Francis Crick
Mostrando 1-7 de 7 artigos, teses e dissertações.
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1. O centenário de nascimento de Francis H.C. Crick – da física para a genética e a neurociência
RESUMO O ano de 2016 é o centenário de nascimento de Francis Crick (1916–2004), físico, biólogo e neurocientista, cujas contribuições para a genética e a neurociência foram magníficas. Crick, em um estudo colaborativo com Watson, descobriu a estrutura molecular do DNA (dupla hélice) em 1953, e em 1962 ambos receberam o prêmio Nobel de Fisiologia
Arq. Neuro-Psiquiatr.. Publicado em: 2016-04
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2. As controvérsias a respeito da participação de Rosalind Franklin na construção do modelo da dupla hélice
Em The double helix, James Watson narra sua versão da construção do modelo da dupla hélice do DNA, na qual indica que Rosalind Franklin, física especialista em cristalografia de raios X, desenvolveu trabalhos empíricos fundamentais para a construção do modelo de Watson e Crick. O relato de Watson dá origem a um problema historiográfico: por que Fra
Scientiae Studia. Publicado em: 2010-03
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3. Francis Crick's Legacy for Neuroscience: Between the α and the Ω
The legacy of Francis Crick is explored by two scientists who were influenced by his work
Public Library of Science.
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4. For the Record: The Francis Crick Archive at the Wellcome Library
Medical History.
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5. Fame is a bubble, but not for some
Brilliant, acerbic, not given to suffer much of anybody gladly, let alone fools, Francis Crick had enormous influence that was due to his style and high scientific standards.
BioMed Central.
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6. Repacking protein cores with backbone freedom: structure prediction for coiled coils.
Progress in homology modeling and protein design has generated considerable interest in methods for predicting side-chain packing in the hydrophobic cores of proteins. Present techniques are not practically useful, however, because they are unable to model protein main-chain flexibility. Parameterization of backbone motions may represent a general and effici
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7. Programming peptidomimetic syntheses by translating genetic codes designed de novo
Although the universal genetic code exhibits only minor variations in nature, Francis Crick proposed in 1955 that “the adaptor hypothesis allows one to construct, in theory, codes of bewildering variety.” The existing code has been expanded to enable incorporation of a variety of unnatural amino acids at one or two nonadjacent sites within a protein
National Academy of Sciences.