Science Score: 18.0%

This score indicates how likely this project is to be science-related based on various indicators:

  • CITATION.cff file
    Found CITATION.cff file
  • codemeta.json file
  • .zenodo.json file
  • DOI references
  • Academic publication links
  • Academic email domains
  • Institutional organization owner
  • JOSS paper metadata
  • Scientific vocabulary similarity
    Unable to calculate vocabulary similarity
Last synced: 10 months ago · JSON representation ·

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  • Host: GitHub
  • Owner: ZakiaSalod
  • License: apache-2.0
  • Language: Python
  • Default Branch: main
  • Size: 4.51 MB
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  • Watchers: 1
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Created over 3 years ago · Last pushed almost 2 years ago
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Readme License Citation

README.md

reverse-vaccinology-dashboard

Owner

  • Name: Zakia Salod (She/Her)
  • Login: ZakiaSalod
  • Kind: user
  • Location: South Africa

Software Developer | Medical Scientist | Data Scientist | Researcher | Author | Artist | Philanthropist 🇿🇦

Citation (citation/citation_json.json)

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				"label": "hotez p.j. (2006)",
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				"label": "serino l. (2006)",
				"description": "<table><tr><td>Authors:</td><td>serino l.; bambini s.; comanducci m.; pizza m.; rappuoli r.</td></tr><tr><td>Title:</td><td>meningococcal diseases: from genomes to vaccines</td></tr><tr><td>Source:</td><td>drug discovery today: therapeutic strategies, 3(2), 129-136</td></tr><tr><td>Year:</td><td>2006</td></tr></table>",
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				"id": 28,
				"label": "tettelin h. (2006)",
				"description": "<table><tr><td>Authors:</td><td>tettelin h.; medini d.; donati c.; masignani v.</td></tr><tr><td>Title:</td><td>towards a universal group b streptococcus vaccine using multistrain genome analysis</td></tr><tr><td>Source:</td><td>expert review of vaccines, 5(5), 687-694</td></tr><tr><td>Year:</td><td>2006</td></tr></table>",
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				"label": "mora m. (2006)",
				"description": "<table><tr><td>Authors:</td><td>mora m.; donati c.; medini d.; covacci a.; rappuoli r.</td></tr><tr><td>Title:</td><td>microbial genomes and vaccine design: refinements to the classical reverse vaccinology approach</td></tr><tr><td>Source:</td><td>current opinion in microbiology, 9(5), 532-536</td></tr><tr><td>Year:</td><td>2006</td></tr></table>",
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				"label": "movahedi a.(r.) (2008)",
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				"label": "seib k.l. (2009)",
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				"label": "sałamaszyńska-guz a. (2009)",
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				"label": "serruto d. (2009)",
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				"label": "tettelin h. (2009)",
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				"label": "magnan c.n. (2010)",
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				"label": "rappuoli r. (2011)",
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				"label": "ho l.-p. (2011)",
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				"label": "hong m. (2011)",
				"description": "<table><tr><td>Authors:</td><td>hong m.; ahn j.; yoo s.; hong j.; lee e.; yoon i.; jung j.-k.; lee h.</td></tr><tr><td>Title:</td><td>identification of novel immunogenic proteins in pathogenic haemophilus parasuis based on genome sequence analysis</td></tr><tr><td>Source:</td><td>veterinary microbiology, 148(1), 89-92</td></tr><tr><td>Year:</td><td>2011</td></tr></table>",
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				"label": "toneatto d. (2011)",
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				"label": "hamad m. (2011)",
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				"label": "georrge j.j. (2011)",
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				"label": "menakha m. (2011)",
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				"label": "he y. (2012a)",
				"description": "<table><tr><td>Authors:</td><td>he y.</td></tr><tr><td>Title:</td><td>analyses of brucella pathogenesis, host immunity, and vaccine targets using systems biology and bioinformatics.</td></tr><tr><td>Source:</td><td>frontiers in cellular and infection microbiology, 2, 2</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
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				"label": "kulkarni-kale u. (2012)",
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				"label": "seib k.l. (2012)",
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				"id": 98,
				"label": "jones d. (2012)",
				"description": "<table><tr><td>Authors:</td><td>jones d.</td></tr><tr><td>Title:</td><td>reverse vaccinology on the cusp</td></tr><tr><td>Source:</td><td>nature reviews drug discovery, 11(3), 175-176</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
				"url": "https://doi.org/10.1038/nrd3679",
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				"label": "nesta b. (2012)",
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				"id": 101,
				"label": "liebenberg j. (2012)",
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				"label": "palmer g.h. (2012)",
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				"id": 103,
				"label": "martino a. (2012)",
				"description": "<table><tr><td>Authors:</td><td>martino a.; magagnoli c.; de conciliis g.; d'ascenzi s.; forster m.j.; allen l.; brookes c.; taylor s.; bai x.; findlow j.; feavers i.m.; rodger a.; bolgiano b.</td></tr><tr><td>Title:</td><td>structural characterisation, stability and antibody recognition of chimeric nhba-gna1030: an investigational vaccine component against neisseria meningitidis</td></tr><tr><td>Source:</td><td>vaccine, 30(7), 1330-1342</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2011.12.066",
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				"id": 104,
				"label": "umamaheswari a. (2012)",
				"description": "<table><tr><td>Authors:</td><td>umamaheswari a.; pradhan d.; hemanthkumar m.</td></tr><tr><td>Title:</td><td>computer aided subunit vaccine design against pathogenic leptospira serovars</td></tr><tr><td>Source:</td><td>interdisciplinary sciences: computational life sciences, 4(1), 38-45</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
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				"id": 105,
				"label": "serruto d. (2012)",
				"description": "<table><tr><td>Authors:</td><td>serruto d.; bottomley m.j.; ram s.; giuliani m.m.; rappuoli r.</td></tr><tr><td>Title:</td><td>the new multicomponent vaccine against meningococcal serogroup b, 4cmenb: immunological, functional and structural characterization of the antigens</td></tr><tr><td>Source:</td><td>vaccine, 30(suppl. 2), b87-b97</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2012.01.033",
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				"id": 106,
				"label": "dull p.m. (2012)",
				"description": "<table><tr><td>Authors:</td><td>dull p.m.; mcintosh e.d.</td></tr><tr><td>Title:</td><td>meningococcal vaccine development - from glycoconjugates against menacwy to proteins against menb - potential for broad protection against meningococcal disease</td></tr><tr><td>Source:</td><td>vaccine, 30(suppl. 2), b18-b25</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2012.01.062",
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				"id": 107,
				"label": "maritz-olivier c. (2012)",
				"description": "<table><tr><td>Authors:</td><td>maritz-olivier c.; van zyl w.; stutzer c.</td></tr><tr><td>Title:</td><td>a systematic, functional genomics, and reverse vaccinology approach to the identification of vaccine candidates in the cattle tick, rhipicephalus microplus</td></tr><tr><td>Source:</td><td>ticks and tick-borne diseases, 3(3), 179-187</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
				"url": "https://doi.org/10.1016/j.ttbdis.2012.01.003",
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			{
				"id": 108,
				"label": "zhang m. (2012)",
				"description": "<table><tr><td>Authors:</td><td>zhang m.; wu h.; li x.; yang m.; chen t.; wang q.; liu q.; zhang y.</td></tr><tr><td>Title:</td><td>edwardsiella tarda flagellar protein flgd: a protective immunogen against edwardsiellosis</td></tr><tr><td>Source:</td><td>vaccine, 30(26), 3849-3856</td></tr><tr><td>Year:</td><td>2012</td></tr></table>",
