Immunome Research : Citations & Metrics Report
Articles published in Immunome Research have been cited by esteemed scholars and scientists all around the world. Immunome Research has got h-index 15, which means every article in Immunome Research has got 15 average citations.
Following are the list of articles that have cited the articles published in Immunome Research.
| 2021 | 2020 | 2019 | 2018 | |
|---|---|---|---|---|
Year wise published articles |
40 | 13 | 7 | 20 |
Year wise citations received |
111 | 109 | 84 | 74 |
| Journal total citations count | 817 |
| Journal impact factor | 9.00 |
| Journal 5 years impact factor | 10.13 |
| Journal cite score | 13.75 |
| Journal h-index | 15 |
| Journal h-index since 2018 | 13 |
Important citations (1540)
eberhardt m, lai x, tomar n, gupta s, schmeck b,et al. (2016) third-kind encounters in biomedicine: immunology meets mathematics and informatics to become quantitative and predictive. systems medicine pp: 135-179. |
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petrovsky n (2011) immunome research-five years on. immunome research 7: 1-4. |
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zhang y, mei h, wang q, xie j, lv j, et al. (2012) peptide binding specificities of hla-b* 5701 and b* 5801. science china life sciences 55: 818-825. |
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beisswanger e, deluca ds, blasczyk r, hahn u (2007) an ontology for major histocompatibility complex (mhc) alleles and molecules. inamia annual symposium proceedings, american medical informatics association. |
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greenbaum ja, vita r, zarebski l, emami h, sette a,et al. (2009) representing the immune epitope database in owl. the 12th annual bio-ontologies. |
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bradfield dj (2015) a prototype method and tool to facilitate knowledge sharing in the new product development process. |
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sette a, bui hh, sidney j, bourne p, buus s,et al. (2006) the immune epitope database and analysis resource. ininternational workshop on pattern recognition in bioinformatics. springer berlin heidelberg, pp: 126-132. |
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davies mn, guan p, blythe mj, salomon j, toseland cp, et bal. (2007) using databases and data mining in vaccinology. expert opinion on drug discovery 2: 19-35. |
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tomar n, de rk (2014) immunoinformatics: a brief review. immunoinformatics pp: 23-55. |
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deluca ds, beisswanger e, wermter j, horn pa, hahn u, et al. (2009) mahco: an ontology of the major histocompatibility complex for immunoinformatic applications and text mining. bioinformatics 25: 2064-2070. |
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almani m, raffaeli s, viderâ€shalit t, tsaban l, fishbain v, louzoun y. human selfâ€protein cd8+ tâ€cell epitopes are both positively and negatively selected. european journal of immunology. 2009 apr 1;39(4):1056-65. |
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günther s, hempel d, dunkel m, rother k, preissner r (2007) superhapten: a comprehensive database for small immunogenic compounds. nucleic acids research 35: d906-910. |
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garcia a, o’neill k, garcia lj, lord p, stevens r, et al. (2010) developing ontologies within decentralised settings. insemantic e-science. springer us, pp: 99-139. |
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davies v, vaughan k, damle r, peters b, sette a (2009) classification of the universe of immune epitope literature: representation and knowledge gaps. plos one 4: e6948. |
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kovjazin r, volovitz i, daon y, vider-shalit t, azran r,et al. (2011) signal peptides and trans-membrane regions are broadly immunogenic and have high cd8+ t cell epitope densities: implications for vaccine development. molecular immunology 48: 1009-1018. |
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diezâ€rivero cm, chenlo b, zuluaga p, reche pa (2010) quantitative modeling of peptide binding to tap using support vector machine. proteins: structure, function, and bioinformatics 78: 63-72. |
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kennedy r, poland ga (2007) tâ€cell epitope discovery for variola and vaccinia viruses. reviews in medical virology 17: 93-113. |
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salimi n, fleri w, peters b, sette a (2012) the immune epitope database: a historical retrospective of the first decade. immunology 137: 117-123. |
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salimi n, fleri w, peters b, sette a (2010) design and utilization of epitope-based databases and predictive tools. immunogenetics 62: 185-196. |
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moutaftsi m, tscharke dc, vaughan k, koelle dm, stern l, et al. (2010) uncovering the interplay between cd8, cd4 and antibody responses to complex pathogens. future microbiology 5: 221-239. |
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