In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51

The envelope glycoprotein 51 (gp51) is essential for bovine leukaemia virus (BLV) entry to bovine B-lymphocytes. Although the bovine adaptor protein 3 complex subunit delta-1 (boAP3D1) has been proposed as the potential receptor, the specific ligand-receptor interaction has not yet been completely d...

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Fecha de publicación:: 2018

Institución:: Universidad del Rosario

Repositorio:: Repositorio EdocUR - U. Rosario

Idioma:: eng

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dc.title.spa.fl_str_mv	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
title	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
spellingShingle	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51 Proteína adaptadora Alanina Arginina Asparagina Ácido aspártico Proteína Boap3D1 Quimotripsina Ácido glutamico Glicoproteína 5 Histidina Lisina Serina Tripsina Triptófano Medicamento no clasificado Glicoproteína viral Secuencia amino terminal Sitio de unión Bioinformática Virus de la leucemia bovina Secuencia terminal carboxi Interacción celular Formación compleja Estudio controlado Estudio in vitro línea celular mdbk Acoplamiento molecular No humano Enlace proteico Dominio de proteínas Expresión de proteínas Interacción Proteína Proteína Producción animal (Zootecnia) Article Adaptor Protein Alanine Arginine Asparagine Aspartic Acid Boap3D1 Protein Serine Chymotrypsin Glutamic Acid Glycoprotein 5 Lysine Histidine Trypsin Tryptophan Unclassified Drug Virus Glycoprotein Amino Terminal Sequence Binding Site Bioinformatics Bovine Leukemia Virus Carboxy Terminal Sequence Cell Interaction Complex Formation Controlled Study In Vitro Study Mdbk Cell Line Molecular Docking Nonhuman Protein Binding Protein Domain Protein Expression Protein Protein Interaction Leucemia bovina Quimotripsina
title_short	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
title_full	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
title_fullStr	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
title_full_unstemmed	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
title_sort	In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51
dc.subject.spa.fl_str_mv	Proteína adaptadora Alanina Arginina Asparagina Ácido aspártico Proteína Boap3D1 Quimotripsina Ácido glutamico Glicoproteína 5 Histidina Lisina Serina Tripsina Triptófano Medicamento no clasificado Glicoproteína viral Secuencia amino terminal Sitio de unión Bioinformática Virus de la leucemia bovina Secuencia terminal carboxi Interacción celular Formación compleja Estudio controlado Estudio in vitro línea celular mdbk Acoplamiento molecular No humano Enlace proteico Dominio de proteínas Expresión de proteínas Interacción Proteína Proteína
topic	Proteína adaptadora Alanina Arginina Asparagina Ácido aspártico Proteína Boap3D1 Quimotripsina Ácido glutamico Glicoproteína 5 Histidina Lisina Serina Tripsina Triptófano Medicamento no clasificado Glicoproteína viral Secuencia amino terminal Sitio de unión Bioinformática Virus de la leucemia bovina Secuencia terminal carboxi Interacción celular Formación compleja Estudio controlado Estudio in vitro línea celular mdbk Acoplamiento molecular No humano Enlace proteico Dominio de proteínas Expresión de proteínas Interacción Proteína Proteína Producción animal (Zootecnia) Article Adaptor Protein Alanine Arginine Asparagine Aspartic Acid Boap3D1 Protein Serine Chymotrypsin Glutamic Acid Glycoprotein 5 Lysine Histidine Trypsin Tryptophan Unclassified Drug Virus Glycoprotein Amino Terminal Sequence Binding Site Bioinformatics Bovine Leukemia Virus Carboxy Terminal Sequence Cell Interaction Complex Formation Controlled Study In Vitro Study Mdbk Cell Line Molecular Docking Nonhuman Protein Binding Protein Domain Protein Expression Protein Protein Interaction Leucemia bovina Quimotripsina
dc.subject.ddc.spa.fl_str_mv	Producción animal (Zootecnia)
dc.subject.keyword.spa.fl_str_mv	Article