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				"label": "chen v.l. (2013)",
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				"label": "simionatto s. (2013)",
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				"label": "koch c.p. (2013b)",
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				"label": "schubert-unkmeir a. (2013)",
				"description": "<table><tr><td>Authors:</td><td>schubert-unkmeir a.; christodoulides m.</td></tr><tr><td>Title:</td><td>genome-based bacterial vaccines: current state and future outlook</td></tr><tr><td>Source:</td><td>biodrugs, 27(5), 419-430</td></tr><tr><td>Year:</td><td>2013</td></tr></table>",
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				"label": "kanampalliwar a.m. (2013)",
				"description": "<table><tr><td>Authors:</td><td>kanampalliwar a.m.; soni r.; girdhar a.; tiwari a.</td></tr><tr><td>Title:</td><td>reverse vaccinology: basics and applications</td></tr><tr><td>Source:</td><td>journal of vaccines and vaccination, 4(6)</td></tr><tr><td>Year:</td><td>2013</td></tr></table>",
				"url": "https://doi.org/10.4172/2157-7560.1000194",
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				"label": "moriel d.g. (2013)",
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				"url": "https://doi.org/10.1371/journal.pone.0077631",
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			{
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				"label": "urosev d. (2013)",
				"description": "<table><tr><td>Authors:</td><td>urosev d.; ferrer-navarro m.; pastorello i.; cartocci e.; costenaro l.; zhulenkovs d.; maréchal j.-d.; leonchiks a.; reverter d.; serino l.; soriani m.; daura x.</td></tr><tr><td>Title:</td><td>crystal structure of c5321: a protective antigen present in uropathogenic escherichia coli strains displaying an slr fold</td></tr><tr><td>Source:</td><td>bmc structural biology, 13(1)</td></tr><tr><td>Year:</td><td>2013</td></tr></table>",
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				"label": "goodswen s.j. (2013)",
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				"url": "https://doi.org/10.1093/bib/bbs066",
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			},
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				"label": "panatto d. (2013)",
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			},
			{
				"id": 151,
				"label": "gomez g. (2013b)",
				"description": "<table><tr><td>Authors:</td><td>gomez g.; adams l.g.; rice-ficht a.; ficht t.a.</td></tr><tr><td>Title:</td><td>host-brucella interactions and the brucella genome as tools for subunit antigen discovery and immunization against brucellosis</td></tr><tr><td>Source:</td><td>frontiers in cellular and infection microbiology, 4(may)</td></tr><tr><td>Year:</td><td>2013</td></tr></table>",
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			{
				"id": 152,
				"label": "rappuoli r. (2014a)",
				"description": "<table><tr><td>Authors:</td><td>rappuoli r.</td></tr><tr><td>Title:</td><td>vaccines, emerging viruses, and how to avoid disaster</td></tr><tr><td>Source:</td><td>bmc biology, 12(1)</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.1186/s12915-014-0100-6",
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				"id": 153,
				"label": "tomar n. (2014)",
				"description": "<table><tr><td>Authors:</td><td>tomar n.; de r.k.</td></tr><tr><td>Title:</td><td>immunoinformatics: a brief review</td></tr><tr><td>Source:</td><td>methods in molecular biology, 1184, 23-55</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.1007/978-1-4939-1115-8_3",
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				"id": 155,
				"label": "křížová p. (2014)",
				"description": "<table><tr><td>Authors:</td><td>křížová p.; musílek m.; vacková z.; bečvářová z.; kozáková j.</td></tr><tr><td>Title:</td><td>sequencing analysis of the antigens included in the four-component vaccine against serogroup b meningococcus in czech isolates of neisseria meningitidis from 2007–2013 [sekvenační analýza antigenů zařazených v čtyřkomponentní vakcíně proti meningokoku b v českých izolátech neisseria meningitidis v období 2007–2013]</td></tr><tr><td>Source:</td><td>epidemiologie, mikrobiologie, imunologie, 63(1), 61-68</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
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			},
			{
				"id": 156,
				"label": "vernikos g. (2014)",
				"description": "<table><tr><td>Authors:</td><td>vernikos g.; medini d.</td></tr><tr><td>Title:</td><td>bexsero® chronicle</td></tr><tr><td>Source:</td><td>pathogens and global health, 108(7), 305-311</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.1179/2047773214y.0000000162",
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				"label": "van regenmortel m.h.v. (2014a)",
				"description": "<table><tr><td>Authors:</td><td>van regenmortel m.h.v.</td></tr><tr><td>Title:</td><td>an outdated notion of antibody specificity is one of the major detrimental assumptions of the structure-based reverse vaccinology paradigm, which prevented it from helping to develop an effective hiv-1 vaccine</td></tr><tr><td>Source:</td><td>frontiers in immunology, 5(nov)</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.3389/fimmu.2014.00593",
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			},
			{
				"id": 158,
				"label": "chakraborty s. (2014)",
				"description": "<table><tr><td>Authors:</td><td>chakraborty s.</td></tr><tr><td>Title:</td><td>ebola vaccine: multiple peptide-epitope loaded vaccine formulation from proteome using reverse vaccinology approach</td></tr><tr><td>Source:</td><td>international journal of pharmacy and pharmaceutical sciences, 6(10), 407-412</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
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			},
			{
				"id": 159,
				"label": "böhles n. (2014)",
				"description": "<table><tr><td>Authors:</td><td>böhles n.; busch k.; hensel m.</td></tr><tr><td>Title:</td><td>vaccines against human diarrheal pathogens: current status and perspectives</td></tr><tr><td>Source:</td><td>human vaccines and immunotherapeutics, 10(6), 1522-1535</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.4161/hv.29241",
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			{
				"id": 160,
				"label": "aebischer t. (2014)",
				"description": "<table><tr><td>Authors:</td><td>aebischer t.</td></tr><tr><td>Title:</td><td>leishmania spp. proteome data sets: a comprehensive resource for vaccine development to target visceral leishmaniasis</td></tr><tr><td>Source:</td><td>frontiers in immunology, 5(jun)</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.3389/fimmu.2014.00260",
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			},
			{
				"id": 161,
				"label": "gil á. (2014)",
				"description": "<table><tr><td>Authors:</td><td>gil á.; barranco d.; batalla j.; bayas j.m.; campins m.; gorrotxategi gorrotxategi p.; lluch j.; martinón-torres f.; mellado m.j.; moreno-pérez d.; uriel b.; vázquez j.a.</td></tr><tr><td>Title:</td><td>prevention of serogroup b meningococcal disease using a four-component vaccine [prevención de la enfermedad meningocócica por el serogrupo b mediante una vacuna de cuatro componentes]</td></tr><tr><td>Source:</td><td>pediatria de atencion primaria, 16(62), 108.e55-108.e74</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
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			{
				"id": 162,
				"label": "goodswen s.j. (2014a)",
				"description": "<table><tr><td>Authors:</td><td>goodswen s.j.; kennedy p.j.; ellis j.t.</td></tr><tr><td>Title:</td><td>discovering a vaccine against neosporosis using computers: is it feasible?</td></tr><tr><td>Source:</td><td>trends in parasitology, 30(8), 401-411</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
				"url": "https://doi.org/10.1016/j.pt.2014.06.004",
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			},
			{
				"id": 163,
				"label": "jain r. (2014)",
				"description": "<table><tr><td>Authors:</td><td>jain r.; ramaswamy s.k.; piramanayagam s.</td></tr><tr><td>Title:</td><td>an omics insight: a hope for hrsv vaccine</td></tr><tr><td>Source:</td><td>indian journal of biotechnology, 13(2), 157-164</td></tr><tr><td>Year:</td><td>2014</td></tr></table>",
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				"label": "jaiswal v. (2014)",
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				"label": "holst j. (2014)",
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				"label": "oany a.r. (2014)",
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				"label": "adler b. (2015)",
