Biomedical Engineering Reference
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[91] M. Mutter and S. Vuilleumier, A chemical approach to protein design - Template-
assembled synthetic proteins (TASP),
Angew. Chem. Int. Ed. Engl
., 28, 535-554
(1989).
[92] J. Brask and K. J. Jensen, Carbopeptides: Chemoselective ligation of peptide alde-
hydes to an aminooxy-functionalized
D
-galactose template, J. Pept. Sci., 6, 290-299
(2000).
[93] K. Rose, Facile synthesis of homogenous artificial proteins,
J. Am. Chem. Soc
., 116,
30-33 (1994).
[94] R. Høiberg-Nielsen, A. P. Tofteng, K.K. Sørensen, P. W. Thulstrup, K. J. Jensen and
L. Arleth, 3- vs. 4-helix formation in a de novo designed protein in solution revealed
by
small-angle
X-ray
scattering:
Role
of
peptide
sequence
and
template,
ChemBioChem
, 9, 2663-2672 (2008).
[95] J. Brask and K. J. Jensen, Carboproteins: A 4-a-helix bundle protein model assembled
on a
D
-galactopyranoside template,
Bioorg. Med. Chem. Lett
., 11, 697-700 (2001).
[96] J. Brask, J. M. Dideriksen, J. Nielsen and K. J. Jensen, Monosaccharide templates for
de novo designed 4-a-helix bundle proteins: Template effects in carboproteins,
Org.
Biomol. Chem
., 1, 2247-2252 (2003).
[97] J. Brask, H. Wackerbarth, K. J. Jensen, J. Zhang, I. Chorkendorff and J. Ulstrup,
Monolayer assemblies of a de novo designed 4-a-helix bundle carboprotein and its
sulfur anchor fragment on Au(111)-surfaces addressed by voltammetry and in situ
scanning tunneling microscopy,
J. Am. Chem. Soc
., 125, 94-104 (2003).
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