Computational insights into the circular permutation roles on ConA binding and structural stability

The mechanisms behind Concanavalin A (ConA) circular permutation have been under investigation since 1985. Although a vast amount of information is available about this lectin and its applications, the exact purpose of its processing remains unclear. To shed light on this, this study employed comput...

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Hauptverfasser:	Da Silva Osterne, Vinicius Jose, Pinto-Junior, Vanir Reis, Oliveira, Messias Vital, Nascimento, Kyria Santiago, Van Damme, Els, Cavada, Benildo Sousa
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Sprache:	eng
Schlagworte:	Bioinformatics Biology and Life Sciences Chemistry Circular permutation CONCANAVALIN-A DIOCLEA-GRANDIFLORA LECTIN EXPRESSION GLYCAN Lectin LINKED OLIGOSACCHARIDES MOLECULAR-DYNAMICS PRECURSOR PROTEIN-LIGAND DOCKING SOFTWARE
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creator	Da Silva Osterne, Vinicius Jose Pinto-Junior, Vanir Reis Oliveira, Messias Vital Nascimento, Kyria Santiago Van Damme, Els Cavada, Benildo Sousa
description	The mechanisms behind Concanavalin A (ConA) circular permutation have been under investigation since 1985. Although a vast amount of information is available about this lectin and its applications, the exact purpose of its processing remains unclear. To shed light on this, this study employed computer simulations to compare the unprocessed ProConA with the mature ConA. This approach aimed to reveal the importance of the posttranslational modifications, especially how they affect the lectin stability and carbohydrate-binding properties. To achieve these goals, we conducted 200 ns molecular dynamics simulations and trajectory analyses on the monomeric forms of ProConA and ConA (both unbound and in complex with D-mannose and the GlcNAc2Man9 N-glycan), as well as on their oligomeric forms. Our findings reveal significant stability differences between ProConA and ConA at both the monomeric and tetrameric levels, with ProConA exhibiting consistently lower stability parameters compared to ConA. In terms of carbohydrate binding properties, however, both lectins showed remarkable similarities in their interaction profiles, contact numbers, and binding free energies with Dmannose and the high-mannose N-glycan. Overall, our results suggest that the processing of ProConA significantly enhances the stability of the mature lectin, especially in maintaining the tetrameric oligomer, without substantially affecting its carbohydrate-binding properties.
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Although a vast amount of information is available about this lectin and its applications, the exact purpose of its processing remains unclear. To shed light on this, this study employed computer simulations to compare the unprocessed ProConA with the mature ConA. This approach aimed to reveal the importance of the posttranslational modifications, especially how they affect the lectin stability and carbohydrate-binding properties. To achieve these goals, we conducted 200 ns molecular dynamics simulations and trajectory analyses on the monomeric forms of ProConA and ConA (both unbound and in complex with D-mannose and the GlcNAc2Man9 N-glycan), as well as on their oligomeric forms. Our findings reveal significant stability differences between ProConA and ConA at both the monomeric and tetrameric levels, with ProConA exhibiting consistently lower stability parameters compared to ConA. In terms of carbohydrate binding properties, however, both lectins showed remarkable similarities in their interaction profiles, contact numbers, and binding free energies with Dmannose and the high-mannose N-glycan. Overall, our results suggest that the processing of ProConA significantly enhances the stability of the mature lectin, especially in maintaining the tetrameric oligomer, without substantially affecting its carbohydrate-binding properties.</description><identifier>ISSN: 2665-928X</identifier><identifier>EISSN: 2665-928X</identifier><language>eng</language><subject>Bioinformatics ; Biology and Life Sciences ; Chemistry ; Circular permutation ; CONCANAVALIN-A ; DIOCLEA-GRANDIFLORA LECTIN ; EXPRESSION ; GLYCAN ; Lectin ; LINKED OLIGOSACCHARIDES ; MOLECULAR-DYNAMICS ; PRECURSOR ; PROTEIN-LIGAND DOCKING ; SOFTWARE</subject><creationdate>2024</creationdate><rights>Creative Commons Attribution 4.0 International Public License (CC-BY 4.0) info:eu-repo/semantics/openAccess</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,315,780,784,4024,27860</link.rule.ids></links><search><creatorcontrib>Da Silva Osterne, Vinicius Jose</creatorcontrib><creatorcontrib>Pinto-Junior, Vanir Reis</creatorcontrib><creatorcontrib>Oliveira, Messias Vital</creatorcontrib><creatorcontrib>Nascimento, Kyria Santiago</creatorcontrib><creatorcontrib>Van Damme, Els</creatorcontrib><creatorcontrib>Cavada, Benildo Sousa</creatorcontrib><title>Computational insights into the circular permutation roles on ConA binding and structural stability</title><description>The mechanisms behind Concanavalin A (ConA) circular permutation have been under investigation since 1985. 