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				"label": "xu q. (2015)",
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				"label": "leca m. (2015)",
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				"label": "nilo a. (2015)",
				"description": "<table><tr><td>Authors:</td><td>nilo a.; morelli l.; passalacqua i.; brogioni b.; allan m.; carboni f.; pezzicoli a.; zerbini f.; maione d.; fabbrini m.; romano m.r.; hu q.-y.; margarit i.; berti f.; adamo r.</td></tr><tr><td>Title:</td><td>anti-group b streptococcus glycan-conjugate vaccines using pilus protein gbs80 as carrier and antigen: comparing lysine and tyrosine-directed conjugation</td></tr><tr><td>Source:</td><td>acs chemical biology, 10(7), 1737-1746</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
				"url": "https://doi.org/10.1021/acschembio.5b00247",
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				"id": 220,
				"label": "gasparini r. (2015)",
				"description": "<table><tr><td>Authors:</td><td>gasparini r.; amicizia d.; lai p.l.; panatto d.</td></tr><tr><td>Title:</td><td>meningococcal b vaccination strategies and their practical application in italy</td></tr><tr><td>Source:</td><td>journal of preventive medicine and hygiene, 56(3), e133-e139</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
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				"id": 222,
				"label": "fischer a. (2015)",
				"description": "<table><tr><td>Authors:</td><td>fischer a.; santana-cruz i.; hegerman j.; gourlé h.; schieck e.; lambert m.; nadendla s.; wesonga h.; miller r.a.; vashee s.; weber j.; meens j.; frey j.; jores j.</td></tr><tr><td>Title:</td><td>high quality draft genomes of the mycoplasma mycoides subsp. mycoides challenge strains afadé and b237</td></tr><tr><td>Source:</td><td>standards in genomic sciences, 10(1)</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
				"url": "https://doi.org/10.1186/s40793-015-0067-0",
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				"id": 223,
				"label": "madampage c.a. (2015)",
				"description": "<table><tr><td>Authors:</td><td>madampage c.a.; rawlyk n.; crockford g.; wang y.; white a.p.; brownlie r.; van donkersgoed j.; dorin c.; potter a.</td></tr><tr><td>Title:</td><td>reverse vaccinology as an approach for developing histophilus somni vaccine candidates</td></tr><tr><td>Source:</td><td>biologicals, 43(6), 444-451</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
				"url": "https://doi.org/10.1016/j.biologicals.2015.09.001",
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				"label": "carlos p. (2015)",
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				"url": "https://doi.org/10.1016/j.jtbi.2015.08.003",
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				"id": 225,
				"label": "perez-casal j. (2015)",
				"description": "<table><tr><td>Authors:</td><td>perez-casal j.; prysliak t.; maina t.; wang y.; townsend h.; berverov e.; nkando i.; wesonga h.; liljander a.; jores j.; naessens j.; gerdts v.; potter a.</td></tr><tr><td>Title:</td><td>analysis of immune responses to recombinant proteins from strains of mycoplasma mycoides subsp. mycoides, the causative agent of contagious bovine pleuropneumonia</td></tr><tr><td>Source:</td><td>veterinary immunology and immunopathology, 168(1-2), 103-110</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
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				"label": "davies d.h. (2015)",
				"description": "<table><tr><td>Authors:</td><td>davies d.h.; duffy p.; bodmer j.-l.; felgner p.l.; doolan d.l.</td></tr><tr><td>Title:</td><td>large screen approaches to identify novel malaria vaccine candidates</td></tr><tr><td>Source:</td><td>vaccine, 33(52), 7496-7505</td></tr><tr><td>Year:</td><td>2015</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2015.09.059",
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				"id": 227,
				"label": "ifeonu o.o. (2016)",
				"description": "<table><tr><td>Authors:</td><td>ifeonu o.o.; simon r.; tennant s.m.; sheoran a.s.; daly m.c.; felix v.; kissinger j.c.; widmer g.; levine m.m.; tzipori s.; silva j.c.</td></tr><tr><td>Title:</td><td>cryptosporidium hominis gene catalog: a resource for the selection of novel cryptosporidium vaccine candidates</td></tr><tr><td>Source:</td><td>database, 2016</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1093/database/baw137",
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			{
				"id": 228,
				"label": "zolla-pazner s. (2016)",
				"description": "<table><tr><td>Authors:</td><td>zolla-pazner s.; powell r.; yahyaei s.; williams c.; jiang x.; li w.; lu s.; wang s.; upadhyay c.; hioe c.e.; totrov m.; kong x.</td></tr><tr><td>Title:</td><td>rationally designed vaccines targeting the v2 region of hiv-1 gp120 induce a focused, cross-clade-reactive, biologically functional antibody response</td></tr><tr><td>Source:</td><td>journal of virology, 90(24), 10993-11006</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1128/jvi.01403-16",
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			},
			{
				"id": 229,
				"label": "meunier m. (2016)",
				"description": "<table><tr><td>Authors:</td><td>meunier m.; guyard-nicodème m.; hirchaud e.; parra a.; chemaly m.; dory d.</td></tr><tr><td>Title:</td><td>identification of novel vaccine candidates against campylobacter through reverse vaccinology</td></tr><tr><td>Source:</td><td>journal of immunology research, 2016</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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				"id": 230,
				"label": "lew-tabor a.e. (2016)",
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				"url": "https://doi.org/10.1016/j.ttbdis.2015.12.012",
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			},
			{
				"id": 231,
				"label": "garg n. (2016)",
				"description": "<table><tr><td>Authors:</td><td>garg n.; singh r.; shukla g.; capalash n.; sharma p.</td></tr><tr><td>Title:</td><td>immunoprotective potential of in silico predicted acinetobacter baumannii outer membrane nuclease, nucab</td></tr><tr><td>Source:</td><td>international journal of medical microbiology, 306(1), 1-9</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.ijmm.2015.10.005",
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			},
			{
				"id": 232,
				"label": "kumar v. (2016)",
				"description": "<table><tr><td>Authors:</td><td>kumar v.; damodharan s.; pandaranayaka e.p.j.; madathiparambil m.g.; tennyson j.</td></tr><tr><td>Title:</td><td>molecular modeling and in-silico engineering of cardamom mosaic virus coat protein for the presentation of immunogenic epitopes of leptospira lipl32</td></tr><tr><td>Source:</td><td>journal of biomolecular structure and dynamics, 34(1), 42-56</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1080/07391102.2015.1009491",
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			},
			{
				"id": 233,
				"label": "singh r. (2016)",
				"description": "<table><tr><td>Authors:</td><td>singh r.; garg n.; shukla g.; capalash n.; sharma p.</td></tr><tr><td>Title:</td><td>immunoprotective efficacy of acinetobacter baumannii outer membrane protein, filf, predicted in silico as a potential vaccine candidate</td></tr><tr><td>Source:</td><td>frontiers in microbiology, 7(feb)</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.3389/fmicb.2016.00158",
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			},
			{
				"id": 234,
				"label": "holtfreter s. (2016)",
				"description": "<table><tr><td>Authors:</td><td>holtfreter s.; kolata j.; stentzel s.; bauerfeind s.; schmidt f.; sundaramoorthy n.; bröker b.m.</td></tr><tr><td>Title:</td><td>omics approaches for the study of adaptive immunity to staphylococcus aureus and the selection of vaccine candidates</td></tr><tr><td>Source:</td><td>proteomes, 4(1)</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.3390/proteomes4010011",
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			},
			{
				"id": 235,
				"label": "nkando i. (2016)",
				"description": "<table><tr><td>Authors:</td><td>nkando i.; perez-casal j.; mwirigi m.; prysliak t.; townsend h.; berberov e.; kuria j.; mugambi j.; soi r.; liljander a.; jores j.; gerdts v.; potter a.; naessens j.; wesonga h.</td></tr><tr><td>Title:</td><td>recombinant mycoplasma mycoides proteins elicit protective immune responses against contagious bovine pleuropneumonia</td></tr><tr><td>Source:</td><td>veterinary immunology and immunopathology, 171, 103-114</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vetimm.2016.02.010",
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			},
			{
