In the middle is the structure of the IMI compound surrounded by four peptides YSM21, PSM22, PSW31, and WQA34 which have been obtained from the combination of the initial ones.</p
Structures of C14-alkyl-mannopyranoside (ML-C14), KOR antagonist peptide dynantin, and muramyl dipep...
<p>Panels (A–C) relate to replicate 1 at 293 K, whilst panels (D–F) relate to replicate 1 at 303 K. ...
<p>(A) Three dimensional structure of <i>E. coli</i> pseudopilin (pdb 3G20). Bound calcium is shown ...
Interactions between IMI and a) YSM21, b) PSM22, c) PSW31 and d) WQA34 form the molecular docking re...
<p>Molecular structures of the inhibitors: (A) PMI, (B) pDI, (C) WK23 and (D) WW8.</p
<p>(A) Sequence of IAPP and Aβ42. The molecules are aligned according to reference 20. Residues whic...
<p>Only the tryptophan residue of each peptide (with 6-chloro group shown in green for M011) and ami...
<p>(A) Chemical structure of imatinib. (B) 3D structure of imatinib-c-Kit complex (PDB entry: 1T46)....
<p>Chemical structures of three dimeric RGD peptides [<sup>18</sup>F]FPPRGD2, [<sup>68</sup>Ga]Ga-NO...
<p>Structures of peptoid residues corresponding to structurally identical peptides used for C<sub>20...
<p>Chemical structures of imidazopyridine compounds, <i>i</i>.<i>e</i>., compound 1, 2, and 3, and p...
<p>(A) Structure of mAb 3074 (grey molecular surface) bound to a peptide (red ribbon and blue stick ...
<p>All possible structures are explored by permuting 17 rotatable dihedral angles of the peptide fro...
<p>(A) <i>β</i>-sheet monomer, (B) <i>β</i>-sheet tetramer. The peptide is shown in cartoon and colo...
<p>Chemical structures of compounds 1–24, Ribavirin, Ningnanmycin, Cryptopleuridine and (<i>R</i>)-A...
Structures of C14-alkyl-mannopyranoside (ML-C14), KOR antagonist peptide dynantin, and muramyl dipep...
<p>Panels (A–C) relate to replicate 1 at 293 K, whilst panels (D–F) relate to replicate 1 at 303 K. ...
<p>(A) Three dimensional structure of <i>E. coli</i> pseudopilin (pdb 3G20). Bound calcium is shown ...
Interactions between IMI and a) YSM21, b) PSM22, c) PSW31 and d) WQA34 form the molecular docking re...
<p>Molecular structures of the inhibitors: (A) PMI, (B) pDI, (C) WK23 and (D) WW8.</p
<p>(A) Sequence of IAPP and Aβ42. The molecules are aligned according to reference 20. Residues whic...
<p>Only the tryptophan residue of each peptide (with 6-chloro group shown in green for M011) and ami...
<p>(A) Chemical structure of imatinib. (B) 3D structure of imatinib-c-Kit complex (PDB entry: 1T46)....
<p>Chemical structures of three dimeric RGD peptides [<sup>18</sup>F]FPPRGD2, [<sup>68</sup>Ga]Ga-NO...
<p>Structures of peptoid residues corresponding to structurally identical peptides used for C<sub>20...
<p>Chemical structures of imidazopyridine compounds, <i>i</i>.<i>e</i>., compound 1, 2, and 3, and p...
<p>(A) Structure of mAb 3074 (grey molecular surface) bound to a peptide (red ribbon and blue stick ...
<p>All possible structures are explored by permuting 17 rotatable dihedral angles of the peptide fro...
<p>(A) <i>β</i>-sheet monomer, (B) <i>β</i>-sheet tetramer. The peptide is shown in cartoon and colo...
<p>Chemical structures of compounds 1–24, Ribavirin, Ningnanmycin, Cryptopleuridine and (<i>R</i>)-A...
Structures of C14-alkyl-mannopyranoside (ML-C14), KOR antagonist peptide dynantin, and muramyl dipep...
<p>Panels (A–C) relate to replicate 1 at 293 K, whilst panels (D–F) relate to replicate 1 at 303 K. ...
<p>(A) Three dimensional structure of <i>E. coli</i> pseudopilin (pdb 3G20). Bound calcium is shown ...
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