A Crucial Epitope in the Influenza A and B Viral Neuraminidase and its Broad Inhibition by a Universal Antibody

Doyle, Tracey

20 December 2013

The antigenic variability of the Influenza virus hinders our ability to develop new therapeutic and vaccine strategies which provide a broad protection against all influenza strains. It has been previously suggested that a means to approach this challenge is to identify conserved sequences within viral proteins and use these for future therapeutic targets. Although such conserved sequences are plentiful amongst the internal viral proteins, their lack of exposure to the host immune system makes mounting an immune response against these regions difficult. Alternatively, the surface glycoproteins hemagglutinin (HA) and neuraminidase (NA) have been shown to provide host protection against a limited number of influenza strains when used as vaccine targets; however conserved regions within these proteins which are also antibody accessible are extremely rare. My Ph.D. thesis project is focused on investigating the functional role of a conserved region within the NA protein and to further determine the protection afforded by a monoclonal antibody to this region. In a comprehensive bioinformatics analysis, the only universally conserved sequence amongst all influenza A and B viral NA has been previously identified as being located between amino acids (a.a.) 222-230 (dubbed the HCA-2 region). However, the potential role of this region remains largely unknown. Through an array of experimental approaches including mutagenesis, reverse genetics and growth kinetics, I have found that substitutions in this sequence significantly affect viral replication by impairing the catalytic activity, substrate-binding and thermostability of NA. These findings prompted me to further investigate if antibody to this region may provide protection against influenza infection. Indeed, universal monoclonal antibody (HCA-2 MAb) against this peptide provided broad inhibition against all nine subtypes of NA in vitro and heterosubtypic protection in mice challenged with lethal doses of mouse-adapted viruses. I further demonstrated that residues within this peptide that are exposed on the surface of NA and located in close proximity to the active site, I222 and E227, are indispensable for antibody-mediated inhibition. These data are the first to demonstrate a monoclonal antibody against the NA protein which provides heterosubtypic protection. Since I observed that the HCA-2 antibody provided a broad inhibition against all nine subtypes of influenza A NA, I decided to investigate whether this inhibitory effect could be extended against Influenza B. Here, I have further reported that HCA-2 MAb provides a broad inhibition against various strains of influenza B viruses of both Victoria and Yamagata genetic lineage. I also demonstrate that the growth and NA enzymatic activity of two drug resistant influenza B strains are also inhibited by the HCA-2 antibody. The findings of my Ph.D. thesis project have thus demonstrated that the HCA-2 region is paramount to optimal viral function. Additionally, my data show that antibodies generated against this region provide heterosubtypic protection both in vitro and in vivo and against drug resistant strains. These results indicate that this universally conserved epitope should be further explored as a potential target for future antiviral intervention and vaccine-induced immune responses.

Influenza

Antibody

Universal Epitope

Vaccine

Neuraminidase

Evaluating the Immunogenic Potential of Synthetic Influenza T-B & B-T Peptides

Samayoa, Liz

18 January 2012

Vaccination is one of the major strategies available for combating viral infections in humans. However, currently available vaccines are not without pitfalls; they are laborious to produce, could potentially be unsafe, and in the case of the highly variable influenza virus need to be reformulated each season. The use of synthetic peptides thus represents an exciting alternative to traditional vaccines. However, these synthetic peptides are not highly immunogenic without the use of potent adjuvants. The lack of immunogenicity might be addressed by conjugation between T or B cell epitopes with universal or immunodominant T-helper epitopes. The construction of branched peptides, lipidated peptides, or designs combining both of these elements might also enhance the immunogenicity, as they might target Toll-like receptors and/or mimic the 3-dimensional structure of epitopes within the native protein. In this study, a recognized T-B peptide based on the hemagglutinin protein of the A/Puerto Rico/8/34 influenza virus was chosen as a backbone and modified to evaluate if the construction of branched peptides, lipidation, the addition of cysteine residues, or mutations could indeed alter reactivity. Screening the different designs with various antibody binding and cellular assays revealed that combining a branched design with the addition of lipid moieties leads to a greatly enhanced activity as compared to other similar T-B diepitope constructs.

Influenza

Peptide

Epitope

Vaccine

MAP

Lipidation

Characterizing the humoral immune response to human papillomavirus type 6 /

Orozco, Johnnie Jose.