				"id": 236,
				"label": "pandey k. (2016)",
				"description": "<table><tr><td>Authors:</td><td>pandey k.; sharma m.; saarav i.; singh s.; dutta p.; bhardwaj a.; sharma s.</td></tr><tr><td>Title:</td><td>analysis of the dosr regulon genes to select cytotoxic t lymphocyte epitope specific vaccine candidates using a reverse vaccinology approach</td></tr><tr><td>Source:</td><td>international journal of mycobacteriology, 5(1), 34-43</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.ijmyco.2015.10.005",
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			},
			{
				"id": 237,
				"label": "hou m. (2016)",
				"description": "<table><tr><td>Authors:</td><td>hou m.; zhou d.; li g.; guo h.; liu j.; wang g.; zheng q.; cheng z.</td></tr><tr><td>Title:</td><td>identification of a variant antigenic neutralizing epitope in hypervariable region 1 of avian leukosis virus subgroup j</td></tr><tr><td>Source:</td><td>vaccine, 34(11), 1399-1404</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2016.01.039",
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			},
			{
				"id": 238,
				"label": "goldstone r.j. (2016)",
				"description": "<table><tr><td>Authors:</td><td>goldstone r.j.; smith d.g.e.</td></tr><tr><td>Title:</td><td>new perspectives from genomic analyses of bacterial infectious agents</td></tr><tr><td>Source:</td><td>oie revue scientifique et technique, 35(1), 203-213</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.20506/rst.35.1.2428",
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			},
			{
				"id": 239,
				"label": "rappuoli r. (2016)",
				"description": "<table><tr><td>Authors:</td><td>rappuoli r.; bottomley m.j.; d'oro u.; finco o.; de gregorio e.</td></tr><tr><td>Title:</td><td>reverse vaccinology 2.0: human immunology instructs vaccine antigen design</td></tr><tr><td>Source:</td><td>journal of experimental medicine, 213(4), 469-481</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1084/jem.20151960",
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			},
			{
				"id": 240,
				"label": "seyed n. (2016)",
				"description": "<table><tr><td>Authors:</td><td>seyed n.; taheri t.; rafati s.</td></tr><tr><td>Title:</td><td>post-genomics and vaccine improvement for leishmania</td></tr><tr><td>Source:</td><td>frontiers in microbiology, 7(apr)</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.3389/fmicb.2016.00467",
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			},
			{
				"id": 241,
				"label": "bavaro t. (2016)",
				"description": "<table><tr><td>Authors:</td><td>bavaro t.; piubelli l.; amicosante m.; terreni m.</td></tr><tr><td>Title:</td><td>from new diagnostic targets to recombinant proteins and semi-synthetic protein-based vaccines</td></tr><tr><td>Source:</td><td>current organic chemistry, 20(11), 1150-1168</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.2174/1385272819666150810204736",
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			},
			{
				"id": 242,
				"label": "aguirre a.a.r. (2016)",
				"description": "<table><tr><td>Authors:</td><td>aguirre a.a.r.; lobo f.p.; cunha r.c.; garcia m.v.; andreotti r.</td></tr><tr><td>Title:</td><td>design of the ataq peptide and its evaluation as an immunogen to develop a rhipicephalus vaccine</td></tr><tr><td>Source:</td><td>veterinary parasitology, 221, 30-38</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vetpar.2016.02.032",
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			},
			{
				"id": 243,
				"label": "merrifield m. (2016)",
				"description": "<table><tr><td>Authors:</td><td>merrifield m.; hotez p.j.; beaumier c.m.; gillespie p.; strych u.; hayward t.; bottazzi m.e.</td></tr><tr><td>Title:</td><td>advancing a vaccine to prevent human schistosomiasis</td></tr><tr><td>Source:</td><td>vaccine, 34(26), 2988-2991</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1016/j.vaccine.2016.03.079",
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			},
			{
				"id": 244,
				"label": "zielke r.a. (2016)",
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				"id": 252,
				"label": "sharma a. (2016)",
				"description": "<table><tr><td>Authors:</td><td>sharma a.; soundhara rajan g.; kharb r.; biswas s.</td></tr><tr><td>Title:</td><td>genome wide analysis of chlamydia pneumoniae for candidate vaccine development</td></tr><tr><td>Source:</td><td>current computer-aided drug design, 12(3), 206-215</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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				"id": 253,
				"label": "mahmoud a. (2016)",
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				"label": "hassan a. (2016)",
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				"label": "van regenmortel m.h.v. (2016)",
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				"id": 258,
				"label": "zaveri k. (2016)",
				"description": "<table><tr><td>Authors:</td><td>zaveri k.; patnala k.</td></tr><tr><td>Title:</td><td>screening of putative therapeutic candidates in superbug (staphylococcus aureus): a systematic in silico approach</td></tr><tr><td>Source:</td><td>asian journal of pharmaceutical and clinical research, 9, 283-291</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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				"id": 260,
				"label": "dangi m. (2016)",
				"description": "<table><tr><td>Authors:</td><td>dangi m.; singh b.; chhillar a.k.</td></tr><tr><td>Title:</td><td>reverse vaccinology: an epitope based approach to design vaccines</td></tr><tr><td>Source:</td><td>current bioinformatics, 11(5), 537-550</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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				"label": "gheibi hayat s.-m. (2016)",
				"description": "<table><tr><td>Authors:</td><td>gheibi hayat s.-m.; mousavi gargari s.-l.; nazarian s.</td></tr><tr><td>Title:</td><td>construction and immunogenic properties of a chimeric protein comprising cfae, cfab and ltb against enterotoxigenic escherichia coli</td></tr><tr><td>Source:</td><td>biologicals, 44(6), 503-510</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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				"id": 262,
				"label": "rubio reyes p. (2016)",
				"description": "<table><tr><td>Authors:</td><td>rubio reyes p.; parlane n.a.; wedlock d.n.; rehm b.h.a.</td></tr><tr><td>Title:</td><td>immunogencity of antigens from mycobacterium tuberculosis self-assembled as particulate vaccines</td></tr><tr><td>Source:</td><td>international journal of medical microbiology, 306(8), 624-632</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
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			{
				"id": 263,
				"label": "mcclean s. (2016)",
				"description": "<table><tr><td>Authors:</td><td>mcclean s.</td></tr><tr><td>Title:</td><td>prospects for subunit vaccines: technology advances resulting in efficacious antigens requires matching advances in early clinical trial investment</td></tr><tr><td>Source:</td><td>human vaccines and immunotherapeutics, 12(12), 3103-3106</td></tr><tr><td>Year:</td><td>2016</td></tr></table>",
				"url": "https://doi.org/10.1080/21645515.2016.1216287",
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				"label": "muruato l.a. (2017a)",
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				"label": "hossain m.s. (2017)",
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				"label": "welly b.t. (2017)",
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				"id": 268,
				"label": "mehla k. (2017)",
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				"label": "dellagostin o.a. (2017)",
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				"url": "https://doi.org/10.3390/ijms18010158",
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				"label": "heinson a.i. (2017)",
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				"label": "brito r.c.f. (2017)",
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				"id": 272,
				"label": "rizwan m. (2017)",
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				"label": "baratelli m. (2017)",
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				"label": "toneatto d. (2017)",
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				"label": "rashid m.i. (2017)",
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				"label": "liu x. (2017)",
				"description": "<table><tr><td>Authors:</td><td>liu x.; sun j.; wu h.</td></tr><tr><td>Title:</td><td>glycolysis-related proteins are broad spectrum vaccine candidates against aquacultural pathogens</td></tr><tr><td>Source:</td><td>vaccine, 35(31), 3813-3816</td></tr><tr><td>Year:</td><td>2017</td></tr></table>",
