Immunome Research

Immunome Research
Open Access

ISSN: 1745-7580

+44-77-2385-9429

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.

  2024 2023 2022 2021 2020 2019 2018 2017

Total published articles

30 37 20 40 13 7 20 17

Conference proceedings

0 0 0 0 0 0 99 44

Citations received as per Google Scholar, other indexing platforms and portals

74 82 94 111 117 98 76 71
Journal total citations count 952
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 2019 13
Important citations (1540)

uslan v (2016) support vector machine-based fuzzy systems for quantitative prediction of peptide binding affinity.

homan ej (2015) supplemental material to: e jane homan and robert d bremel.

muthusamy k, gopinath k, nandhini d (2016) computational prediction of immunodominant antigenic regions & potential protective epitopes for dengue vaccination. indian journal of medical research 144: 587.

abelin jg, keskin db, sarkizova s, hartigan cr, zhang w, et al. (2017) mass spectrometry profiling of hla-associated peptidomes in mono-allelic cells enables more accurate epitope prediction. immunity 46: 315-326.

homan j, malone rw, darnell sj, bremel rd (2016) antibody mediated epitope mimicry in the pathogenesis of zika virus related disease. biorxiv.

uslan v, seker h (2015) the quantitative prediction of hla-b* 2705 peptide binding affinities using support vector regression to gain insights into its role for the spondyloarthropathies. inengineering in medicine and biology society (embc), 2015 37th annual international conference of the ieee pp: 7651-7654.

uslan v, seker h (2013) support vector-based fuzzy system for the prediction of mouse class i mhc peptide binding affinity. inbioinformatics and bioengineering (bibe), 2013 ieee 13th international conference pp: 1-4.

srivastava a, ghosh s, anantharaman n, jayaraman vk (2013) hybrid biogeography based simultaneous feature selection and mhc class i peptide binding prediction using support vector machines and random forests. journal of immunological methods 387: 284-292.

bremel rd, homan ej (2013) recognition of higher order patterns in proteins: immunologic kernels. plos one 8: e70115.

uslan v, seker h (2016) quantitative prediction of peptide binding affinity by using hybrid fuzzy support vector regression. applied soft computing 43: 210-221.

homan ej, bremel rd (2011) patterns of predicted t-cell epitopes associated with antigenic drift in influenza h3n2 hemagglutinin. plos one 6: e26711.

bremel rd, homan ej (2014) frequency patterns of t-cell exposed amino acid motifs in immunoglobulin heavy chain peptides presented by mhcs. frontiers in immunology 5: 541.

antunes da, rigo mm, silva jp, cibulski sp, sinigaglia m, et al. (2011) structural in silico analysis of cross-genotype-reactivity among naturally occurring hcv ns3-1073-variants in the context of hla-a* 02: 01 allele. molecular immunology 48: 1461-1467.

bremel rd, homan e (2010) an integrated approach to epitope analysis ii: a system for proteomic-scale prediction of immunological characteristics. immunome research 6: 8.

nicolaou g (2014) mechanisms of bacteria-mediated lipid droplet formation in macrophages (doctoral dissertation, university of leicester).

giangrande c, colarusso l, lanzetta r, molinaro a, pucci p, et al. (2013) innate immunity probed by lipopolysaccharides affinity strategy and proteomics. analytical and bioanalytical chemistry 405: 775-784.

Soudi s, zavaran-hosseini a, hassan zm, soleimani m, adegani fj, hashemi sm. comparative study of the effect of lps on the function of balb/c and c57bl/6 peritoneal macrophages. cell journal (yakhteh). 2013;15(1):45.

Lewkowicz n, klink m, mycko mp, lewkowicz p. neutrophil–cd4+ cd25+ t regulatory cell interactions: a possible new mechanism of infectious tolerance. immunobiology. 2013 apr 1;218(4):455-64.

Yan q, carmody rj, qu z, ruan q, jager j, mullican se, lazar ma, chen yh. nuclear factor-?b binding motifs specify toll-like receptor-induced gene repression through an inducible repressosome. proceedings of the national academy of sciences. 2012 aug 28;109(35):14140-5.

russier m (2013) cellules nk et fièvres hémorragiques virales: étude de leur rôle dans la mise en place des réponses immunes et dans la pathogenèse lors de l'infection par les virus lassa et ebola (doctoral dissertation, ecole normale supérieure de lyon-ens lyon).

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