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Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin

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Zeitschriftentitel: Biological Chemistry
Personen und Körperschaften: Guo, Zhan-Yun, Jia, Xiao-Yuan, Feng, You-Min
In: Biological Chemistry, 385, 2004, 12, S. 1171-1175
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Clinical Biochemistry
Molecular Biology
Biochemistry
author_facet Guo, Zhan-Yun
Jia, Xiao-Yuan
Feng, You-Min
Guo, Zhan-Yun
Jia, Xiao-Yuan
Feng, You-Min
author Guo, Zhan-Yun
Jia, Xiao-Yuan
Feng, You-Min
spellingShingle Guo, Zhan-Yun
Jia, Xiao-Yuan
Feng, You-Min
Biological Chemistry
Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
Clinical Biochemistry
Molecular Biology
Biochemistry
author_sort guo, zhan-yun
spelling Guo, Zhan-Yun Jia, Xiao-Yuan Feng, You-Min 1431-6730 1437-4315 Walter de Gruyter GmbH Clinical Biochemistry Molecular Biology Biochemistry http://dx.doi.org/10.1515/bc.2004.151 <jats:title>Abstract</jats:title><jats:p>Insulin contains three disulfide bonds, one intrachain bond, A6–A11, and two interchain bonds, A7–B7 and A20–B19. Site-directed mutagenesis results (the two cysteine residues of disulfide A7–B7 were replaced by serine) showed that disulfide A7–B7 is crucial to both the structure and activity of insulin. However, chemical modification results showed that the insulin analogs still retained relatively high biological activity when A7Cys and B7Cys were modified by chemical groups with a negative charge. Did the negative charge of the modification groups restore the loss of activity and/or the disturbance of structure of these insulin analogs caused by deletion of disulfide A7–B7? To answer this question, an insulin analog with both A7Cys and B7Cys replaced by Glu, which has a long side-chain and a negative charge, was prepared by protein engineering, and its structure and activity were analyzed. Both the structure and activity of the present analog are very similar to that of the mutant with disulfide A7–B7 replaced by Ser, but significantly different from that of wild-type insulin. The present results suggest that removal of disulfide A7–B7 will result in serious loss of biological activity and the native conformation of insulin, even if the disulfide is replaced by residues with a negative charge.</jats:p> Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin Biological Chemistry
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title Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_unstemmed Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_full Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_fullStr Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_full_unstemmed Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_short Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_sort replacement of the interchain disulfide bridge-forming amino acids a7 and b7 by glutamate impairs the structure and activity of insulin
topic Clinical Biochemistry
Molecular Biology
Biochemistry
url http://dx.doi.org/10.1515/bc.2004.151
publishDate 2004
physical 1171-1175
description <jats:title>Abstract</jats:title><jats:p>Insulin contains three disulfide bonds, one intrachain bond, A6–A11, and two interchain bonds, A7–B7 and A20–B19. Site-directed mutagenesis results (the two cysteine residues of disulfide A7–B7 were replaced by serine) showed that disulfide A7–B7 is crucial to both the structure and activity of insulin. However, chemical modification results showed that the insulin analogs still retained relatively high biological activity when A7Cys and B7Cys were modified by chemical groups with a negative charge. Did the negative charge of the modification groups restore the loss of activity and/or the disturbance of structure of these insulin analogs caused by deletion of disulfide A7–B7? To answer this question, an insulin analog with both A7Cys and B7Cys replaced by Glu, which has a long side-chain and a negative charge, was prepared by protein engineering, and its structure and activity were analyzed. Both the structure and activity of the present analog are very similar to that of the mutant with disulfide A7–B7 replaced by Ser, but significantly different from that of wild-type insulin. The present results suggest that removal of disulfide A7–B7 will result in serious loss of biological activity and the native conformation of insulin, even if the disulfide is replaced by residues with a negative charge.</jats:p>
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author Guo, Zhan-Yun, Jia, Xiao-Yuan, Feng, You-Min
author_facet Guo, Zhan-Yun, Jia, Xiao-Yuan, Feng, You-Min, Guo, Zhan-Yun, Jia, Xiao-Yuan, Feng, You-Min
author_sort guo, zhan-yun
container_issue 12
container_start_page 1171
container_title Biological Chemistry
container_volume 385
description <jats:title>Abstract</jats:title><jats:p>Insulin contains three disulfide bonds, one intrachain bond, A6–A11, and two interchain bonds, A7–B7 and A20–B19. Site-directed mutagenesis results (the two cysteine residues of disulfide A7–B7 were replaced by serine) showed that disulfide A7–B7 is crucial to both the structure and activity of insulin. However, chemical modification results showed that the insulin analogs still retained relatively high biological activity when A7Cys and B7Cys were modified by chemical groups with a negative charge. Did the negative charge of the modification groups restore the loss of activity and/or the disturbance of structure of these insulin analogs caused by deletion of disulfide A7–B7? To answer this question, an insulin analog with both A7Cys and B7Cys replaced by Glu, which has a long side-chain and a negative charge, was prepared by protein engineering, and its structure and activity were analyzed. Both the structure and activity of the present analog are very similar to that of the mutant with disulfide A7–B7 replaced by Ser, but significantly different from that of wild-type insulin. The present results suggest that removal of disulfide A7–B7 will result in serious loss of biological activity and the native conformation of insulin, even if the disulfide is replaced by residues with a negative charge.</jats:p>
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spelling Guo, Zhan-Yun Jia, Xiao-Yuan Feng, You-Min 1431-6730 1437-4315 Walter de Gruyter GmbH Clinical Biochemistry Molecular Biology Biochemistry http://dx.doi.org/10.1515/bc.2004.151 <jats:title>Abstract</jats:title><jats:p>Insulin contains three disulfide bonds, one intrachain bond, A6–A11, and two interchain bonds, A7–B7 and A20–B19. Site-directed mutagenesis results (the two cysteine residues of disulfide A7–B7 were replaced by serine) showed that disulfide A7–B7 is crucial to both the structure and activity of insulin. However, chemical modification results showed that the insulin analogs still retained relatively high biological activity when A7Cys and B7Cys were modified by chemical groups with a negative charge. Did the negative charge of the modification groups restore the loss of activity and/or the disturbance of structure of these insulin analogs caused by deletion of disulfide A7–B7? To answer this question, an insulin analog with both A7Cys and B7Cys replaced by Glu, which has a long side-chain and a negative charge, was prepared by protein engineering, and its structure and activity were analyzed. Both the structure and activity of the present analog are very similar to that of the mutant with disulfide A7–B7 replaced by Ser, but significantly different from that of wild-type insulin. The present results suggest that removal of disulfide A7–B7 will result in serious loss of biological activity and the native conformation of insulin, even if the disulfide is replaced by residues with a negative charge.</jats:p> Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin Biological Chemistry
spellingShingle Guo, Zhan-Yun, Jia, Xiao-Yuan, Feng, You-Min, Biological Chemistry, Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin, Clinical Biochemistry, Molecular Biology, Biochemistry
title Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_full Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_fullStr Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_full_unstemmed Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_short Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
title_sort replacement of the interchain disulfide bridge-forming amino acids a7 and b7 by glutamate impairs the structure and activity of insulin
title_unstemmed Replacement of the interchain disulfide bridge-forming amino acids A7 and B7 by glutamate impairs the structure and activity of insulin
topic Clinical Biochemistry, Molecular Biology, Biochemistry
url http://dx.doi.org/10.1515/bc.2004.151