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				"label": "dangi m. (2017)",
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				"label": "liao w. (2017)",
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				"label": "ntege e.h. (2017)",
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				"label": "goodswen s.j. (2017)",
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				"label": "ong e. (2017)",
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				"url": "https://doi.org/10.3389/fimmu.2017.01382",
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				"label": "muruato l.a. (2017b)",
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			{
				"id": 299,
				"label": "meunier m. (2017)",
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				"id": 300,
				"label": "burton d.r. (2017)",
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				"label": "dehghani b. (2017)",
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				"id": 332,
				"label": "tagliabue a. (2018)",
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				"label": "zhang q. (2018)",
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				"label": "khan f. (2018)",
				"description": "<table><tr><td>Authors:</td><td>khan f.; srivastava v.; kumar a.</td></tr><tr><td>Title:</td><td>epitope based peptide prediction from proteome of enterotoxigenic e.coli</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 24(2), 323-336</td></tr><tr><td>Year:</td><td>2018</td></tr></table>",
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				"label": "verma s. (2018)",
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				"id": 338,
				"label": "ahmad s. (2018)",
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				"label": "goodswen s.j. (2018)",
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				"id": 341,
				"label": "nagpal g. (2018)",
				"description": "<table><tr><td>Authors:</td><td>nagpal g.; usmani s.s.; raghava g.p.s.</td></tr><tr><td>Title:</td><td>a web resource for designing subunit vaccine against major pathogenic species of bacteria</td></tr><tr><td>Source:</td><td>frontiers in immunology, 9(oct)</td></tr><tr><td>Year:</td><td>2018</td></tr></table>",
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				"label": "bidmos f.a. (2018b)",
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				"id": 343,
				"label": "validi m. (2018)",
				"description": "<table><tr><td>Authors:</td><td>validi m.; karkhah a.; prajapati v.k.; nouri h.r.</td></tr><tr><td>Title:</td><td>immuno-informatics based approaches to design a novel multi epitope-based vaccine for immune response reinforcement against leptospirosis</td></tr><tr><td>Source:</td><td>molecular immunology, 104, 128-138</td></tr><tr><td>Year:</td><td>2018</td></tr></table>",
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				"label": "ain q.u. (2018)",
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				"label": "dikhit m.r. (2018)",
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				"label": "vakili b. (2018b)",
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				"id": 348,
				"label": "solanki v. (2018)",
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				"label": "baarda b.i. (2018)",
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				"label": "tomazic m.l. (2018)",
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				"label": "sánchez-ramón s. (2018)",
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				"id": 352,
				"label": "baker s.j. (2018)",
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				"label": "rashid m.i. (2019)",
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				"label": "zaharieva n. (2019)",
				"description": "<table><tr><td>Authors:</td><td>zaharieva n.; dimitrov i.; flower d.r.; doytchinova i.</td></tr><tr><td>Title:</td><td>vaxijen dataset of bacterial immunogens: an update</td></tr><tr><td>Source:</td><td>current computer-aided drug design, 15(5), 398-400</td></tr><tr><td>Year:</td><td>2019</td></tr></table>",
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				"label": "rogovskyy a.s. (2019)",
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				"label": "mujawar s. (2019)",
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				"label": "zeb s. (2019)",
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				"label": "kumar a. (2019)",
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				"label": "jain r. (2019)",
				"description": "<table><tr><td>Authors:</td><td>jain r.; singh s.; verma s.; jain a.</td></tr><tr><td>Title:</td><td>genome-wide prediction of potential vaccine candidates for campylobacter jejuni using reverse vaccinology</td></tr><tr><td>Source:</td><td>interdisciplinary sciences: computational life sciences, 11(3), 337-347</td></tr><tr><td>Year:</td><td>2019</td></tr></table>",
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				"label": "gupta n. (2019)",
				"description": "<table><tr><td>Authors:</td><td>gupta n.; khan f.; kumar a.</td></tr><tr><td>Title:</td><td>exploring highly antigenic protein of campylobacter jejuni for designing epitope based vaccine: immunoinformatics approach</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 25(3), 1159-1172</td></tr><tr><td>Year:</td><td>2019</td></tr></table>",
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				"label": "nosrati m. (2020)",
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				"label": "chakraborty s. (2020)",
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				"label": "soltan m.a. (2020)",
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				"id": 424,
				"label": "foroutan m. (2020)",
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				"label": "ismail s. (2020)",
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				"label": "ullah m.a. (2020)",
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				"label": "león y. (2020)",
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				"label": "fernández-prada m. (2020)",
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				"label": "fiuza t.s. (2020)",
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				"label": "qamar m.t.u. (2020)",
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				"url": "https://doi.org/10.3390/vaccines8020288",
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				"label": "hashemzadeh p. (2020)",
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				"label": "de la torre e.p. (2020)",
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				"id": 439,
				"label": "santoni d. (2020)",
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				"id": 440,
				"label": "fereshteh s. (2020)",
				"description": "<table><tr><td>Authors:</td><td>fereshteh s.; abdoli s.; shahcheraghi f.; ajdary s.; nazari m.; badmasti f.</td></tr><tr><td>Title:</td><td>new putative vaccine candidates against acinetobacter baumannii using the reverse vaccinology method</td></tr><tr><td>Source:</td><td>microbial pathogenesis, 143</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"label": "kaushik v. (2020)",
				"description": "<table><tr><td>Authors:</td><td>kaushik v.</td></tr><tr><td>Title:</td><td>in silico identification of epitope-based peptide vaccine for nipah virus</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 26(2), 1147-1153</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"label": "g s.k. (2020)",
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				"label": "esmailnia e. (2020)",
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				"label": "shams n. (2020)",
				"description": "<table><tr><td>Authors:</td><td>shams n.; shakarami gandabeh z.; nazifi n.; forouharmehr a.; jaydari a.; rashidian e.</td></tr><tr><td>Title:</td><td>computational design of different epitope-based vaccines against salmonella typhi</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 26(3), 1527-1539</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"label": "gupta e. (2020)",
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				"label": "gupta n. (2020a)",
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				"label": "smiline girija a.s. (2020)",
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				"url": "https://doi.org/10.3389/fmicb.2020.02078",
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				"label": "tahir ul qamar m. (2020)",
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				"label": "pizza m. (2020)",
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				"label": "gupta n. (2020b)",