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In terms of carbohydrate binding properties, however, both lectins showed remarkable similarities in their interaction profiles, contact numbers, and binding free energies with Dmannose and the high-mannose N-glycan. Overall, our results suggest that the processing of ProConA significantly enhances the stability of the mature lectin, especially in maintaining the tetrameric oligomer, without substantially affecting its carbohydrate-binding properties.</description><subject>Bioinformatics</subject><subject>Biology and Life Sciences</subject><subject>Chemistry</subject><subject>Circular permutation</subject><subject>CONCANAVALIN-A</subject><subject>DIOCLEA-GRANDIFLORA LECTIN</subject><subject>EXPRESSION</subject><subject>GLYCAN</subject><subject>Lectin</subject><subject>LINKED OLIGOSACCHARIDES</subject><subject>MOLECULAR-DYNAMICS</subject><subject>PRECURSOR</subject><subject>PROTEIN-LIGAND DOCKING</subject><subject>SOFTWARE</subject><issn>2665-928X</issn><issn>2665-928X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>ADGLB</sourceid><recordid>eNqtjM1qAjEURoNUUFrf4b6AMH8OupRBCXZZUekm3Ilx5kpMJLkp9O07BRc-gKvvwHc4IzEt6noxXxXL09sTT8QsxmuWZUWZV8uynArd-Ns9MTJ5hxbIRep6jgOwB-4NaAo6WQxwN-H2ECF4ayIM0Hi3hpbcmVwH6M4QOSTNKQytyNiSJf79EOML2mhmj30Xm-1m38h51xvHylIbjEZWHklh0D39GJW6_6s1Ksvl1_EkDzKvpZRVvatW37v9evFZla_q_AHRJGEn</recordid><startdate>2024</startdate><enddate>2024</enddate><creator>Da Silva Osterne, Vinicius Jose</creator><creator>Pinto-Junior, Vanir Reis</creator><creator>Oliveira, Messias Vital</creator><creator>Nascimento, Kyria Santiago</creator><creator>Van Damme, Els</creator><creator>Cavada, Benildo Sousa</creator><scope>ADGLB</scope></search><sort><creationdate>2024</creationdate><title>Computational insights into the circular permutation roles on ConA binding and structural stability</title><author>Da Silva Osterne, Vinicius Jose ; Pinto-Junior, Vanir Reis ; Oliveira, Messias Vital ; Nascimento, Kyria Santiago ; Van Damme, Els ; Cavada, Benildo Sousa</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-ghent_librecat_oai_archive_ugent_be_01HSWXHVH16HHH46J49ZJTA5K43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Bioinformatics</topic><topic>Biology and Life Sciences</topic><topic>Chemistry</topic><topic>Circular permutation</topic><topic>CONCANAVALIN-A</topic><topic>DIOCLEA-GRANDIFLORA LECTIN</topic><topic>EXPRESSION</topic><topic>GLYCAN</topic><topic>Lectin</topic><topic>LINKED OLIGOSACCHARIDES</topic><topic>MOLECULAR-DYNAMICS</topic><topic>PRECURSOR</topic><topic>PROTEIN-LIGAND DOCKING</topic><topic>SOFTWARE</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Da Silva Osterne, Vinicius Jose</creatorcontrib><creatorcontrib>Pinto-Junior, Vanir Reis</creatorcontrib><creatorcontrib>Oliveira, Messias Vital</creatorcontrib><creatorcontrib>Nascimento, Kyria Santiago</creatorcontrib><creatorcontrib>Van Damme, Els</creatorcontrib><creatorcontrib>Cavada, Benildo Sousa</creatorcontrib><collection>Ghent University Academic Bibliography</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Da Silva Osterne, Vinicius Jose</au><au>Pinto-Junior, Vanir Reis</au><au>Oliveira, Messias Vital</au><au>Nascimento, Kyria Santiago</au><au>Van Damme, Els</au><au>Cavada, Benildo Sousa</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Computational insights into the circular permutation roles on ConA binding and structural stability</atitle><date>2024</date><risdate>2024</risdate><issn>2665-928X</issn><eissn>2665-928X</eissn><abstract>The mechanisms behind Concanavalin A (ConA) circular permutation have been under investigation since 1985. Although a vast amount of information is available about this lectin and its applications, the exact purpose of its processing remains unclear. To shed light on this, this study employed computer simulations to compare the unprocessed ProConA with the mature ConA. This approach aimed to reveal the importance of the posttranslational modifications, especially how they affect the lectin stability and carbohydrate-binding properties. To achieve these goals, we conducted 200 ns molecular dynamics simulations and trajectory analyses on the monomeric forms of ProConA and ConA (both unbound and in complex with D-mannose and the GlcNAc2Man9 N-glycan), as well as on their oligomeric forms. Our findings reveal significant stability differences between ProConA and ConA at both the monomeric and tetrameric levels, with ProConA exhibiting consistently lower stability parameters compared to ConA. In terms of carbohydrate binding properties, however, both lectins showed remarkable similarities in their interaction profiles, contact numbers, and binding free energies with Dmannose and the high-mannose N-glycan. Overall, our results suggest that the processing of ProConA significantly enhances the stability of the mature lectin, especially in maintaining the tetrameric oligomer, without substantially affecting its carbohydrate-binding properties.</abstract><oa>free_for_read</oa></addata></record>
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subjects	Bioinformatics Biology and Life Sciences Chemistry Circular permutation CONCANAVALIN-A DIOCLEA-GRANDIFLORA LECTIN EXPRESSION GLYCAN Lectin LINKED OLIGOSACCHARIDES MOLECULAR-DYNAMICS PRECURSOR PROTEIN-LIGAND DOCKING SOFTWARE
title	Computational insights into the circular permutation roles on ConA binding and structural stability
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