January 2004

Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (leaves 72-83).

Evaluating the Immunogenic Potential of Synthetic Influenza T-B & B-T Peptides

Samayoa, Liz

January 2012

Vaccination is one of the major strategies available for combating viral infections in humans. However, currently available vaccines are not without pitfalls; they are laborious to produce, could potentially be unsafe, and in the case of the highly variable influenza virus need to be reformulated each season. The use of synthetic peptides thus represents an exciting alternative to traditional vaccines. However, these synthetic peptides are not highly immunogenic without the use of potent adjuvants. The lack of immunogenicity might be addressed by conjugation between T or B cell epitopes with universal or immunodominant T-helper epitopes. The construction of branched peptides, lipidated peptides, or designs combining both of these elements might also enhance the immunogenicity, as they might target Toll-like receptors and/or mimic the 3-dimensional structure of epitopes within the native protein. In this study, a recognized T-B peptide based on the hemagglutinin protein of the A/Puerto Rico/8/34 influenza virus was chosen as a backbone and modified to evaluate if the construction of branched peptides, lipidation, the addition of cysteine residues, or mutations could indeed alter reactivity. Screening the different designs with various antibody binding and cellular assays revealed that combining a branched design with the addition of lipid moieties leads to a greatly enhanced activity as compared to other similar T-B diepitope constructs.

Influenza

Peptide

Epitope

Vaccine

MAP

Lipidation

A Crucial Epitope in the Influenza A and B Viral Neuraminidase and its Broad Inhibition by a Universal Antibody

Doyle, Tracey

January 2014

The antigenic variability of the Influenza virus hinders our ability to develop new therapeutic and vaccine strategies which provide a broad protection against all influenza strains. It has been previously suggested that a means to approach this challenge is to identify conserved sequences within viral proteins and use these for future therapeutic targets. Although such conserved sequences are plentiful amongst the internal viral proteins, their lack of exposure to the host immune system makes mounting an immune response against these regions difficult. Alternatively, the surface glycoproteins hemagglutinin (HA) and neuraminidase (NA) have been shown to provide host protection against a limited number of influenza strains when used as vaccine targets; however conserved regions within these proteins which are also antibody accessible are extremely rare. My Ph.D. thesis project is focused on investigating the functional role of a conserved region within the NA protein and to further determine the protection afforded by a monoclonal antibody to this region. In a comprehensive bioinformatics analysis, the only universally conserved sequence amongst all influenza A and B viral NA has been previously identified as being located between amino acids (a.a.) 222-230 (dubbed the HCA-2 region). However, the potential role of this region remains largely unknown. Through an array of experimental approaches including mutagenesis, reverse genetics and growth kinetics, I have found that substitutions in this sequence significantly affect viral replication by impairing the catalytic activity, substrate-binding and thermostability of NA. These findings prompted me to further investigate if antibody to this region may provide protection against influenza infection. Indeed, universal monoclonal antibody (HCA-2 MAb) against this peptide provided broad inhibition against all nine subtypes of NA in vitro and heterosubtypic protection in mice challenged with lethal doses of mouse-adapted viruses. I further demonstrated that residues within this peptide that are exposed on the surface of NA and located in close proximity to the active site, I222 and E227, are indispensable for antibody-mediated inhibition. These data are the first to demonstrate a monoclonal antibody against the NA protein which provides heterosubtypic protection. Since I observed that the HCA-2 antibody provided a broad inhibition against all nine subtypes of influenza A NA, I decided to investigate whether this inhibitory effect could be extended against Influenza B. Here, I have further reported that HCA-2 MAb provides a broad inhibition against various strains of influenza B viruses of both Victoria and Yamagata genetic lineage. I also demonstrate that the growth and NA enzymatic activity of two drug resistant influenza B strains are also inhibited by the HCA-2 antibody. The findings of my Ph.D. thesis project have thus demonstrated that the HCA-2 region is paramount to optimal viral function. Additionally, my data show that antibodies generated against this region provide heterosubtypic protection both in vitro and in vivo and against drug resistant strains. These results indicate that this universally conserved epitope should be further explored as a potential target for future antiviral intervention and vaccine-induced immune responses.

