Reviews in Medical Microbiology,
Год журнала:
2023,
Номер
unknown
Опубликована: Дек. 1, 2023
The
world
is
standing
up
to
new
emergencies
caused
by
viral
infections.
These
strains
have
been
verified
be
the
causative
agents
of
pneumonia
diseases.
Coronavirus
disease
2019
(COVID-19)
infection
was
world's
most
recent
pandemic.
After
2
years
examining
its
warnings,
mechanisms,
and
improvement
second
third-generation
vaccines,
these
strategies
were
relatively
significant
against
it.
C
OVID
-19
gives
rise
multiple
variations
in
genetic
code
develop
numerous
exotic
variants
with
COVID-19
class.
Omicron
strain
a
vastly
dangerous
strain.
It
rapidly
spreading
strain,
bringing
de
novo
mutagenesis
mechanisms
into
spike
proteins
receptor-binding
domain.
well
known
mutations
perceive
that
vaccinations
attained
will
not
Omicron.
Our
work
reviews
mechanism
symptoms
after
infection,
immunogenicity
Omicron,
booster
dose
utilized
PLoS Pathogens,
Год журнала:
2023,
Номер
19(12), С. e1011901 - e1011901
Опубликована: Дек. 29, 2023
Substitutions
that
fix
between
SARS-CoV-2
variants
can
transform
the
mutational
landscape
of
future
evolution
via
epistasis.
For
example,
large
epistatic
shifts
in
effects
caused
by
N501Y
underlied
original
emergence
Omicron,
but
whether
such
saltations
continue
to
define
ongoing
remains
unclear.
We
conducted
deep
scans
measure
impacts
all
single
amino
acid
mutations
and
single-codon
deletions
spike
receptor-binding
domain
(RBD)
on
ACE2-binding
affinity
protein
expression
recent
Omicron
BQ.1.1
XBB.1.5
variants,
we
compared
patterns
earlier
viral
strains
have
previously
profiled.
As
with
previous
scans,
find
many
are
tolerated
or
even
enhance
binding
ACE2
receptor.
The
tolerance
sites
deletion
largely
conforms
mutation.
Though
RBD
not
yet
been
seen
dominant
lineages,
observe
including
at
positions
exhibit
indel
variation
across
broader
sarbecovirus
emerging
interest,
most
notably
well-tolerated
Δ483
BA.2.86.
substitutions
distinguish
induced
as
dramatic
perturbations
N501Y,
identify
drift
interaction
R493Q
reversions
453,
455,
456,
F456L
defines
XBB.1.5-derived
EG.5
lineage.
Our
results
highlight
due
epistasis,
which
may
direct
into
new
regions
sequence
space.
Deep
mutational
scanning
experiments
aid
in
the
surveillance
and
forecasting
of
viral
evolution
by
providing
prospective
measurements
effects
on
traits,
but
epistatic
shifts
impacts
mutations
can
hinder
when
were
made
outdated
strain
backgrounds.
Here,
we
report
impact
all
single
amino
acid
ACE2-binding
affinity
protein
folding
expression
SARS-CoV-2
Omicron
BA.2.86
spike
receptor-binding
domain.
As
with
other
variants,
find
a
plastic
evolvable
basis
for
receptor
binding,
many
at
ACE2
interface
maintaining
or
even
improving
affinity.
Despite
its
large
genetic
divergence,
have
not
diverged
greatly
from
those
measured
BA.2
ancestor.
However,
do
identify
strong
positive
epistasis
among
subsequent
that
accrued
descendants.
Specifically,
Q493E
mutation
decreased
previous
backgrounds
is
reversed
sign
to
enhance
human
coupled
L455S
F456L
currently
emerging
KP.3
variant.
Our
results
point
modest
degree
drift
during
recent
highlight
how
these
small
important
consequences
emergence
new
variants.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2023,
Номер
unknown
Опубликована: Сен. 12, 2023
Substitutions
that
fix
between
SARS-CoV-2
variants
can
transform
the
mutational
landscape
of
future
evolution
via
epistasis.
For
example,
large
epistatic
shifts
in
effects
caused
by
N501Y
underlied
original
emergence
Omicron
variants,
but
whether
such
saltations
continue
to
define
ongoing
remains
unclear.
We
conducted
deep
scans
measure
impacts
all
single
amino
acid
mutations
and
single-codon
deletions
spike
receptor-binding
domain
(RBD)
on
ACE2-binding
affinity
protein
expression
recent
BQ.1.1
XBB.1.5
we
compared
patterns
earlier
viral
strains
have
previously
profiled.
As
with
previous
RBD
scans,
find
many
are
tolerated
or
even
enhance
binding
ACE2
receptor.
The
tolerance
sites
deletion
largely
conforms
mutation.