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				"label": "santos junior m.n. (2020)",
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				"description": "<table><tr><td>Authors:</td><td>imtiaz s.a.; saeed s.; munir s.; ashfaq u.a.</td></tr><tr><td>Title:</td><td>subtractive proteomics to identify targets for vaccine development against vancomycin-resistant</td></tr><tr><td>Source:</td><td>future microbiology, 15(18), 1723-1733</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"label": "ros-lucas a. (2020)",
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				"label": "vergni d. (2020)",
				"description": "<table><tr><td>Authors:</td><td>vergni d.; gaudio r.; santoni d.</td></tr><tr><td>Title:</td><td>the farther the better: investigating how distance from human self affects the propensity of a peptide to be presented on cell surface by mhc class i molecules, the case of trypanosoma cruzi</td></tr><tr><td>Source:</td><td>plos one, 15(12 december)</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"id": 470,
				"label": "dimitrov i. (2020)",
				"description": "<table><tr><td>Authors:</td><td>dimitrov i.; zaharieva n.; doytchinova i.</td></tr><tr><td>Title:</td><td>bacterial immunogenicity prediction by machine learning methods</td></tr><tr><td>Source:</td><td>vaccines, 8(4), 1-10</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
				"url": "https://doi.org/10.3390/vaccines8040709",
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				"id": 474,
				"label": "luo t. (2020)",
				"description": "<table><tr><td>Authors:</td><td>luo t.; patel j.g.; zhang x.; walker d.h.; mcbride j.w.</td></tr><tr><td>Title:</td><td>ehrlichia chaffeensis and e. canis hypothetical protein immunoanalysis reveals small secreted immunodominant proteins and conformation-dependent antibody epitopes</td></tr><tr><td>Source:</td><td>npj vaccines, 5(1)</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
				"url": "https://doi.org/10.1038/s41541-020-00231-1",
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				"label": "shiragannavar s. (2020b)",
				"description": "<table><tr><td>Authors:</td><td>shiragannavar s.; madagi s.; hosakeri j.; barot v.</td></tr><tr><td>Title:</td><td>in silico vaccine design against chlamydia trachomatis infection</td></tr><tr><td>Source:</td><td>network modeling analysis in health informatics and bioinformatics, 9(1)</td></tr><tr><td>Year:</td><td>2020</td></tr></table>",
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				"label": "machimbirike v.i. (2021)",
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				"label": "mustafa m.i. (2021)",
				"description": "<table><tr><td>Authors:</td><td>mustafa m.i.; shantier s.w.; abdelmageed m.i.; makhawi a.m.</td></tr><tr><td>Title:</td><td>epitope-based peptide vaccine against bombali ebolavirus viral protein 40: an immunoinformatics combined with molecular docking studies</td></tr><tr><td>Source:</td><td>informatics in medicine unlocked, 25</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "azazi a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>azazi a.; haron f.n.; chua k.h.; lim y.a.l.; lee p.c.; chew c.h.</td></tr><tr><td>Title:</td><td>bioinformatics characterization of plasmodium knowlesi apical membrane antigen 1 (pkama1) for multi-epitope vaccine design</td></tr><tr><td>Source:</td><td>tropical biomedicine, 38(3), 265-275</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.47665/tb.38.3.067",
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				"label": "ambrose j.m. (2021)",
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				"label": "jia z. (2021)",
				"description": "<table><tr><td>Authors:</td><td>jia z.; gong w.; liang y.; wu x.; zhao w.</td></tr><tr><td>Title:</td><td>prediction and analyses of hla-ii restricted mycobacterium tuberculosis cd4+ t cell epitopes in the chinese population</td></tr><tr><td>Source:</td><td>biotechnology and applied biochemistry</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 496,
				"label": "jena m. (2021)",
				"description": "<table><tr><td>Authors:</td><td>jena m.; kumar v.; kancharla s.; kolli p.</td></tr><tr><td>Title:</td><td>reverse vaccinology approach towards the in-silico multiepitope vaccine development against sars-cov-2</td></tr><tr><td>Source:</td><td>f1000research, 10</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "xie j. (2021)",
				"description": "<table><tr><td>Authors:</td><td>xie j.; zi w.; li z.; he y.</td></tr><tr><td>Title:</td><td>ontology-based precision vaccinology for deep mechanism understanding and precision vaccine development</td></tr><tr><td>Source:</td><td>current pharmaceutical design, 27(7), 900-910</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "woolums a.r. (2021)",
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				"id": 500,
				"label": "ma c. (2021)",
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				"id": 502,
				"label": "ismail m. (2021)",
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				"label": "shankar u. (2021)",
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				"label": "enayatkhani m. (2021)",
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				"label": "rappuoli r. (2021)",
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				"label": "wang w. (2021)",
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				"label": "martín-galiano a.j. (2021)",
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				"label": "remmel j.l. (2021)",
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				"id": 523,
				"label": "lathwal a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>lathwal a.; kumar r.; raghava g.p.s.</td></tr><tr><td>Title:</td><td>in-silico identification of subunit vaccine candidates against lung cancer-associated oncogenic viruses</td></tr><tr><td>Source:</td><td>computers in biology and medicine, 130</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "srivastava s. (2021)",
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				"label": "mahmood m.s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>mahmood m.s.; bin-t-abid d.; irshad s.; batool h.</td></tr><tr><td>Title:</td><td>analysis of putative epitope candidates of mycobacterium tuberculosis against pakistani human leukocyte antigen background: an immunoinformatic study for the development of future vaccine</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(1), 597-614</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "joshi a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>joshi a.; kaushik v.</td></tr><tr><td>Title:</td><td>in-silico proteomic exploratory quest: crafting t-cell epitope vaccine against whipple’s disease</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(1), 169-179</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 529,
				"label": "couto j. (2021)",
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				"id": 530,
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				"id": 531,
				"label": "sohail m.s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>sohail m.s.; ahmed s.f.; quadeer a.a.; mckay m.r.</td></tr><tr><td>Title:</td><td>in silico t cell epitope identification for sars-cov-2: progress and perspectives</td></tr><tr><td>Source:</td><td>advanced drug delivery reviews, 171, 29-47</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "mcconnell m.j. (2021)",
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				"url": "https://doi.org/10.3389/fimmu.2021.666742",
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				"label": "artenstein a.w. (2021)",
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				"url": "https://doi.org/10.1016/j.vaccine.2021.03.024",
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				"label": "azim k.f. (2021)",
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			{
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				"label": "tahir ul qamar m. (2021a)",
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				"label": "hwang w. (2021)",
				"description": "<table><tr><td>Authors:</td><td>hwang w.; lei w.; katritsis n.m.; macmahon m.; chapman k.; han n.</td></tr><tr><td>Title:</td><td>current and prospective computational approaches and challenges for developing covid-19 vaccines</td></tr><tr><td>Source:</td><td>advanced drug delivery reviews, 172, 249-274</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 539,
				"label": "uversky v.n. (2021)",
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				"id": 540,
				"label": "soltan m.a. (2021)",
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				"id": 541,
