0000000000103300

AUTHOR

A. Michael Lindberg

showing 4 related works from this author

Early entry events in Echovirus 30 infection

2020

Echovirus 30 (E30), a member of the enterovirus B species, is a major cause of viral meningitis, targeting children and adults alike. While it is a frequently isolated enterovirus and the cause of several outbreaks all over the world, surprisingly little is known regarding its entry and replication strategy within cells. In this study, we used E30 strain Bastianni (E30B) generated from an infectious cDNA clone in order to study early entry events during infection in human RD cells. E30B required the newly discovered Fc echovirus receptor (FcRn) for successful infection, but not the coxsackievirus and adenovirus receptor (CAR) or decay-accelerating factor (DAF), although an interaction with …

EchovirusvirusesReceptors FcVirus Replicationmedicine.disease_causeDisease OutbreaksPhylogenyEnterovirus0303 health sciencesbiologyenterovirusechovirusEnterovirus B HumanVirus-Cell InteractionsenteroviruksetCapsidaivokalvotulehdusRNA ViralECHO-viruksetEndosomeImmunologyEchovirus InfectionsCHO CellsCoxsackievirusMicrobiologyClathrininfektiotVirusCell Line03 medical and health sciencesCricetulusVirologyEnterovirus InfectionsViral meningitismedicineAnimalsHumans030304 developmental biologyearly entry030306 microbiologySequence Analysis DNAVirus Internalizationmedicine.diseasebiology.organism_classificationVirologyaseptic meningitisA549 CellsInsect Sciencebiology.proteinEnterovirus
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Quasispecies dynamics and molecular evolution of human norovirus capsid P region during chronic infection.

2009

In this novel study, we have for the first time identified evolutionarily conserved capsid residues in an individual chronically infected with norovirus (GGII.3). From 2000 to 2003, a total of 147 P1-1 and P2 capsid sequences were sequenced and investigated for evolutionarily conserved and functionally important residues by the evolutionary trace (ET) algorithm. The ET algorithm revealed more absolutely conserved residues (ACR) in the P1-1 domain (47/53, 88 %) as compared with the P2 domain (86/133, 64 %). The capsid P1-1 and P2 domains evolved in time-dependent manner, with a distinct break point observed between autumn/winter of year 2000 (isolates P1, P3 and P5) and spring to autumn of y…

Trisaccharide bindingMolecular Sequence DataViral quasispeciesBiologymedicine.disease_causeEvolution MolecularFecesMolecular evolutionVirologymedicineHumansAmino Acid SequenceCloning MolecularReceptorConserved SequencePhylogenyCaliciviridae InfectionsDNA PrimersImmunosuppression TherapyBinding SitesStrain (chemistry)Reverse Transcriptase Polymerase Chain ReactionNorovirusVirologyChronic infectionCapsidNorovirusBlood Group AntigensRNA ViralCapsid ProteinsSeasonsAlgorithmsThe Journal of general virology
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Slow Infection due to Lowering the Amount of Intact versus Empty Particles Is a Characteristic Feature of Coxsackievirus B5 Dictated by the Structura…

2019

Enterovirus B species typically cause a rapid cytolytic infection leading to efficient release of progeny viruses. However, they are also capable of persistent infections in tissues, which are suggested to contribute to severe chronic states such as myocardial inflammation and type 1 diabetes. In order to understand the factors contributing to differential infection strategies, we constructed a chimera by combining the capsid proteins from fast-cytolysis-causing echovirus 1 (EV1) with nonstructural proteins from coxsackievirus B5 (CVB5), which shows persistent infection in RD cells. The results showed that the chimera behaved similarly to parental EV1, leading to efficient cytolysis in both…

EchovirusBiolääketieteet - BiomedicinevirusesImmunologyViral Nonstructural ProteinsCoxsackievirusVirus Replicationmedicine.disease_causeMicrobiologyVirusChimera (genetics)CapsidCell Line TumorVirologyEnterovirus InfectionsmedicineHumansviral structural proteinsvirus-host interactionsViral Structural Proteinsbiologyenterovirusviral nonstructural proteinsbiology.organism_classificationVirologyVirus-Cell InteractionsEnterovirus B HumanCytolysisCapsidLytic cycleKasvibiologia mikrobiologia virologia - Plant biology microbiology virologyInsect ScienceHost-Pathogen InteractionsEnterovirusinfection kinetics
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Slow infection due to lowering amount of intact versus empty particles is a characteristic feature of Coxsackievirus B5, dictated by the structural p…

2019

Enterovirus B species typically cause a rapid cytolytic infection leading to efficient release of progeny viruses. However, they are also capable of persistent infections in tissues, which are suggested to contribute to severe chronic states such as myocardial inflammation and type 1 diabetes. In order to understand the factors contributing to differential infection strategies, we constructed a chimera by combining the capsid proteins from a fast cytolysis causing echovirus 1 (EV1) with non-structural proteins from Coxsackievirus B5 (CVB5) showing persistent infection in RD cells. The results showed that the chimera behaved similar to the parental EV1 leading to efficient cytolysis in both …

enteroviruksetproteiinitinfektiotkapsidi
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