Angewandte Chemie,
Год журнала:
2024,
Номер
136(36)
Опубликована: Июнь 5, 2024
Abstract
Previous
N‐glycosylation
approaches
have
predominately
involved
acidic
conditions,
facing
challenges
of
low
stereoselectivity
and
limited
scope.
Herein,
we
introduce
a
radical
activation
strategy
that
enables
versatile
stereoselective
using
readily
accessible
glycosyl
sulfinate
donors
under
basic
conditions
exhibits
exceptional
tolerance
towards
various
N‐aglycones
containing
alkyl,
aryl,
heteroaryl
nucleobase
functionalities.
Preliminary
mechanistic
studies
indicate
pivotal
role
iodide,
which
orchestrates
the
formation
from
subsequent
generation
key
intermediate,
configurationally
well‐defined
is
subsequently
attacked
by
an
N‐aglycone
in
stereospecific
S
N
2
manner
to
give
desired
N‐glycosides.
An
alternative
route
involving
coupling
nitrogen‐centered
also
proposed,
affording
exclusive
1,2‐
trans
product.
This
novel
approach
promises
broaden
synthetic
landscape
N‐glycosides,
offering
powerful
tool
for
construction
complex
glycosidic
structures
mild
conditions.
Journal of the American Chemical Society,
Год журнала:
2024,
Номер
146(13), С. 9375 - 9384
Опубликована: Март 21, 2024
Catalytic
formation
of
a
regio-
and
enantioselective
C–F
bond
chiral
center
from
readily
available
alkenes
is
crucial
goal,
yet
it
continues
to
pose
significant
challenges
in
organic
synthesis.
Here,
we
report
the
regioselective
bonds
facilitated
by
NiH
catalysis
coordination
directing
strategy
that
enables
precise
hydrofluorination
both
terminal
internal
alkenes.
Notably,
have
optimized
this
methodology
achieve
high
enantioselectivity
creating
aliphatic
stereogenic
centers
especially
with
β,γ-alkenyl
substrates,
using
tailored
Bn-BOx
ligand.
Another
pivotal
finding
our
research
identification
(+)-nonlinear
effect
under
conditions,
allowing
for
even
moderately
enantiomerically
enriched
ligands.
Given
role
fluorine
pharmaceuticals
synthetic
materials,
offers
essential
insights
into
centers,
paving
way
efficient
production
valuable
fluorinated
compounds.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Июнь 19, 2024
Abstract
C-
1
Glycals
serve
as
pivotal
intermediates
in
synthesizing
diverse
C
-glycosyl
compounds
and
natural
products,
necessitating
the
development
of
concise,
efficient
user-friendly
methods
to
obtain
glycosides
is
essential.
The
Suzuki-Miyaura
cross-coupling
glycal
boronates
notable
for
its
reliability
non-toxic
nature,
but
donor
stability
remains
a
challenge.
Herein,
we
achieve
significant
breakthrough
by
developing
stable
boronates,
effectively
overcoming
issue
glycal-based
Suzuki–Miyaura
coupling.
Leveraging
balanced
reactivity
our
establish
robust
palladium-catalyzed
reaction,
facilitating
formation
various
C(
sp
2
)-C(
),
3
)
bonds
under
mild
conditions.
Notably,
expand
upon
this
achievement
DNA-compatible
reaction
synthesize
glycal-DNA
conjugates.
With
excellent
reactivity,
stability,
generality,
ease
handling,
method
holds
promise
widespread
appication
preparation
products.
Abstract
Low‐valent
chromium
catalysts
are
cheap
and
less
toxic
compared
to
other
transition
metal
catalysts.
Here
in,
we
reported
a
ligand‐free
chromium(III)‐catalyzed
manganese
reductive
cross‐coupling
of
unactivated
alkyl
electrophiles,
such
as
sulfonates
chlorides,
with
trisulfide
dioxides
thiolation
agents
form
carbon−sulfur
bonds.
The
powerful
method
featured
ample
substrate
scope
wide
functional
group
tolerance,
constructing
large
number
unsymmetrical
disulfides
under
simple
conditions.
Journal of the American Chemical Society,
Год журнала:
2024,
Номер
146(21), С. 14445 - 14452
Опубликована: Май 13, 2024
Transition-metal-catalyzed
C–Si/Ge
cross-coupling
offers
promising
avenues
for
the
synthesis
of
organosilanes/organogermanes,
yet
it
is
fraught
with
long-standing
challenges.
A
Ni/Ti-catalyzed
strategy
reported
here,
allowing
use
disubstituted
malononitriles
as
tertiary
C(sp3)
coupling
partners
to
couple
chlorosilanes
and
chlorogermanes,
respectively.