Influenza

Antibody

Universal Epitope

Vaccine

Neuraminidase

PROTEASOME ACTIVATOR PA28 AND MAJOR HISTOCOMPATABILITY COMPLEX CLASS I PROCESSING <i>IN VITRO</i> AND <i>IN VIVO</i>

BARTON, LANCE F.

17 July 2003

No description available.

proteasome

MHC

antigen processing

PA28

antigen/epitope

Contribution à la recherche d'une stratégie d'immunisation visant à induire une réponse anti-VIH-1 largement neutralisante / Research for an immunization strategy capable to induce a broadly neutralizing antibodies response against HIV-1

Morgand, Marion

27 September 2017

La difficulté à induire des anticorps capables de neutraliser (anticorps neutralisants, AcN) la très grande diversité des isolats circulants du VIH-1 reste à l’heure actuelle un obstacle majeur au développement d'un vaccin préventif contre le VIH-1. L’objectif du projet a été de déterminer quels étaient les épitopes neutralisants les plus conservés au sein des 4 groupes M, N, O et P de VIH-1 puis de concevoir un immunogène qui serait capable d’induire la production d’AcN anti-VIH-1. Nous avons montré que l’épitope N160-glycane dépendant de la région V1/V2 de l’enveloppe virale est le plus conservé au sein des 4 groupes du VIH-1 (Morgand et al., JAIDS 2016). Nous avons ensuite montré la faisabilité d’obtenir, en système d’expression transitoire, des particules chimères constituées de la protéine d’enveloppe HBs du virus de l’hépatite B exprimant à leur surface les glycoprotéines d’enveloppe de différents groupes et sous-type du VIH-1. Malgré la présence de certains épitopes neutralisants (supersite N332-V3, site de liaison au CD4, région MPER- membrane proximal external region-), les épitopes d’intérêt de la région V1/V2 ne sont pas exposés sur ces particules chimères. / The difficulty to induce antibodies able to neutralize (neutralizing antibodies, NAb) the large diversity of HIV- 1 isolates remains a major hurdle toward the development of an anti-HIV-1 vaccine. The aim of our study was first, to identify which epitopes are the most conserved within the 4 HIV-1 groups (M, N, O, P) and then, to design an immunogen that would be able to induce NAb against HIV-1. We showed that the V1/V2 N160- glycan epitope is the most conserved within the 4 HIV-1 groups (Morgand et al., JAIDS 2016). Subsequently, we showed the feasibility to generate chimeric particles based on the HBs envelope protein exposing the envelope glycoproteins of different groups and subtypes of HIV-1 at their surface. Although we demonstrated the presence of several neutralizing epitopes on these chimeric particles (N332-V3 supersite, CD4 binding site, membrane proximal external region), none of them exposed the V1/V2 epitopes of interest.

VIH-1

Anticorps

Neutralisation

Epitope

Vaccins

HIV-1

Antibodies

Neutralization

Epitope

Vaccine

Epitop-abhängige Pathogenität von PR3-Autoantikörpern und Charakterisierung einer myofibrillären Myopathie mit familiärer arrhythmogener rechtsventrikulärer Dysplasie / Epitope-dependend pathogenicity of PR3-autoantibodies and characterization of a myofibrillar myopathy with arrythmogenic right ventricular cardiomyopathy 7

