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Title
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A three-dimensional model of an anti-lysozyme antibody.
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Authors
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S.J.Smith-Gill,
C.Mainhart,
T.B.Lavoie,
R.J.Feldmann,
W.Drohan,
B.R.Brooks.
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Ref.
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J Mol Biol, 1987,
194,
713-724.
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PubMed id
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Abstract
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The primary amino acid structure of the lysozyme-binding antibody, HyHEL-10, as
determined by amino acid and nucleotide sequencing was utilized to construct a
scale model of the Fv (variable region domain of immunoglobulin) using
energy-minimized torsional angles of the McPC603 Fv as a prototype template.
This model was in turn used as a template for generating a computer-built set of
co-ordinates, which were subjected to a total of 600 steps of Adopted Basis
Newton-Raphson energy minimizations using the program CHARMM. Only minimal
shifts of the backbone (root-mean-square 0.76 A) were required to give an
energetically stable structure with a favorable van der Waals' energy. Several
notable features were evident from both the scale model and the energy-minimized
computer model: (1) the shape of the antibody combining region is that of a very
shallow concavity approximately 20 A X 25 A; (2) the concavity is acidic and
non-hydrophobic and is bordered by hydrophobic segments; (3) the lower portion
of the combining site is dominated by a cluster of tyrosine residues over the L3
and H2 areas; (4) a somatic mutation encoded by the J region of the heavy chain
(JH) may contribute significantly to the complementarity of heavy chain H3 to
the epitope on hen egg white lysozyme. In addition, the space-filling
energy-minimized model revealed that residue 49L, a framework residue, was
prominently exposed and accessible in the center of the combining-site
concavity. The model suggests that variation in length of
complementarity-determining regions may function not only to change directly the
shape of the antibody combining site, but may also influence indirectly the
nature of the antibody surface by changing the accessibility of residues not
usually involved in antigen binding.
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