				"label": "zeb a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>zeb a.; ali s.s.; azad a.k.; safdar m.; anwar z.; suleman m.; nizam-uddin n.; khan a.; wei d.-q.</td></tr><tr><td>Title:</td><td>genome-wide screening of vaccine targets prioritization and reverse vaccinology aided design of peptides vaccine to enforce humoral immune response against campylobacter jejuni</td></tr><tr><td>Source:</td><td>computers in biology and medicine, 133, 104412</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1016/j.compbiomed.2021.104412",
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				"label": "ellul r.m. (2021)",
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				"id": 543,
				"label": "sanami s. (2021a)",
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				"label": "solanki v. (2021b)",
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				"description": "<table><tr><td>Authors:</td><td>ma j.; qiu j.; wang s.; ji q.; xu d.; wang h.; wu z.; liu q.</td></tr><tr><td>Title:</td><td>a novel design of multi-epitope vaccine against helicobacter pylori by immunoinformatics approach</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(2), 1027-1042</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "ezzemani w. (2021)",
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				"label": "rahmat ullah s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>rahmat ullah s.; majid m.; rashid m.i.; mehmood k.; andleeb s.</td></tr><tr><td>Title:</td><td>immunoinformatics driven prediction of multiepitopic vaccine against klebsiella pneumoniae and mycobacterium tuberculosis coinfection and its validation via in silico expression</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(2), 987-999</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 548,
				"label": "flórez m.m. (2021)",
				"description": "<table><tr><td>Authors:</td><td>flórez m.m.; rodríguez r.; cabrera j.a.; robledo s.m.; delgado g.</td></tr><tr><td>Title:</td><td>leishmania spp epitopes in humans naturally resistant to the disease: working toward a synthetic vaccine</td></tr><tr><td>Source:</td><td>frontiers in cellular and infection microbiology, 11</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 549,
				"label": "tahir ul qamar m. (2021b)",
				"description": "<table><tr><td>Authors:</td><td>tahir ul qamar m.; ismail s.; ahmad s.; mirza m.u.; abbasi s.w.; ashfaq u.a.; chen l.-l.</td></tr><tr><td>Title:</td><td>development of a novel multi-epitope vaccine against crimean-congo hemorrhagic fever virus: an integrated reverse vaccinology, vaccine informatics and biophysics approach</td></tr><tr><td>Source:</td><td>frontiers in immunology, 12</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.3389/fimmu.2021.669812",
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				"id": 550,
				"label": "cao h. (2021)",
				"description": "<table><tr><td>Authors:</td><td>cao h.; xu h.; ning c.; xiang l.; ren q.; zhang t.; zhang y.; gao r.</td></tr><tr><td>Title:</td><td>multi-omics approach reveals the potential core vaccine targets for the emerging foodborne pathogen campylobacter jejuni</td></tr><tr><td>Source:</td><td>frontiers in microbiology, 12</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.3389/fmicb.2021.665858",
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				"id": 552,
				"label": "li j. (2021)",
				"description": "<table><tr><td>Authors:</td><td>li j.; qiu j.; huang z.; liu t.; pan j.; zhang q.; liu q.</td></tr><tr><td>Title:</td><td>reverse vaccinology approach for the identifications of potential vaccine candidates against salmonella</td></tr><tr><td>Source:</td><td>international journal of medical microbiology, 311(5)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1016/j.ijmm.2021.151508",
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				"label": "nogueira w.g. (2021)",
				"description": "<table><tr><td>Authors:</td><td>nogueira w.g.; jaiswal a.k.; tiwari s.; ramos r.t.j.; ghosh p.; barh d.; azevedo v.; soares s.c.</td></tr><tr><td>Title:</td><td>computational identification of putative common genomic drug and vaccine targets in mycoplasma genitalium</td></tr><tr><td>Source:</td><td>genomics, 113(4), 2730-2743</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1016/j.ygeno.2021.06.011",
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				"id": 555,
				"label": "ong e. (2021)",
				"description": "<table><tr><td>Authors:</td><td>ong e.; cooke m.f.; huffman a.; xiang z.; wong m.u.; wang h.; seetharaman m.; valdez n.; he y.</td></tr><tr><td>Title:</td><td>vaxign2: the second generation of the first web-based vaccine design program using reverse vaccinology and machine learning</td></tr><tr><td>Source:</td><td>nucleic acids research, 49(w1), w671-w678</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1093/nar/gkab279",
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			{
				"id": 557,
				"label": "solanki v. (2021c)",
				"description": "<table><tr><td>Authors:</td><td>solanki v.; tiwari m.; tiwari v.</td></tr><tr><td>Title:</td><td>subtractive proteomic analysis of antigenic extracellular proteins and design a multi-epitope vaccine against staphylococcus aureus</td></tr><tr><td>Source:</td><td>microbiology and immunology, 65(8), 302-316</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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			{
				"id": 560,
				"label": "wisnewski a.v. (2021)",
				"description": "<table><tr><td>Authors:</td><td>wisnewski a.v.; redlich c.a.; liu j.; kamath k.; abad q.-a.; smith r.f.; fazen l.; santiago r.; luna j.c.; martinez b.; baum-jones e.; waitz r.; haynes w.a.; shon j.c.</td></tr><tr><td>Title:</td><td>immunogenic amino acid motifs and linear epitopes of covid-19 mrna vaccines</td></tr><tr><td>Source:</td><td>plos one, 16(9 september)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1371/journal.pone.0252849",
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			},
			{
				"id": 561,
				"label": "aslam m. (2021)",
				"description": "<table><tr><td>Authors:</td><td>aslam m.; shehroz m.; ali f.; zia a.; pervaiz s.; shah m.; hussain z.; nishan u.; zaman a.; afridi s.g.; khan a.</td></tr><tr><td>Title:</td><td>chlamydia trachomatis core genome data mining for promising novel drug targets and chimeric vaccine candidates identification</td></tr><tr><td>Source:</td><td>computers in biology and medicine, 136</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 562,
				"label": "ismail s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>ismail s.; shahid f.; khan a.; bhatti s.; ahmad s.; naz a.; almatroudi a.; tahir ul qamar m.</td></tr><tr><td>Title:</td><td>pan-vaccinomics approach towards a universal vaccine candidate against who priority pathogens to address growing global antibiotic resistance</td></tr><tr><td>Source:</td><td>computers in biology and medicine, 136</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 563,
				"label": "asmani f. (2021)",
				"description": "<table><tr><td>Authors:</td><td>asmani f.; khavari-nejad r.a.; salmanian a.h.; amani j.</td></tr><tr><td>Title:</td><td>in silico designing and immunogenic production of the multimeric cfab*st, cfae, ltb antigen as a peptide vaccine against enterotoxigenic escherichia coli</td></tr><tr><td>Source:</td><td>microbial pathogenesis, 158</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.1016/j.micpath.2021.105087",
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				"id": 566,
				"label": "zilch t.j. (2021)",
				"description": "<table><tr><td>Authors:</td><td>zilch t.j.; lee j.-j.; bressan g.c.; mcdonough s.p.; mohammed h.o.; divers t.j.; chang y.-f.</td></tr><tr><td>Title:</td><td>evaluation of new leptospiral antigens for the diagnosis of equine leptospirosis: an approach using pan-genomic analysis, reverse vaccinology and antigenic selection</td></tr><tr><td>Source:</td><td>equine veterinary journal, 53(5), 1025-1035</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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			},
			{
				"id": 567,
				"label": "pushkala s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>pushkala s.; seshayyan s.; bhajantri t.</td></tr><tr><td>Title:</td><td>the identification of synthetic peptide vaccine candidate against sars-cov-2/covid-19 through reverse vaccinology approach</td></tr><tr><td>Source:</td><td>biomedicine (india), 41(2), 375-381</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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			{
				"id": 568,
				"label": "tariq m.h. (2021)",