Kuhl, Angelika

January 2007

Im ersten Teil dieser Arbeit wurden Antikörper-bindende Epitope von humaner Proteinase 3 (hPR3), dem Autoantigen der Wegenerschen Granulomatose (WG), charakterisiert. WG ist eine Autoimmunerkrankung, die durch chronische Entzündung des oberen und unteren respiratorischen Trakts, Vaskulitis und Glomerulonephritis gekennzeichnet ist. WG ist mit Anti-Neutrophilen zytoplasmatischen- Antikörpern (ANCA) assoziiert, die spezifisch gegen konformationelle Epitope auf der Oberfläche der Serinprotease hPR3 aus azurophilen Granula neutrophiler Granulozyten gerichtet sind. Die Charakterisierung von ANCA-bindenden Epitopen ist für ein besseres Krankheitsverständis Unverzichtbar. Im Rahmen der vorliegenden Arbeit wurde nach einem geeigneten PR3-Homolog gesucht, welches sich durch den gezielten Austausch von Oberflächen- Loops für die Kartierung von ANCA-Epitopen eignet. Zunächst wurde die PR3 Aminosäuresequenz der Primaten Pan troglodytes versus (Schimpanse), Macacca mulatta (Makakke) und Hylobates pileatus (Gibbon) analysiert und die Reaktivität gegenüber ANCA mit dem humanen Homolog verglichen. Sowohl Aminosäuresequenz als auch ANCA-Kreuzreaktivität korrelierten mit der phylogenetischen Distanz zu hPR3. Aufgrund der Bindungseigenschaften von Gibbon-PR3 (gibPR3) wurde dieses Homolog für Epitopstudien herangezogen, da die Aminosäuresequenz nur geringfügig von hPR3 abweicht und die Bindung von monoklonalen Anti-hPR3-Antikörpern und WG-Patientenseren im Immunoblot ein deutlich abgeschwächtes Signal lieferte oder keine Reaktivität mehr aufwies. Für die Epitop-Charakterisierung wurden drei hPR3/gibPR3-Mutanten generiert. Die rekombinante Expression von proPR3 erfolgte in Flp-in HEK 293 Zellen und wurde von dort aus dem Zellkultur-Überstand gereinigt und mittels Enterokinase konvertiert. Um das Epitopspektrum genau zu analysieren, wurde ein ELISA entwickelt, bei dem PR3 über den C-terminal gelegenen His6-Tag an Nickel-beschichtete Mikrotiterplatten gebunden wurde. Für den monoklonalen Anti-hPR3-Antikörper MCPR3-2 konnte die Region auf die Aminosäuren Arg60, Gln63A und Leu90 (Chymotrypsinogen-Nummerierung), das für 12.8 auf Met35, Asn38A, Pro38B und Arg74 der N-terminalen PR3-Domäne eingegrenzt werden. Letztere wurde von der Mehrheit der getesteten ANCA der WG-Patienten erkannt und zeigt somit, dass es sich hierbei um ein krankheitsrelevantes Epitop handelt. Diese Region schließt dabei auch den Bindungsbereich von &#945;1-PI ein. Im weiteren konnte gezeigt werden, dass eine Bindung des Antikörpers bei gleichzeitiger Anwesenheit von &#945;1-PI stark von dessen Konzentration abhängig ist. Bereits bei einer &#945;1-PI-Konzentration von 1 mg/ml, konnte eine partielle Antikörperbindung beobachtet werden. Sinkt die Konzentration deutlich, so besitzen Anti-hPR3-Antikörper die Möglichkeit an diese zu binden. Somit konkurrieren Antikörper und Inhibitor um die PR3-Bindungsstellen. Ein ausgewogenes Protease-Inhibitor-Gleichgewicht ist allerdings für eine kontrollierte Protease-Aktivität notwendig. Ist dieses gestört, so kann es zur Bindung von ANCA an hPR3 auf der Membran von Neutrophilen und deren Aktivierung kommen. Dies hat zur Folge, dass vermehrt proteolytische Enzyme freigesetzt werden, welche durch unkontrollierte enzymatische Aktivität Entzündungsreaktionen und Gewebeschädigung hervorrufen. Der zweite Teil dieser Arbeit beschäftigte sich mit der Charakterisierung einer autosomal-dominant vererbten myofibrillären Myopathie (MFM) in Kombination mit familiärer arrhythmogener rechtsventrikulärer Kardiomyopathie 7 (ARVD7) einer schwedischen Familie. Durch genomweite Kartierung mittels SNP (single nucleotide polymorphism)-Typisierung (Affymetrix Human Mapping 10K Array) wurde der Locus auf 10q22.3 bestätigt. Die Region wurde anschließend bis auf 4.1 Mbp zwischen den Markern D10S1645 und D10S1786 eingegrenzt. In diesem Intervall befinden sich 18 Kandidatengene. Nachdem die Protein-kodierenden Exons aller Gene im Krankheitsintervall sequenziert und dennoch keine signifikanten Abweichungen zwischen Patient und der Normalpopulation aufgefallen waren, wurde gezielt nach einer intragenische Deletion gesucht. Hierzu wurde von einem der Patienten zwei Maus-Hybridlinien generiert, die jeweils nur eines der beiden 10-er Homologe des Patienten enthalten. Doch auch hier waren die kodierenden Exons der 18 Gene aus beiden Hybridlinien durch PCR mit gleicher Effizienz und Größe amplifizierbar, so dass eine intragenische