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Journal of Protein Chemistry
|
August 1, 1993
The effect of placement of tryptophan residues in selected A-chain positions on the biological profile of insulin
Y C Chu, G T Burke, J B Ross, et al.
Journal of Protein Chemistry
|
June 1, 1991
Insulin analogues with modifications in the beta-turn of the B-chain
S H Wang, S Q Hu, G T Burke, et al.
Biochemistry
|
March 27, 1984
Critical role of the A2 amino acid residue in the biological activity of insulin: [2-glycine-A]- and [2-alanine-A]insulins
K Kitagawa, H Ogawa, G T Burke, et al.
Biochemistry
|
September 11, 1984
Interaction between the A2 and A19 amino acid residues is of critical importance for high biological activity in insulin: [19-leucine-A]insulin
K Kitagawa, H Ogawa, G T Burke, et al.
Journal of the American Chemical Society
|
November 1, 1971
Insulin peptides. XXI. A synthesis of the B chain of sheep (bovine, porcine) insulin and its isolation as the S-sulfonated derivative
P G Katsoyannis, C Zalut, A Tometsko, et al.
Journal of the American Chemical Society
|
November 1, 1971
Insulin peptides. XXII. A synthesis of the human insulin B-chain S-sulfonate
P G Katsoyannis, J Ginos, C Zalut, et al.
Biochemistry
|
November 5, 2003
Crystal structure of allo-Ile(A2)-insulin, an inactive chiral analogue: implications for the mechanism of receptor binding
Zhu-li Wan, Bin Xu, Ying-Chi Chu, et al.
Biochemistry
|
November 3, 1987
Possible involvement of the A20-A21 peptide bond in the expression of the biological activity of insulin. 1. [21-Desasparagine,20-cysteinamide-A]insulin and [21-desasparagine,20-cysteine isopropylamide-A]insulin
Y C Chu, R Y Wang, G T Burke, et al.
Biochemistry
|
November 3, 1987
Possible involvement of the A20-A21 peptide bond in the expression of the biological activity of insulin. 3. [21-Desasparagine,20-cysteine ethylamide-A]insulin and [21-desasparagine,20-cysteine 2,2,2-trifluoroethylamide-A]insulin
Y C Chu, R Y Wang, G T Burke, et al.
Biochemistry
|
September 30, 1980
Divergence of the in vitro biological activity and receptor binding affinity of a synthetic insulin analogue, [21-asparaginamide-A]insulin
G T Burke, J D Chanley, Y Okada, et al.
Page
of 9
Search research articles
Search
Showing results (41-50 of 87) with videos related to
Sort By:
Page
of 9
Journal of Protein Chemistry
|
August 1, 1993
The effect of placement of tryptophan residues in selected A-chain positions on the biological profile of insulin
Y C Chu, G T Burke, J B Ross, et al.
Journal of Protein Chemistry
|
June 1, 1991
Insulin analogues with modifications in the beta-turn of the B-chain
S H Wang, S Q Hu, G T Burke, et al.
Biochemistry
|
March 27, 1984
Critical role of the A2 amino acid residue in the biological activity of insulin: [2-glycine-A]- and [2-alanine-A]insulins
K Kitagawa, H Ogawa, G T Burke, et al.
Biochemistry
|
September 11, 1984
Interaction between the A2 and A19 amino acid residues is of critical importance for high biological activity in insulin: [19-leucine-A]insulin
K Kitagawa, H Ogawa, G T Burke, et al.
Journal of the American Chemical Society
|
November 1, 1971
Insulin peptides. XXI. A synthesis of the B chain of sheep (bovine, porcine) insulin and its isolation as the S-sulfonated derivative
P G Katsoyannis, C Zalut, A Tometsko, et al.
Journal of the American Chemical Society
|
November 1, 1971
Insulin peptides. XXII. A synthesis of the human insulin B-chain S-sulfonate
P G Katsoyannis, J Ginos, C Zalut, et al.
Biochemistry
|
November 5, 2003
Crystal structure of allo-Ile(A2)-insulin, an inactive chiral analogue: implications for the mechanism of receptor binding
Zhu-li Wan, Bin Xu, Ying-Chi Chu, et al.
Biochemistry
|
November 3, 1987
Possible involvement of the A20-A21 peptide bond in the expression of the biological activity of insulin. 1. [21-Desasparagine,20-cysteinamide-A]insulin and [21-desasparagine,20-cysteine isopropylamide-A]insulin
Y C Chu, R Y Wang, G T Burke, et al.
Biochemistry
|
November 3, 1987
Possible involvement of the A20-A21 peptide bond in the expression of the biological activity of insulin. 3. [21-Desasparagine,20-cysteine ethylamide-A]insulin and [21-desasparagine,20-cysteine 2,2,2-trifluoroethylamide-A]insulin
Y C Chu, R Y Wang, G T Burke, et al.
Biochemistry
|
September 30, 1980
Divergence of the in vitro biological activity and receptor binding affinity of a synthetic insulin analogue, [21-asparaginamide-A]insulin
G T Burke, J D Chanley, Y Okada, et al.
Page
of 9