Alfred D. Hershey and the Origins of Molecular Biology,
Cold Spring Harbor, Cold Spring Harbor Laboratory Press, 2000, pp. 33–43.
Hsu, P. D., Lander, E. S. and Zhang, F., ‘Development and applications of CRISPR-Cas9 for genome engineering’,
Cell,
vol. 157, 2014, pp. 1262–78.
Huerta-Sánchez, E., Jin, X., Asan
et al.,
‘Altitude adaptation in Tibetans caused by introgression of Denisovan-like DNA’,
Nature,
vol. 512, 2014, pp. 194–7.
Hunter, G. K.,
Vital Forces: The Discovery of the Molecular Basis of Life,
London, Academic Press, 2000.
Hunter, N., ‘Prion diseases and the central dogma of molecular biology’,
Trends in Microbiology,
vol. 7, 1999, pp. 265–6.
Inglis, J., Sambrook, J. and Witkowski, J. (eds),
Inspiring Science: Jim Watson and the Age of DNA,
Plainview, Cold Spring Harbor Laboratory Press, 2003.
Ingram, V. M., ‘A specific chemical difference between the globins of normal human and sickle-cell anaemia haemoglobin’,
Nature,
vol. 178, 1956, pp. 792–4.
Ingram, V. M., ‘Gene mutations in human haemoglobin: the chemical difference between normal and sickle cell haemoglobin’,
Nature,
vol. 180, 1957, pp. 326–8.
Ingram, V. M., ‘Sickle-cell anemia hemoglobin: The molecular biology of the first ‘molecular disease’ – The crucial importance of serendipity’,
Genetics,
vol. 167, 2004, pp. 1–7.
Itzkovitz, S., Hodis, E. and Segal, E., ‘Overlapping codes within protein-coding sequences’,
Genome Research,
vol. 20, 2010, pp. 1582–9.
Ivanova, N. N., Schwientek, P., Tripp, H. J.
et al.,
‘Stop codon reassignments in the wild’,
Science,
vol. 344, 2014, pp. 909–13.
Jablonka, E., ‘Information: its interpretation, its inheritance and its sharing’,
Philosophy of Science,
vol. 69, 2002, pp. 578–605.
Jablonka, E. and Lamb, M. J., ‘The evolution of information in the major transitions’,
Journal of Theoretical Biology,
vol. 239, 2006, pp. 236–46.
Jackson, D. A., Symons, R. H. and Berg, P., ‘Biochemical method for inserting new genetic information into DNA of Simian Virus 40: circular SV40 DNA molecules containing lambda phage genes and the galactose operon of
Escherichia coli
’,
Proceedings of the National Academy of Sciences USA,
vol. 69, 1972, pp. 2904–9.
Jacob, F., ‘Genetics of the bacterial cell – Nobel Lecture, December 11, 1965’, in
Nobel Lectures, Physiology or Medicine 1963–1970,
Amsterdam, Elsevier Publishing Company, 1972, pp. 148–71.
Jacob, F., ‘Evolution and tinkering’,
Science,
vol. 196, 1977, pp. 1161–6.
Jacob, F., ‘The switch’, in A. Lwoff and A. Ullmann (eds),
Origins of Molecular Biology: A Tribute to Jacques Monod,
London, Academic Press, 1979, pp. 95–108.
Jacob, F.,
The Statue Within,
London, Unwin Hyman, 1988.
Jacob, F., ‘The birth of the operon’,
Science,
vol. 332, 2011, p. 767.
Jacob, F. and Monod, J., ‘Genetic regulatory mechanisms in the synthesis of proteins’,
Journal of Molecular Biology,
vol. 3, 1961a, pp. 318–56.
Jacob, F. and Monod, J., ‘On the regulation of gene activity’,
Cold Spring Harbor Symposia on Quantitative Biology,
vol. 26, 1961b, pp. 193–212.
Jacob, F., Perrin, D., Sanchez, C., and Monod, J., ‘L’opéron: groupe de gènes à expression coordonnée par un opérateur’,
Comptes rendus hebdomodaires des séances de l’Académie des sciences,
vol. 250, 1960, pp. 1727–9.
Jeong, C., Alkorta-Aranburu, G., Basnyat, B.
et al.,
‘Admixture facilitates genetic adaptations to high altitude in Tibet’,
Nature Communications,
vol. 5, 2014, p. 3281.
Jinek, M., Chylinski, K., Fonfara, I.
et al.,
‘A programmable dual-RNA-guided DNA endonuclease in adaptive bacterial immunity’,
Science,
vol. 337, 2012, pp. 816–21.
Johnson, A. P., Cleaves, H. J., Dworkin, J. P.
et al.,
‘The Miller volcanic spark discharge experiment’,
Science,
vol. 322, 2008, p. 404.
Johnson, J. A., Lu, Y. Y., Van Deventer, J. A. and Tirrell, D. A., ‘Residue-specific incorporation of non-canonical amino acids into proteins: recent developments and applications’,

Other books

Explosive Passion by Dobson, Marissa
Silhouette by Dave Swavely
Diary of a Yuppie by Louis Auchincloss
Demetrius by Marie Johnston
Love Line by Hugo, T.S.
Complete Short Stories (VMC) by Elizabeth Taylor