Though
not
yet
been
seen
dominant
lineages,
observe
including
at
positions
exhibit
indel
variation
across
broader
sarbecovirus
emerging
interest,
most
notably
well-tolerated
Δ483
BA.2.86.
substitutions
distinguish
induced
as
dramatic
perturbations
N501Y,
identify
drift
interaction
R493Q
reversions
453,
455,
456,
like
F456L
newly
EG.5
lineage.
Our
results
highlight
due
epistasis,
which
may
direct
into
new
regions
sequence
space.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 24, 2024
Deep
mutational
scanning
experiments
aid
in
the
surveillance
and
forecasting
of
viral
evolution
by
providing
prospective
measurements
effects
on
traits,
but
epistatic
shifts
impacts
mutations
can
hinder
when
were
made
outdated
strain
backgrounds.
Here,
we
report
impact
all
single
amino
acid
ACE2-binding
affinity
protein
folding
expression
SARS-CoV-2
Omicron
BA.2.86
spike
receptor-binding
domain
(RBD).
As
with
other
variants,
find
a
plastic
evolvable
basis
for
receptor
binding,
many
at
ACE2
interface
maintaining
or
even
improving
affinity.
Despite
its
large
genetic
divergence,
have
not
diverged
greatly
from
those
measured
BA.2
ancestor.
However,
do
identify
strong
positive
epistasis
among
subsequent
that
accrued
descendants.
Specifically,
Q493E
mutation
decreased
previous
backgrounds
is
reversed
sign
to
enhance
human
coupled
L455S
F456L
currently
emerging
KP.3
variant.
Our
results
point
modest
degree
drift
during
recent
highlight
how
these
small
important
consequences
emergence
new
variants.
Journal of Virology,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 26, 2025
ABSTRACT
During
the
coronavirus
disease
2019
(COVID-19)
pandemic,
vast
majority
of
epitope
mapping
studies
have
focused
on
sera
from
mRNA-vaccinated
populations
high-income
countries.
In
contrast,
here,
we
report
an
analysis
164
serum
samples
isolated
patients
with
breakthrough
infection
in
India
during
early
2022
who
received
two
doses
ChAdOx
viral
vector
vaccine.
Sera
were
screened
for
neutralization
breadth
against
wild-type
(WT),
Kappa,
Delta,
and
Omicron
BA.1
viruses.
Three
highest
potency
selected
mapping,
using
charged
scanning
mutagenesis
coupled
yeast
surface
display
next-generation
sequencing.
The
mapped
primarily
targeted
recently
identified
class
5
cryptic
and,
to
a
lesser
extent,
1
4
epitopes.
is
completely
conserved
across
all
severe
acute
respiratory
syndrome
2
(SARS-CoV-2)
variants
most
sarbecoviruses.
Based
these
observations,
additional
26
characterized,
showed
broad
neutralizing
activity,
including
XBB.1.5.
This
contrast
results
obtained
individuals
receiving
multiple
original
updated
mRNA
vaccines,
where
impaired
XBB
later
concern
(VOCs)
observed.
Our
study
demonstrates
that
vaccine
highly
exposed
population
sufficient
drive
substantial
emerging
upcoming
concern.
These
data
highlight
important
role
hybrid
immunity
conferring
protection
inform
future
strategies
protect
rapidly
mutating
IMPORTANCE
Worldwide
implementation
vaccines
parallel
emergence
newer
shaped
humoral
immune
response
population-specific
manner.
While
characterizing
this
monitoring
progression
at
level,
it
also
imperative
developing
effective
countermeasures
form
novel
therapeutics.
has
implemented
world’s
second
largest
COVID-19
vaccination
encountered
large
number
post-vaccination
“breakthrough”
infections.
From
cohort
infection,
whose
broadly
different
SARS-CoV-2
variants.
Interestingly,
target
epitope,
which
was
not
previous
population-level
conducted
Western
rare
remains
variants,
emerged
ones
SARS-like
coronaviruses
may
cause
outbreaks,
thus
representing
potential
vaccines.
Advanced Science,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 26, 2025
Abstract
The
SARS‐CoV‐2
spike
(S)
protein,
a
trimeric
structure
comprising
three
receptor
binding
domains
(RBDs)
and
N‐terminal
(NTDs),
undergoes
substantial
conformational
changes
to
fusion‐prone
open
state
for
angiotensin‐converting
enzyme
2
(ACE2)
host
cell
infection.
Stabilizing
its
closed
is
key
antiviral
strategy
but
remains
challenging.
Here,
we
introduce
S416,
novel
amphipathic
molecule
acting
as
“molecular
bolt”.
Cryo‐EM
study
reveals
that
S416
binds
concurrently
six
sites
across
two
distinct
druggable
interfaces:
molecules
at
the
RBD‐RBD
interfaces
NTD‐RBD
interfaces.
This
unique
“dual‐locking”
mechanism,
driven
by
S416's
polar
carboxyl
head
nonpolar
phenylthiazole
tail,
robustly
stabilizes
trimer
in
locked,
conformation
through
strong
inter‐domain
interactions,
reducing
structural
flexibility
atomic
fluctuations
compared
apo
resolved
synchronously.