Deletionen mit großer Sicherheit bei allen Genen ausgeschlossen werden konnte. Des weiteren wurde nach SNPs in der transkribierten Sequenz der Kandidatengene gesucht, und die Expression beider Allele für 10 von 18 Kandidatengenen in Muskel-cDNA nachgewiesen. Kleine Veränderungen in nicht-kodierenden Bereichen, Introns, Promotor-Regionen, genomische Veränderungen oder de novo Insertionen sind mögliche pathogene Mechanismen, die im weiteren untersucht werden müssen. / In the first part of this work we characterised antibody-binding epitopes of human proteinase 3 (hPR3), the autoantigen in Wegeners granulomatosis (WG). WG is an autoimmune disorder characterized by chronic inflammation of the upper and lower respiratory tract, perivascular inflammation and glomerulonephritis. WG is associated with anti-neutrophil cytoplasmic antibodies (ANCA), which recognize conformational epitopes on the surface of hPR3 from azurophilic granules of neutrophil granulocytes. To determine, which epitopes are disease specific and pathogenetically relevant, we first identified a humanoid PR3 homolog which was used to map and distinguish the various ANCA-binding epitopes. We analysed the PR3 amino acid sequence of primates Pan troglodytes versus (chimpansee), Macacca mulatta (macaque) and Hylobates pileatus (gibbon) and compared the ANCA-binding pattern of these species to the human homolog. Amino acid differences and ANCA cross-reactivity correlated with the phylogenetic distance to the human homolog. We recognized the most useful PR3 variant was the gibbon equivalent (gibPR3) because it harboured a limited number of amino acid differences and showed an intermediate ANCA binding pattern with binding of some but not all monoclonal anti-hPR3 antibodies and WG patient sera. To determine the epitopes, we generated three PR3-chimera by reverting non-conserved PR3-loops to the respective human amino acids. ProPR3 was expressed in Flp-in 293 cells, purified from cell culture supernatant and activated by enterokinase. For epitope analysis an ELISA was developed, where PR3 was coupled via its C-terminal His6-tag to nickel-coated microtiter plates. The epitope of monoclonal anti-hPR3 antibody MCPR3-2 was mapped to a region defined by amino acids Arg60, Gln63A and Leu90 (chymotrypsinogen numbering), whereas Met35, Asn38A, Pro39B and Arg74 of the N-terminal PR3 domain contributed to the 12.8 epitope. The latter epitope was recognized by the majority of ANCA from Wegener patients tested and seems to be an ANCA-targeted region. The 12.8 epitope overlaps with the &#945;1-PI binding site, too. Therefore antibody and inhibitor directly compete for binding to hPR3. Moreover we showed that antibody binding strongly depends on the concentration of this inhibitor. &#945;1-PI-concentrations of 1 mg/ml allowed partial binding to PR3 and concentrations below shifted the binding towards the antibody. This finding indicates that a protease-inhibitor balance is critical because ANCA-binding to membrane bound PR3 on the surface of neutrophils would lead to activation and release of proteolytic enzymes to the environment and to an uncontrolled proteolytic activity. The second part of this studies were dedictated to the search for the genetic defect in a Swedish family suffering from autosomal dominant myofibrillar myopathy (MFM) in combination with arrhythmogenic right ventricular cardiomyopathy (ARVC7). In a comprehensive follow up study we reexamined the previous linkage data for MFM/ARVC7 by genome wide SNP analyses and confirmed the locus assignment using a high density single nucleotide polymorphism (SNP) marker panel from Affymetrix to 10q22.3. The critical interval was narrowed down to 4.1 Mbp between the two markers D10S1645 and D10S1786. Because no mutation was found in the coding exons of the 18 candidate genes for MFM/ARVC7 we tried to identify small genomic deletions and generated hybrid cell lines carrying only the affected or the normal chromosome 10 homolog. All sequence tagged sites and exons were present on both homologs excluding the possibility of intragenic and submicroscopic deletions. Furthermore, we identified SNPs within the transcribed sequences of 10 candidate genes and showed expression of both alleles in patient muscle cDNA. Subtle alterations in noncoding transcripts, introns, promoter regions or splicing enhancers, genomic inversions or de novo insertions are probably responsible for both disparate syndromes and have to be investigated.

