Comprehensive characterization of the antibody responses to SARS-CoV-2 Spike protein finds additional vaccine-induced epitopes beyond those for mild infection
SARS-CoV-2 스파이크 단백질에 대한 항체 반응의 포괄적인 특성화는 경증 감염에 대한 것 이외의 추가 백신 유도 에피토프를 찾습니다.
Comparative Study
[키워드] Affect
affected
age
Alter
Analysis
antibodies
antibody
Antibody binding
antibody epitope
Antibody Response
Antigen
Bacteria
binding
C-terminal domain
cause
chair
changes in
complicate
Comprehensive
computing
conserved
Control
covariate
COVID-19
COVID-19 pandemic
disease
DNA fragment
dose
education
effective
epitope
Epitopes
escape
escape mutations
experiment
exposure to
faculty
FAM
feature
finding
focus
foundation
funding
fusion peptide
genetic code
help
Howard Hughe
Howard Hughes
Human
Humoral response
humoral responses
identify
immune
Immune escape
immune system
implication
individual
infect
infected individuals
Infection
Infrastructure
interfere
Laboratory
Lower
majority
mild infection
mRNA vaccination
mRNA vaccine
mutant
Mutation
mutations
NIH
not affect
not altered
occur
offered
overlapping
pandemic
pathway
Pathways
pattern
peptide
peptides
phage
phages
population level
portion
Principal component
principal component analysis
produced
producing
PROTECT
Protein
RBD
Region
regions
Research
residue
route
S1 subunit
S2 subunit
SARS-CoV-2
SARS-CoV-2 spike protein
Scholar
selected
severe disease
Severe infection
shape
small molecule
Small molecules
specific antibodies
specific protein
spike
Spike protein
spike-specific antibodies
Spike-specific antibody
Spread
stick
subsequent
Support
supported
target
the antibody
the antibody response
the RBD
the S1 subunit
the SARS-CoV-2
the Spike
the spike protein
thought
triggering
unique
vaccinated individual
vaccinated individuals
vaccination
Vaccine
Vaccine development
vaccine-induced antibodies
vaccine-induced antibody
variant
Variation
virus
was performed
while
wild-type
[DOI] 10.7554/eLife.73490 PMC 바로가기 [Article Type] Comparative Study
[DOI] 10.7554/eLife.73490 PMC 바로가기 [Article Type] Comparative Study