Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(29), P. 19660 - 19666
Published: July 12, 2024
Late-stage
derivatization
of
drug-like
functional
groups
can
accelerate
drug
discovery
efforts
by
swiftly
exchanging
hydrogen-bond
donors
with
acceptors,
or
modulating
key
physicochemical
properties
like
logP,
solubility,
polar
surface
area.
A
proven
strategy
to
improve
ligand
potency
is
extend
the
displace
water
molecules
that
are
mediating
interactions
a
receptor.
Inspired
this
application,
we
developed
method
regioselectively
transmute
nitrogen
atom
from
pyridine
into
carbon
bearing
an
ester,
flexible
group
handle.
We
applied
variety
substituted
pyridines,
as
well
late-stage
transformation
FDA-approved
drugs.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(24)
Published: April 10, 2024
Abstract
The
skeletal
editing
of
azaarenes
through
insertion,
deletion,
or
swapping
single
atoms
has
recently
gained
considerable
momentum
in
chemical
synthesis.
Here,
we
describe
a
practical
strategy
using
vinylcarbenes
situ
generated
from
trifluoromethyl
vinyl
N
‐triftosylhydrazones,
leading
to
the
first
dearomative
pyrroles
carbon‐atom
insertion.
Furthermore,
depending
on
used
catalyst
and
substrate,
three
types
peripheral
reactions
are
also
disclosed:
α‐
γ‐selective
C−H
[3+2]
cycloaddition.
These
controllable
molecular
provide
powerful
platform
for
accessing
medicinally
relevant
CF
3
‐containing
‐heterocyclic
frameworks,
such
as
2,5‐dihydropyridines,
piperidines,
azabicyclo[3.3.0]octadienes,
allylated
readily
available
pyrroles.
Mechanistic
insights
experiments
density
functional
theory
(DFT)
calculations
shed
light
origin
substrate‐
catalyst‐controlled
chemo‐
regioselectivity
well
reaction
mechanism.
Chemical Society Reviews,
Journal Year:
2024,
Volume and Issue:
53(10), P. 4926 - 4975
Published: Jan. 1, 2024
In
search
for
the
perfect
wave(length).
This
review
is
dedicated
to
recent
efforts
in
development
of
visible
light
driven
photochemical
strategies
occurring
coloured
organic
compounds.
Organic Letters,
Journal Year:
2024,
Volume and Issue:
26(20), P. 4280 - 4285
Published: May 13, 2024
Reactions
that
change
the
identity
of
an
atom
within
a
ring
system
are
emerging
as
valuable
tools
for
site-selective
editing
molecular
structures.
Herein,
we
describe
expansion
underdeveloped
transformation
directly
converts
azaarene-derived
N-oxides
to
all-carbon
arenes.
This
transmutation
exhibits
good
functional
group
tolerance
and
replaces
N-oxide
moiety
with
either
unsubstituted,
substituted,
or
isotopically
labeled
carbon
atoms
in
single
laboratory
operation.
Organic Chemistry Frontiers,
Journal Year:
2024,
Volume and Issue:
11(14), P. 4041 - 4053
Published: Jan. 1, 2024
This
paper
primarily
focuses
on
the
editing
of
nitrogen
atoms,
encompassing
insertion
N,
substitution
C
with
and
utilization
15
N
in
place
14
for
construction
N-heterocycles.
Journal of the American Chemical Society,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 2, 2025
We
recently
reported
a
chiral
phosphoric
acid
(CPA)
catalyzed
enantioselective
photomediated
ring
contraction
of
piperidines
and
other
saturated
heterocycles.
By
extruding
single
heteroatom
from
ring,
this
transformation
builds
desirable
C(sp3)–C(sp3)
bonds
in
the
contracted
products;
however,
origins
enantioselectivity
remain
poorly
understood.
In
work,
has
been
explored
across
an
expanded
structurally
diverse
substrate
scope,
revealing
wide
range
enantioselectivities
(0–99%)
using
two
distinct
CPA
catalysts.
Mechanistic
investigations
support
rate-determining
excitation
that
generates
short-lived
achiral
intermediates
are
intercepted
by
enantiodetermining
closure.
The
effects
competitive
uncatalyzed
reactivity
light-driven
reversibility
closure
on
have
elucidated.
Statistical
models
were
built
regressing
scope
against
key
structural
features
products
for
both
resultant
suggested
factors
influence
response
each
catalyst
enabled
rational
modification
pharmaceutically
relevant
target
molecule
to
improve
enantioselectivity.
Finally,
density
functional
theory
(DFT)-based
transition
state
analysis
identified
noncovalent
interactions
with
correlated
unique
selectivity-relevant
uncovered
through
statistical
modeling.
Our
findings
not
only
offer
comprehensive
insight
into
system
but
should
also
aid
future
development
related
CPA-catalyzed
reactions.
Science Advances,
Journal Year:
2025,
Volume and Issue:
11(5)
Published: Jan. 29, 2025
Heteroarene
skeletal
editing
is
gaining
popularity
in
synthetic
chemistry.
Transmuting
single
atoms
generates
molecules
that
have
distinctly
varied
properties,
thereby
fostering
potent
molecular
exchanges
can
be
extensively
used
to
synthesize
functional
molecules.
Herein,
we
present
a
convenient
protocol
for
nitrogen-carbon
single-atom
transmutations
isoquinolines,
which
inspired
by
the
Wittig
reaction
and
enables
easy
access
substituted
naphthalene
derivatives.
