The genetic basis for interindividual immune response variation to measles vaccine: new understanding and new vaccine approaches
about
Development of next-generation respiratory virus vaccines through targeted modifications to viral immunomodulatory genesSearching for the human genetic factors standing in the way of universally effective vaccinesImmune activation alters cellular and humoral responses to yellow fever 17D vaccineOptiType: precision HLA typing from next-generation sequencing data.Associations between single nucleotide polymorphisms in cellular viral receptors and attachment factor-related genes and humoral immunity to rubella vaccination.Evaluating associations between vaccine response and malnutrition, gut function, and enteric infections in the MAL-ED cohort study: methods and challengesThe genetic regulation of infant immune responses to vaccination.Profiling of measles-specific humoral immunity in individuals following two doses of MMR vaccine using proteome microarrays.Comparison of Human Neonatal and Adult Blood Leukocyte Subset Composition Phenotypes.Variability in Humoral Immunity to Measles Vaccine: New Developments.Association of Human Antibodies to Arabinomannan With Enhanced Mycobacterial Opsonophagocytosis and Intracellular Growth Reduction.High Concentrations of Measles Neutralizing Antibodies and High-Avidity Measles IgG Accurately Identify Measles Reinfection Cases.Tuberculosis Susceptibility and Vaccine Protection Are Independently Controlled by Host GenotypeIn Vivo Efficacy of Measles Virus Fusion Protein-Derived Peptides Is Modulated by the Properties of Self-Assembly and Membrane Residence.Associations between race, sex and immune response variations to rubella vaccination in two independent cohorts.The role of Toll-like receptor 4 polymorphisms in vaccine immune response.Distinct functional enrichment of transcriptional signatures in pigs with high and low IFN-gamma responses after vaccination with a porcine reproductive and respiratory syndrome virus (PRRSV).Measles vaccine: Past, present, and future.Genome-wide associations of CD46 and IFI44L genetic variants with neutralizing antibody response to measles vaccine.Immunoglobulin GM and KM genes and measles vaccine-induced humoral immunity.Genetically defined race, but not sex, is associated with higher humoral and cellular immune responses to measles vaccination.Comparison of neutralizing antibody titers against outbreak-associated measles genotypes (D4, H1 and B3) in Iran.Cytokine response patterns to complex biofilms by mononuclear cells discriminate patient disease status and biofilm dysbiosisMortality among recipients of the Merck V710 Staphylococcus aureus vaccine after postoperative S. aureus infections: an analysis of possible contributing host factors.The putative role of environmental aluminium in the development of chronic neuropathology in adults and children. How strong is the evidence and what could be the mechanisms involved?Outbreak of measles among persons with prior evidence of immunity, New York City, 2011.Differential miRNA expression in B cells is associated with inter-individual differences in humoral immune response to measles vaccination.Establishing Correlates of Protection for Vaccine Development: Considerations for the Respiratory Syncytial Virus Vaccine Field.Redefining priorities towards graded travel-related infectious disease research.Heritability of vaccine-induced measles neutralizing antibody titers.Live viral vaccines in immunocompromised patientsRabies Virus Antibodies from Oral Vaccination as a Correlate of Protection against Lethal Infection in Wildlife
P2860
Q26782411-31C18CEE-D315-43FB-9FA1-0548395F0948Q27007034-5C66515D-B723-4A04-871A-05CC2CB0789EQ28388716-3A3D8D67-1690-44A8-A0CE-13717BDC5086Q30843963-1F0169E8-9DA3-41B6-91B7-E04641633E7BQ33778981-FC2EFBD1-272C-4084-81E0-AE99EB23E003Q34378070-E63176C0-912B-4657-B4D3-90F0211F309BQ35037615-6DE024C7-2E9C-4867-BFEF-B4BCB1316DCFQ35232801-0259560C-61F8-42D2-9A88-D0AE5DE1B87AQ36127749-C1739326-6B69-406D-917F-EFAC5EF1E92AQ36373260-8ACA8A20-E6F2-41E5-8AC1-4277CC838C66Q37033066-1EB10560-0BD3-4B4E-82F3-03765B7970D2Q37163702-A3CBD5B8-303B-488D-835E-6691FAEAFA6FQ37270954-D7386F4D-3D9B-4ADC-B915-37E1812530F0Q37512939-93F8C685-3DC4-42ED-8892-27CE02E7A702Q37693231-BE7F9C35-A494-4C13-876D-07B14D4BD1E8Q38396207-6FD2E79C-1876-4392-869F-88C25D494722Q38441596-62CD678D-DEF6-48CF-ACEA-B6DED83BF7B4Q38560170-E5923C9E-C9C2-454A-B680-93A30B056F37Q38910093-A4170BC3-FF83-44D1-8CFE-6F4F0439B3E1Q38919962-E54F1400-5888-4B55-80F1-ABA6B86DE310Q38945450-3595B95B-35AA-45D9-BAEE-45A6F0654B83Q40517930-D1466371-6F4C-4424-8558-CFDD932D215FQ41001910-58C97F62-2595-4633-94BC-680FE9EEB64AQ41611973-C41A841D-0383-44D3-9EB3-EE6468012A42Q41689625-A99519E7-0F15-4E92-9043-6CF82846B605Q42226296-051DFEB9-4F6D-4B4D-A7D5-6619FC22DE09Q47547879-7BCAF77B-89D6-4C6B-A7AD-C4A63ACE266CQ47553316-A1127371-4458-465A-8AE3-5CC5043378F2Q47681827-817FF01F-519A-4EC4-9040-97C06338B7BBQ47892454-D25F45CE-7745-4826-9380-A9F82B10E938Q56765765-AF9505E8-B823-4313-97BE-87482769A093Q57152811-CE9894EB-3D41-441F-9268-21B63A2C436F
P2860
The genetic basis for interindividual immune response variation to measles vaccine: new understanding and new vaccine approaches
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
The genetic basis for interind ...... ing and new vaccine approaches
@ast
The genetic basis for interind ...... ing and new vaccine approaches
@en
type
label
The genetic basis for interind ...... ing and new vaccine approaches
@ast
The genetic basis for interind ...... ing and new vaccine approaches
@en
prefLabel
The genetic basis for interind ...... ing and new vaccine approaches
@ast
The genetic basis for interind ...... ing and new vaccine approaches
@en
P2093
P2860
P50
P356
P1476
The genetic basis for interind ...... ing and new vaccine approaches
@en
P2093
Richard B Kennedy
Robert M Jacobson
V Shane Pankratz
P2860
P356
10.1586/ERV.12.134
P577
2013-01-01T00:00:00Z