dc.subject.keyword.eng.fl_str_mv	Adaptor Protein Alanine Arginine Asparagine Aspartic Acid Boap3D1 Protein Serine Chymotrypsin Glutamic Acid Glycoprotein 5 Lysine Histidine Trypsin Tryptophan Unclassified Drug Virus Glycoprotein Amino Terminal Sequence Binding Site Bioinformatics Bovine Leukemia Virus Carboxy Terminal Sequence Cell Interaction Complex Formation Controlled Study In Vitro Study Mdbk Cell Line Molecular Docking Nonhuman Protein Binding Protein Domain Protein Expression Protein Protein Interaction
dc.subject.lemb.spa.fl_str_mv	Leucemia bovina Quimotripsina
description	The envelope glycoprotein 51 (gp51) is essential for bovine leukaemia virus (BLV) entry to bovine B-lymphocytes. Although the bovine adaptor protein 3 complex subunit delta-1 (boAP3D1) has been proposed as the potential receptor, the specific ligand-receptor interaction has not yet been completely defined and boAP3D1 receptor and gp51 3D structures have not been determined. This study was thus aimed at a functional annotation of boAP3D1 cellular adaptor protein and BLV gp51 and, proposing a reliable model for gp51-AP3D1 interaction using bioinformatics tools. The boAP3D1 receptor interaction patterns were calculated based on models of boAP3D1 receptor and gp51 complexes’ 3D structures, which were constructed using homology techniques and data-driven docking strategy. The results showed that the participation of 6 key amino acids (aa) on gp51 (Asn170, Trp127, His115, Ala97, Ser98 and Glu128) and 4 aa on AP3D1 (Lys925, Asp807, Asp695 and Arg800) was highly probable in the interaction between gp51 and BLVR domains. Three gp51 recombinant peptides were expressed and purified to validate these results: the complete domain (rgp51), the N-terminal portion (rNgp51) and the C-terminal fragment (rCgp51); and binding assays to Madin-Darby bovine kidney (MDBK) cells were then carried out with each recombinant. It was found that rNgp51 preferentially bound to MDBK cells, suggesting this domain’s functional role during invasion. The rNgp51-MDBK cell interaction was sensitive to trypsin (98% reduction) and chymotrypsin treatment (80% reduction). These results highlighted that the N-terminal portion of gp51 interacted in vitro with the AP3D1 receptor and provides a plausible in silico interaction model. © 2018 Corredor et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
publishDate	2018
dc.date.created.none.fl_str_mv	2018
dc.date.issued.none.fl_str_mv	2018-06-21
dc.date.accessioned.none.fl_str_mv	2019-09-23T16:15:06Z
dc.date.available.none.fl_str_mv	2019-09-23T16:15:06Z
dc.type.eng.fl_str_mv	article
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dc.type.spa.spa.fl_str_mv	Artículo
dc.identifier.doi.none.fl_str_mv	https://doi.org/10.1371/journal.pone.0199397
dc.identifier.issn.none.fl_str_mv	1932-6203
dc.identifier.uri.none.fl_str_mv	https://repository.urosario.edu.co/handle/10336/20317
url	https://doi.org/10.1371/journal.pone.0199397 https://repository.urosario.edu.co/handle/10336/20317
identifier_str_mv	1932-6203
dc.language.iso.spa.fl_str_mv	eng
language	eng
dc.relation.citationTitle.none.fl_str_mv	PLoS ONE
dc.relation.citationVolume.none.fl_str_mv	Vol. 13
dc.relation.ispartof.spa.fl_str_mv	PLoS ONE, ISSN:1932-6203, Vol. 13 (2018)
dc.relation.uri.spa.fl_str_mv	https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0199397&type=printable
dc.rights.coar.fl_str_mv	http://purl.org/coar/access_right/c_abf2
dc.rights.acceso.spa.fl_str_mv	Abierto (Texto Completo)
rights_invalid_str_mv	Abierto (Texto Completo) http://purl.org/coar/access_right/c_abf2
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institution	Universidad del Rosario
dc.source.bibliographicCitation.spa.fl_str_mv	(2017) International Committee on Taxonomy of Viruses, , ICTV
dc.source.instname.none.fl_str_mv	instname:Universidad del Rosario
dc.source.reponame.none.fl_str_mv	reponame:Repositorio Institucional EdocUR