This
method
enables
catalytic
cleavage
C(sp3)–CN
bond
quaternary
carbon
followed
by
formation
C(sp3)–Si/C(sp3)–Ge
bonds
from
ubiquitously
available
starting
materials.
The
efficiency
generality
are
showcased
a
broad
scope
both
partners,
therefore
holding
potential
synthesize
structurally
diverse
organosilanes
organogermanes
that
were
difficult
access
previously.
ACS Catalysis,
Год журнала:
2024,
Номер
14(15), С. 11532 - 11544
Опубликована: Июль 19, 2024
Glycosyl
donor
activation
emerged
as
an
enabling
technology
for
anomeric
functionalization,
but
aimed
primarily
at
O-glycosylation.
In
contrast,
we
herein
disclose
mechanistically
distinct
electrochemical
glycosyl
bromide
activations
via
halogen-atom
transfer
and
C-glycosylation.
The
radical
addition
to
alkenes
led
C-alkyl
glycoside
synthesis
under
precious
metal-free
reaction
conditions
from
readily
available
bromides.
robustness
of
our
e-XAT
strategy
was
further
mirrored
by
C-aryl
C-acyl
glycosides
assembly
through
nickela-electrocatalysis.
Our
approach
provides
orthogonal
with
expedient
scope,
hence
representing
a
general
method
direct
C-glycosides
assembly.
The Chemical Record,
Год журнала:
2024,
Номер
unknown
Опубликована: Сен. 17, 2024
Abstract
The
transition
metal
catalyzed
coupling
reaction
has
revolutionized
the
strategies
for
forging
carbon‐carbon
bonds.
In
contrast
to
traditional
cross‐coupling
methods
using
pre‐prepared
nucleophilic
organometallic
reagents,
reductive
reactions
C−C
bonds
formation
provide
some
advantages.
Because
both
partners
are
reduced
in
final
products
a
stoichiometric
amount
of
reductant,
this
approach
not
only
avoids
need
use
sensitive
species,
but
also
provides
an
orthogonal
and
complementary
access
classical
reaction.
Notably,
feature
readily
available
fragments,
promote
good
step
economy,
exhibit
high
functional
group
tolerance
unique
chemoselectivity,
which
have
propelled
their
increasingly
popular
organic
synthesis.
recent
years,
due
low
price,
minimal
toxicity,
environmentally
benign
character,
iron‐catalyzed
garnered
significant
attention
from
synthetic
chemists
pharmacologists,
especially
coupling.
This
review
aims
insightful
overview
advances
reactions,
illustrate
possible
mechanisms.
Chemistry - A European Journal,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 23, 2024
Abstract
We
have
developed
radical
C‐glycosylation
using
photoexcitable
unprotected
glycosyl
borate.
The
direct
excitation
of
borate
under
visible
light
irradiation
enabled
the
generation
anomeric
without
any
photoredox
catalysts.
in
situ
generated
was
applicable
to
addition
such
as
Giese‐type
and
Minisci‐type
reaction
introduce
alkyl
heteroaryl
groups
at
position.
In
addition,
radical–radical
coupling
between
acyl
imidazolide
provided
C‐glycosides.
Precision Chemistry,
Год журнала:
2024,
Номер
2(11), С. 587 - 599
Опубликована: Июль 21, 2024
Nonclassical
C-glycosides,
distinguished
by
their
unique
glycosidic
bond
connection
mode,
represent
a
promising
avenue
for
the
development
of
carbohydrate-based
drugs.
However,
accessibility
nonclassical
C-glycosides
hinders
broader
investigations
into
structural
features
and
modes
action.
Herein,
we
present
first
example
Pd-catalyzed
stereospecific
glycosylation
anomeric
stannanes
with
aryl
or
vinyl
halides.
This
method
furnishes
desired
in
good
to
excellent
yields,
while
allowing
exclusive
control
configuration.
Of
significant
note
is
demonstration
generality
practicality
this
C-glycosylation
approach
across
more
than
50
examples,
encompassing
various
protected
unprotected
saccharides,
deoxy
sugars,
oligopeptides,
complex
molecules.
Furthermore,
biological
evaluation
indicates
that
modifications
drug
molecules
can
positively
impact
activity.
Additionally,
extensive
computational
studies
are
conducted
elucidate
rationale
behind
differences
reaction
reactivity,
unveiling
transmetalation
transition
state
containing
silver
(Ag)
within
six-membered
ring.
Given
its
remarkable
controllability,
predictability,
consistently
high
chemical
selectivity
stereospecificity
regarding
carbon
Z/E
configuration,
outlined
study
offers
solution
longstanding
challenge
accessing
stereocontrol.