				"description": "<table><tr><td>Authors:</td><td>tariq m.h.; bhatti r.; ali n.f.; ashfaq u.a.; shahid f.; almatroudi a.; khurshid m.</td></tr><tr><td>Title:</td><td>rational design of chimeric multiepitope based vaccine (mebv) against human t-cell lymphotropic virus type 1: an integrated vaccine informatics and molecular docking based approach</td></tr><tr><td>Source:</td><td>plos one, 16(10 october)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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			{
				"id": 569,
				"label": "ullah a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>ullah a.; ahmad s.; ismail s.; afsheen z.; khurram m.; qamar m.t.u.; alsuhaymi n.; alsugoor m.h.; allemailem k.s.</td></tr><tr><td>Title:</td><td>towards a novel multi-epitopes chimeric vaccine for simulating strong immune responses and protection against morganella morganii</td></tr><tr><td>Source:</td><td>international journal of environmental research and public health, 18(20)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
				"url": "https://doi.org/10.3390/ijerph182010961",
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			},
			{
				"id": 570,
				"label": "göthel m. (2021)",
				"description": "<table><tr><td>Authors:</td><td>göthel m.; listek m.; messerschmidt k.; schlör a.; hönow a.; hanack k.</td></tr><tr><td>Title:</td><td>a new workflow to generate monoclonal antibodies against microorganisms</td></tr><tr><td>Source:</td><td>applied sciences (switzerland), 11(20)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 571,
				"label": "teahan b. (2021)",
				"description": "<table><tr><td>Authors:</td><td>teahan b.; ong e.; yang z.</td></tr><tr><td>Title:</td><td>identification of mycobacterium tuberculosis antigens with vaccine potential using a machine learning-based reverse vaccinology approach</td></tr><tr><td>Source:</td><td>vaccines, 9(10)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 573,
				"label": "allemailem k.s. (2021)",
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				"id": 574,
				"label": "chand y. (2021)",
				"description": "<table><tr><td>Authors:</td><td>chand y.; singh s.</td></tr><tr><td>Title:</td><td>prioritization of potential vaccine candidates and designing a multiepitope-based subunit vaccine against multidrug-resistant salmonella typhi str. ct18: a subtractive proteomics and immunoinformatics approach</td></tr><tr><td>Source:</td><td>microbial pathogenesis, 159</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"description": "<table><tr><td>Authors:</td><td>luo t.; patel j.g.; zhang x.; walker d.h.; mcbride j.w.</td></tr><tr><td>Title:</td><td>immunoreactive protein repertoires of ehrlichia chaffeensis and e. canis reveal the dominance of hypothetical proteins and conformation-dependent antibody epitopes</td></tr><tr><td>Source:</td><td>infection and immunity, 89(11)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "noori goodarzi n. (2021)",
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				"label": "beiranvand s. (2021)",
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				"label": "ullah h. (2021)",
				"description": "<table><tr><td>Authors:</td><td>ullah h.; mahmud s.; hossain m.j.; islam m.s.b.; kibria k.m.k.</td></tr><tr><td>Title:</td><td>immunoinformatic identification of the epitope-based vaccine candidates from maltoporin, fepa and ompw of shigella spp, with molecular docking confirmation</td></tr><tr><td>Source:</td><td>infection, genetics and evolution, 96</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "ma l. (2021)",
				"description": "<table><tr><td>Authors:</td><td>ma l.; li h.; lan j.; hao x.; liu h.; wang x.; huang y.</td></tr><tr><td>Title:</td><td>comprehensive analyses of bioinformatics applications in the fight against covid-19 pandemic</td></tr><tr><td>Source:</td><td>computational biology and chemistry, 95</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "kyei-barffour i. (2021)",
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				"label": "fadaka a.o. (2021)",
				"description": "<table><tr><td>Authors:</td><td>fadaka a.o.; sibuyi n.r.s.; martin d.r.; goboza m.; klein a.; madiehe a.m.; meyer m.</td></tr><tr><td>Title:</td><td>immunoinformatics design of a novel epitope-based vaccine candidate against dengue virus</td></tr><tr><td>Source:</td><td>scientific reports, 11(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "yousafi q. (2021)",
				"description": "<table><tr><td>Authors:</td><td>yousafi q.; amin h.; bibi s.; rafi r.; khan m.s.; ali h.; masroor a.</td></tr><tr><td>Title:</td><td>subtractive proteomics and immuno-informatics approaches for multi-peptide vaccine prediction against klebsiella oxytoca and validation through in silico expression</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(4), 2685-2701</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "rawal k. (2021)",
				"description": "<table><tr><td>Authors:</td><td>rawal k.; sinha r.; abbasi b.a.; chaudhary a.; nath s.k.; kumari p.; preeti p.; saraf d.; singh s.; mishra k.; gupta p.; mishra a.; sharma t.; gupta s.; singh p.; sood s.; subramani p.; dubey a.k.; strych u.; hotez p.j.; bottazzi m.e.</td></tr><tr><td>Title:</td><td>identification of vaccine targets in pathogens and design of a vaccine using computational approaches</td></tr><tr><td>Source:</td><td>scientific reports, 11(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "domingues l.n. (2021)",
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				"id": 592,
				"label": "yılmaz çolak ç. (2021)",
				"description": "<table><tr><td>Authors:</td><td>yılmaz çolak ç.</td></tr><tr><td>Title:</td><td>computational design of a multi-epitope vaccine against clostridium chauvoei: an immunoinformatics approach</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(4), 2639-2649</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 593,
				"label": "irum s. (2021)",
				"description": "<table><tr><td>Authors:</td><td>irum s.; andleeb s.; ali a.; rashid m.i.; majid m.</td></tr><tr><td>Title:</td><td>quest for novel preventive and therapeutic options against multidrug-resistant pseudomonas aeruginosa</td></tr><tr><td>Source:</td><td>international journal of peptide research and therapeutics, 27(4), 2313-2331</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 595,
				"label": "aguttu c. (2021)",
				"description": "<table><tr><td>Authors:</td><td>aguttu c.; okech b.a.; mukisa a.; lubega g.w.</td></tr><tr><td>Title:</td><td>screening and characterization of hypothetical proteins of plasmodium falciparum as novel vaccine candidates in the fight against malaria using reverse vaccinology</td></tr><tr><td>Source:</td><td>journal of genetic engineering and biotechnology, 19(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "shahid f. (2021)",
				"description": "<table><tr><td>Authors:</td><td>shahid f.; zaheer t.; ashraf s.t.; shehroz m.; anwer f.; naz a.; ali a.</td></tr><tr><td>Title:</td><td>chimeric vaccine designs against acinetobacter baumannii using pan genome and reverse vaccinology approaches</td></tr><tr><td>Source:</td><td>scientific reports, 11(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"label": "sanami s. (2021b)",
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				"label": "guo j.-y. (2021)",
				"description": "<table><tr><td>Authors:</td><td>guo j.-y.; liu i.-j.; lin h.-t.; wang m.-j.; chang y.-l.; lin s.-c.; liao m.-y.; hsu w.-c.; lin y.-l.; liao j.c.; wu h.-c.</td></tr><tr><td>Title:</td><td>identification of covid-19 b-cell epitopes with phage-displayed peptide library</td></tr><tr><td>Source:</td><td>journal of biomedical science, 28(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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				"id": 600,
				"label": "zai x. (2021)",
				"description": "<table><tr><td>Authors:</td><td>zai x.; yin y.; guo f.; yang q.; li r.; li y.; zhang j.; xu j.; chen w.</td></tr><tr><td>Title:</td><td>screening of potential vaccine candidates against pathogenic brucella spp. using compositive reverse vaccinology</td></tr><tr><td>Source:</td><td>veterinary research, 52(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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			{
				"id": 601,
				"label": "dar h.a. (2021)",
				"description": "<table><tr><td>Authors:</td><td>dar h.a.; ismail s.; waheed y.; ahmad s.; jamil z.; aziz h.; hetta h.f.; muhammad k.</td></tr><tr><td>Title:</td><td>designing a multi-epitope vaccine against mycobacteroides abscessus by pangenome-reverse vaccinology</td></tr><tr><td>Source:</td><td>scientific reports, 11(1)</td></tr><tr><td>Year:</td><td>2021</td></tr></table>",
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