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spelling	d1e6a439-f5e0-45e8-8e63-c15c2e00e189600f4a568f4-dc6b-4596-b388-a3af87d849c6600376ea9ab-099c-4043-9420-dcea40e7730960091225589600f0d7f28f-03fe-43d6-bbe8-d0a4b9a5ae9d60079653065600db4c807c-b5e8-4f58-bcce-8142fc2907786002019-09-23T16:15:06Z2019-09-23T16:15:06Z20182018-06-21The envelope glycoprotein 51 (gp51) is essential for bovine leukaemia virus (BLV) entry to bovine B-lymphocytes. Although the bovine adaptor protein 3 complex subunit delta-1 (boAP3D1) has been proposed as the potential receptor, the specific ligand-receptor interaction has not yet been completely defined and boAP3D1 receptor and gp51 3D structures have not been determined. This study was thus aimed at a functional annotation of boAP3D1 cellular adaptor protein and BLV gp51 and, proposing a reliable model for gp51-AP3D1 interaction using bioinformatics tools. The boAP3D1 receptor interaction patterns were calculated based on models of boAP3D1 receptor and gp51 complexes’ 3D structures, which were constructed using homology techniques and data-driven docking strategy. The results showed that the participation of 6 key amino acids (aa) on gp51 (Asn170, Trp127, His115, Ala97, Ser98 and Glu128) and 4 aa on AP3D1 (Lys925, Asp807, Asp695 and Arg800) was highly probable in the interaction between gp51 and BLVR domains. Three gp51 recombinant peptides were expressed and purified to validate these results: the complete domain (rgp51), the N-terminal portion (rNgp51) and the C-terminal fragment (rCgp51); and binding assays to Madin-Darby bovine kidney (MDBK) cells were then carried out with each recombinant. It was found that rNgp51 preferentially bound to MDBK cells, suggesting this domain’s functional role during invasion. The rNgp51-MDBK cell interaction was sensitive to trypsin (98% reduction) and chymotrypsin treatment (80% reduction). These results highlighted that the N-terminal portion of gp51 interacted in vitro with the AP3D1 receptor and provides a plausible in silico interaction model. © 2018 Corredor et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.application/pdfhttps://doi.org/10.1371/journal.pone.01993971932-6203https://repository.urosario.edu.co/handle/10336/20317engPLoS ONEVol. 13PLoS ONE, ISSN:1932-6203, Vol. 13 (2018)https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0199397&type=printableAbierto (Texto Completo)http://purl.org/coar/access_right/c_abf2(2017) International Committee on Taxonomy of Viruses, , ICTVinstname:Universidad del Rosarioreponame:Repositorio Institucional EdocURProteína adaptadoraAlaninaArgininaAsparaginaÁcido aspárticoProteína Boap3D1QuimotripsinaÁcido glutamicoGlicoproteína 5HistidinaLisinaSerinaTripsinaTriptófanoMedicamento no clasificadoGlicoproteína viralSecuencia amino terminalSitio de uniónBioinformáticaVirus de la leucemia bovinaSecuencia terminal carboxiInteracción celularFormación complejaEstudio controladoEstudio in vitrolínea celular mdbkAcoplamiento molecularNo humanoEnlace proteicoDominio de proteínasExpresión de proteínasInteracción Proteína ProteínaProducción animal (Zootecnia)636600ArticleAdaptor ProteinAlanineArginineAsparagineAspartic AcidBoap3D1 ProteinSerineChymotrypsinGlutamic AcidGlycoprotein 5LysineHistidineTrypsinTryptophanUnclassified DrugVirus GlycoproteinAmino Terminal SequenceBinding SiteBioinformaticsBovine Leukemia VirusCarboxy Terminal SequenceCell InteractionComplex FormationControlled StudyIn Vitro StudyMdbk Cell LineMolecular DockingNonhumanProtein BindingProtein DomainProtein ExpressionProtein Protein InteractionLeucemia bovinaQuimotripsinaIn silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51articleArtículohttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_6501Corredor Figueroa, Adriana PatriciaGonzalez, JannethBaquero, Luis AlfredoCurtidor, HernandoOlaya-Galan, Nury-NathaliaPatarroyo, Manuel A.Gutiérrez, María FernandaCorredor, Adriana PatriciaGonzález, JannethBaquero, Luis AlfredoCurtidor, HernandoOlaya-Galán, Nury NathaliaPatarroyo, Manuel AlfonsoGutiérrez, María FernandaORIGINAL49.pdfapplication/pdf7930895https://repository.urosario.edu.co/bitstreams/7d700966-bdcf-4db7-b99d-7d6e187b2af8/downloadcb5824c5e75d1e3445bf478d88203880MD51TEXT49.pdf.txt49.pdf.txtExtracted texttext/plain52272https://repository.urosario.edu.co/bitstreams/4511ce54-7497-42d4-808e-f4acdca4078b/download25a66da475b03755aa2392af4ab33b02MD52THUMBNAIL49.pdf.jpg49.pdf.jpgGenerated Thumbnailimage/jpeg4288https://repository.urosario.edu.co/bitstreams/1325c193-e824-4ba8-abd4-3187d22a5d2d/downloadd0d8d526e7b64ccebd355fe5f417caeaMD5310336/20317oai:repository.urosario.edu.co:10336/203172022-08-25 15:55:35.975https://repository.urosario.edu.coRepositorio institucional EdocURedocur@urosario.edu.co

In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51

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