Figure 42
Fig. 50
Fig.51
Plate 10. Ad Reinhardt, “How to Look at Modern Ar…
Plate 11. A detail from Brad Paley's conceptual m…
Place 4. Haeckel's art
Fig. i
Notticelli: Adoration of Magi
The Print Shop
The Rape of Europa (Artist : Titian)
Figure 3
Figure 8
Mantis
Emma Adriadne
Harbour at Brest
Fall morning
Morning colours
The Fight Between Carnival and Lent
Calvinist Church, Nuremburg
Changing colours
Welcome shoppers
Plate 9
Plate 1
Hanuman Temple
Fig. 16
Napoleon on Northumberland
A London Slum, from Gustave Dore & William Blanch…
Johann Heinrich Wilhelm Tischbein Goethe
Liberty Leading the People. 1830
The Last Kiss of Romeo & Juliet. 1833
Chalk Cliffs at Rugen. 1818
A Young Girl Reading. 1776
The View of the Sermitsialik Glacier
ARTIC SHIPRECK. 1823
Wanderer Above the Sea of Fog. 1818
Young Ladies on the Banks of the Seine. 1857
Dante Gabriel Rossetti, Laly Lilith, 1867
The Blond Bather 1882
Photo montage for an Olivetti Calendar 1934
The Train passing. 1879
Sacco (Sack)
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Plate 12
Jane Richardson's pastel of a folded protein, the most famous example of how art had aided science (1981)
en.wikipedia.org/wiki/Ribbon_diagram
en.wikipedia.org/wiki/Ribbon_diagram
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Jane Richardson and her husband David have worked together for over 50 years on research to understand the 3D structure of protein and RNA molecules. They were early pioneers in protein crystallography, protein de novo design, and molecular graphics. They developed a method that calculates hydrogen-atom contacts to quantify the details of modeled packing interactions, widely used on their MolProbity website and elsewhere to improve the accuracy of macromolecular structures by crystallography and cryoEM. Richardson developed the ribbon representation of protein structures, described many common features of overall protein folds and local motifs (Greek key beta barrels, helix caps, etc.), and works to spread molecular 3D literacy at Duke and around the world. From a Swarthmore B.A. in philosophy she has become a biophysicist, a MacArthur Fellow, a member of the National Academies of Sciences & of Medicine, Hollaender Award in Biophysics, and has three honorary degrees. For details, see Ann. Rev. Biophysics 4:1-28.
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