Wegenersche Granulomatose

Proteinase 3

ANCA

konformationelle Epitope

ddc:570

Analysis of myelin-reactive T lymphocyte function in models of multiple sclerosis

Patel, Sarju Dilipkumar

January 2008

Immune tolerance to self antigens prevents the onset of autoimmune diseases such as Multiple Sclerosis (MS). There are three branches of tolerance which allow the auto-aggressive potential of T lymphocytes to be limited; these are death, anergy-adaptation and regulation. The main body of this work attempts to clarify a role for adaptation in maintaining the sensitivity of the autoreactive T cell repertoire below a ‘threshold for harm’ in the mouse model of MS, experimental autoimmune encephalomyelitis (EAE). The well defined myelin basic protein (MBP) Ac1-9 epitope altered peptide ligand (APL) system has been used to develop a model allowing the examination of mechanisms underlying the adaptation of cells. Previous data showed immunisation with the 4Lys (wild-type) epitope mediated disease whereas a superagonist APL with a tyrosine substitution at position 4 (4Tyr) did not, despite showing potency in vitro. This was shown to be a result of both activation induced cell death and adaptation. Here an in vitro model was developed using MBP-reactive TCR transgenic cells to make predictions about the mechanisms underlying adaptation. These data lead to the conclusion that T cells can adapt (become less sensitive) either before or after encounter with the wild-type peptide, leading to a reversal of their pathogenic potential. The MBP APL system and MBP reactive transgenic cells were also used to assess the contribution of epitope spreading in a relapsing-remitting (RR) model of EAE induced with proteolipid protein. The cells were tracked and changes in phenotype and behaviour were monitored. The data show that disease induced with one antigen can be manipulated with cells relevant to a different antigen and that bystander suppression may be an effective weapon in controlling the progression to RR-EAE.

616.079

Mapeamento de epitopos das proteínas do vírus Zika na interação materno-infantil pelo método de Spot-synthesis. / Mapping of epitopes of Zika virus proteins in maternal-infant interaction by the Spot-synthesis method.

Soares, Anderson Pereira

15 October 2018

O Vírus Zika é um arbovírus pertencente à família Flaviviridae e ao gênero Flavivirus, é constituído por RNA de cadeia simples senso positivo e foi primeiramente descrito em 1947 na floresta de Ziika, em Uganda. Este estudo, visa mapear os epitopos do Vírus Zika (ZIKV), experimento que nos permite avaliar e compreender a resposta imune do hospedeiro contra o vírus por meio da detecção de regiões imunodominantes nas proteínas virais. O processo de identificação dos epitopos de ZIKV foi realizado pela técnica de spot synthesis, que se baseia em arranjos de peptídeos relacionados às proteínas do ZIKV. Amostras de soro de pacientes residentes em áreas endêmicas de arboviroses, mães e bebês que apresentaram sintomatologia típica foram selecionadas e triadas pelo método de ELISA e PCR real time. Sequências de referência do vírus foram submetidas a análises in sílico, para a determinação das áreas de interação na superfície da proteína e suas características antigênicas, para efeito de comparação com a resposta observada pelas amostras. Os experimentos evidenciaram um alta antigenicidade nas proteínas estruturais do vírus, e em nas não-estruturais 1,3 e 5. / The Zika virus is an arbovirus belonging to the genus Flavivirus of the Flaviridae family. It consists of single-stranded positive-sense RNA and was first described in 1947 in the Ziika Forest in Uganda. This study aims to map the Zika virus (ZIKV) epitopes, in an experimental design that allows us to evaluate and understand the immune response of the host against the virus by detecting immunodominant regions in the viral proteins. The process of identification of the ZIKV epitopes was performed by the spot synthesis technique, which is based on peptide arrangements related to the ZIKV proteins. Serum samples from patients living in arboviruses endemic areas, mothers and infants presenting typical symptoms were selected and screened by ELISA and real time PCR. Reference sequences of the virus were submitted to in silico analyzes to determine the interaction areas on the surface of the protein and its antigenic characteristics, for comparison with the response observed by using serum samples. The experiments demonstrated a high antigenicity in the structural proteins of the virus, and in the non-structural proteins 1, 3 and 5.

Spot-synthesis

Spot-synthesis

epitope mapping

Mapeamento de epítopos

Zika

Zika