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N-Glycosylation as a Tool to Study Antithrombin Secretion, Conformation, and Function

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dc.contributor.author Águila, Sonia
dc.contributor.author Noto, Rosina
dc.contributor.author Luengo-Gil, Ginés
dc.contributor.author Espín, Salvador
dc.contributor.author Bohdan, Nataliya
dc.contributor.author de-la-Morena-Barrio, María-Eugenia
dc.contributor.author Peñas-Martínez, Julia
dc.contributor.author Ródenas, María-del-Carmen
dc.contributor.author Vicente, Vicente
dc.contributor.author Corral, Javier
dc.contributor.author Manno, Mauro
dc.contributor.author Martínez-Martínez, Irene
dc.date.accessioned 2025-11-24T15:11:39Z
dc.date.available 2025-11-24T15:11:39Z
dc.date.issued 2021-01
dc.identifier.citation Águila S, Noto R, Luengo-Gil G, Espín S, Bohdan N, De La Morena-Barrio ME, et al. N-Glycosylation as a Tool to Study Antithrombin Secretion, Conformation, and Function. IJMS. 6 de enero de 2021;22(2):516.
dc.identifier.issn 1661-6596
dc.identifier.uri https://sms.carm.es/ricsmur/handle/123456789/22296
dc.description.abstract N-linked glycosylation is a crucial post-translational modification involved in protein folding, function, and clearance. N-linked glycosylation is also used therapeutically to enhance the half-lives of many proteins. Antithrombin, a serpin with four potential N-glycosylation sites, plays a pivotal role in hemostasis, wherein its deficiency significantly increases thrombotic risk. In this study, we used the introduction of N-glycosylation sites as a tool to explore what effect this glycosylation has on the protein folding, secretion, and function of this key anticoagulant. To accomplish this task, we introduced an additional N-glycosylation sequence in each strand. Interestingly, all regions that likely fold rapidly or were surrounded by lysines were not glycosylated even though an N-glycosylation sequon was present. The new sequon in the strands of the A- and B-sheets reduced secretion, and the B-sheet was more sensitive to these changes. However, the mutations in the strands of the C-sheet allowed correct folding and secretion, which resulted in functional variants. Therefore, our study revealed crucial regions for antithrombin secretion and could potentially apply to all serpins. These results could also help us understand the functional effects of natural variants causing type-I deficiencies.
dc.language.iso eng
dc.publisher MDPI
dc.rights Atribución/Reconocimiento-NoComercial-SinDerivados 4.0 Internacional 
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/4.0/es/  *
dc.subject.mesh Antithrombin III/chemistry/genetics/metabolism
dc.subject.mesh Antithrombin Proteins/chemistry/genetics/metabolism
dc.subject.mesh Circular Dichroism
dc.subject.mesh Glycosylation
dc.subject.mesh Humans
dc.subject.mesh Models, Molecular
dc.subject.mesh Mutant Proteins/chemistry/genetics/metabolism
dc.subject.mesh Mutation
dc.subject.mesh Protein Conformation
dc.subject.mesh Protein Processing, Post-Translational
dc.subject.mesh Thrombosis
dc.title N-Glycosylation as a Tool to Study Antithrombin Secretion, Conformation, and Function
dc.type info:eu-repo/semantics/article
dc.identifier.pmid 33419227
dc.relation.publisherversion https://www.mdpi.com/1422-0067/22/2/516
dc.identifier.doi 10.3390/ijms22020516
dc.journal.title International Journal of Molecular Sciences
dc.identifier.essn 1422-0067


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