Crucially,
these
are
conserved
human‐infecting
coronaviruses,
suggesting
potential
broad‐spectrum
targets.
Our
findings
demonstrate
highly
dynamic
can
be
effectively
stabilized
an
molecular
bolt
targeting
both
inter‐
intra‐monomer
interfaces,
offering
promising
against
emerging
coronaviruses.
Microbiology Research,
Год журнала:
2024,
Номер
15(3), С. 1334 - 1345
Опубликована: Июль 27, 2024
Since
the
emergence
of
Severe
Acute
Respiratory
Syndrome
Coronavirus
2
(SARS-CoV-2),
viral
spike
protein
(S)
has
become
a
target
to
describe
appropriate
epitopes
for
vaccine
development
and
carry
out
epidemiological
surveillance,
especially
regarding
variants
concern
(VOCs).
This
study
aimed
evaluate
influence
mutations
on
physicochemical
properties
S
proteins
from
prototypical
SARS-CoV-2
VOCs
detected
in
Amazonian
countries.
Using
multiple
computational
tools,
seven
(B.1.1.7/P.1/B.1.617.2/BA.1/BA.2/BA.4/BA.5)
were
identified
compared
ancestral
lineage
virus
(B).
In
all
variants,
most
amino
acids
nonpolar;
among
polar
acids,
B.1.617.2/BA.1/BA.2/BA.4/BA.5
presented
slightly
higher
proportion
basic
residues
lower
neutral
residues.
Unlike
B.1.1.7/P.1/B.1.617.2,
BA.1/BA.2
had
greater
content
secondary
structures,
such
as
α-helices
β-sheets.
Regarding
post-translational
modifications,
BA.2/BA.4/BA.5
fewer
glycosylations
phosphorylations.
Finally,
more
prominent
antigenic
propensity
N-terminal
domain
receptor-binding
B.1.617.2/BA.4/BA.5
was
observed.
conclusion,
omicron
sequence
variability
other
VOCs,
influencing
structural
aspects
that
can
potentially
modulate
its
interaction
with
cellular
receptors
recognition
by
immune
system.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 8, 2024
Summary
During
the
COVID-19
pandemic,
vast
majority
of
epitope
mapping
studies
have
focused
on
sera
from
mRNA-vaccinated
populations
high-income
countries.
In
contrast,
here
we
report
an
analysis
164
serum
samples
isolated
breakthrough
infection
patients
in
India
during
early
2022
who
received
two
doses
ChAdOx
viral
vector
vaccine.
Sera
were
screened
for
neutralization
breadth
and
potency
against
wildtype,
Delta,
Omicron
BA.1
viruses
amongst
which
three
shortlisted
using
charged
scanning
mutagenesis.
These
majorly
targeted
recently
identified
class
5
cryptic
is
completely
conserved
across
all
SARS-CoV-2
variants
different
Sarbecoviruses.
Consistent
with
these
results,
show
broad
neutralizing
activity
recent
subvariants
including
XBB.1.5.
Our
study
demonstrates
that
vaccinations
vaccine
a
highly
exposed
population
are
sufficient
to
drive
substantial
emerging
future
concern.
PLoS Pathogens,
Год журнала:
2024,
Номер
20(11), С. e1012724 - e1012724
Опубликована: Ноя. 18, 2024
Over
the
course
of
COVID-19
pandemic,
variants
have
emerged
with
increased
mutations
and
immune
evasive
capabilities.
This
has
led
to
breakthrough
infections
(BTI)
in
vaccinated
individuals,
a
large
proportion
neutralizing
antibody
response
targeting
receptor
binding
domain
(RBD)
SARS-CoV-2
Spike
glycoprotein.
Immune
imprinting,
where
prior
exposure
system
an
antigen
can
influence
subsequent
exposures,
its
role
population
heterogenous
histories
important
implications
future
vaccine
design.
Here,
we
develop
accessible
approach
map
epitope
immunodominance
sera.
By
using
panel
mutant
proteins
pseudotyped
virus
neutralization
assay,
observed
distinct
usage
convalescent
donors
infected
during
wave
1,
or
Delta,
BA.1
variants,
highlighting
antigenic
diversity
variant
Spikes.
Analysis
longitudinal
serum
samples
taken
spanning
3
doses
infection,
showed
imprinting
from
ancestral-based
vaccine,
reactivation
existing
B
cells
elicited
by
resulted
enrichment
pre-existing
immunodominance.
However,
subtle
shifts
sera
were
following
BTI
Omicron
sub-lineage
variants.
Antigenic
distance
Spike,
time
after
last
exposure,
number
boosters
may
play
persistence
vaccine.
study
provides
insight
into
RBD
individuals
varying
for
design
vaccines.