The
uses
an
inexpensive
commercially
available
phosphonium
ylide
as
carbon
source
furnish
wide
range
of
naphthalenes.
key
success
this
transformation
formation
triene
intermediate
through
ring
opening,
undergoes
6π-electrocyclization
elimination
processes
afford
product.
Furthermore,
strategy
facile
synthesis
13
C-labeled
naphthalenes
using
CH
3
PPh
I
commercial
C
facilitates
modifying
directing
group
C─H
functionalization.
The Journal of Organic Chemistry,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 30, 2025
The
complicated
mechanism
makes
the
regiodivergent
rearrangement
of
ammonium
ylide
seem
to
be
out
reach.
Herein,
we
reported
a
gramine
well
controlled
by
substituents.
Density
functional
theory
studies
reveal
that
with
more
steric
hindrance
substituent
2-diazo-2-arylacetate
goes
through
stepwise
yield
both
kinetically
and
thermodynamically
preferred
[1,2]-rearrangement
product.
In
contrast,
less
ethyl
diazoacetate
concerted
generate
[2,3]-rearrangement
product,
which
is
favored
as
result
release
ring
strain
in
transition
state.
This
study
would
open
up
avenues
grasp
ylide,
will
promote
application
skeletal
editing
synthesis
complex
natural
products.
Accounts of Chemical Research,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 2, 2025
ConspectusDuring
the
past
few
years,
interest
among
organic
synthesis
practitioners
in
use
of
sulfonium
salts
has
exponentially
growth.
This
can
arguably
be
attributed
to
a
series
specific
factors:
(a)
The
recent
development
more
direct
and
efficient
protocols
for
these
species,
which
make
reagents
wide
structural
variety
easily
available
multigram
scale.
(b)
recognition
that
reactivity
resembles
hypervalent
iodine
compounds,
therefore,
they
used
as
effective
replacement
such
species
most
their
applications.
(c)
Their
intrinsic
thermal
stability
tolerance
air
moisture,
clearly
surpass
I(III)-reagents
analogue
reactivity,
facilitate
purification,
isolation
well-defined
storage,
safely
handling
on
larger
(d)
Finally,
possibility
further
functionalize
once
sulfur-containing
platform
been
incorporated.
Specifically,
this
last
synthetic
approach
is
not
trivial
when
working
with
I(III)-species
facilitates
access
no
counterpart
I(III)
realm.This
renewed
led
improvement
already
existing
transformations
well
discovery
unprecedented
ones;
particular,
by
incorporate
partners
traditional
cross-coupling
C–H
activation
steps
or
combine
them
modern
technologies
photocatalysis
electrosynthesis.
In
Account,
originally
prepared
our
laboratory
will
outlined
compared
I(III)-counterparts.
Some
are
now
commercially
available,
started
spread
widely
across
chemistry
community,
helping
speed
process
identification
potentially
bioactive
products
new
functionaliced
materials.
However,
challenges
still
remain.
characterized
an
optimal
balance
between
site-selectivity,
showing
broader
compatibility
toward
sensitive
functional
groups
need.
addition,
often
makes
necessary
(sophisticated)
catalysts
activate
latent
hidden
structures.
Although
priori
one
see
fact
disadvantage,
it
might
actually
decisive
harvest
full
potential
because
surely
preparation
operational
context
I(III)-chemistry.
If
becomes
true,
may
contribute
expediting
retrosynthetic
disconnections
that,
date,
impossible.
Accounts of Chemical Research,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 26, 2025
ConspectusN-Heterocycles
are
essential
in
pharmaceutical
engineering,
materials
science,
and
synthetic
chemistry.
Recently,
skeletal
editing,
which
involves
making
specific
point
changes
to
the
core
of
a
molecule
through
single-atom
insertion,
deletion,
or
transmutation,
has
gained
attention
for
its
potential
modify
complex
substrates.
In
this
context,
insertion
nitrogen
atoms
into
carbocycles
form
N-heterocycles
emerged
as
significant
research
focus
modern
chemistry
owing
novel
logic.
This
distinctive
retrosynthetic
approach
enables
late-stage
modification
molecular
skeletons
provides
different
pathway
synthesizing
multiply
substituted
N-heterocycles.
Nevertheless,
atom
proven
challenging
because
inherent
inertness
carbon-based
difficulty
cleaving
C-C
bonds.
Therefore,
selective
editing
remains
growing
field
Account
primarily
highlights
contributions
our
laboratory
active
acknowledges
key
from
other
researchers.
It
is
organized
two
sections
based
on
type
carbocycle.
The
first
section
explores
cycloalkenes.
Recent
Co-catalyzed
oxidative
azidation
strategies
have
enabled
cyclobutenes,
cyclopentenes,
cyclohexenes,
facilitating
synthesis
polysubstituted
pyridines,
been
conventionally
pyridine
cross-coupling.
subsequent
discovery
realm
arenes.
site-selective
stable
arenes
We
developed
method
intramolecular
benzene
rings
2-amino
biaryls
by
suppressing
competing
C-H
process
using
paddlewheel
dirhodium
catalyst.
addition,
address
issues
we
employed
arenols
substrates,
could
act
controlling
elements
editing.
reported
Cu-catalyzed
arenols,
proceeds
dearomative
azidation/aryl
migration
process,
enabling
incorporation
Inspired
result,
recently
extended
reaction
model
Fe-catalyst
facilitate
ring
contraction
nitrogen-inserted
product,
achieving
carbon-to-nitrogen
transmutation
arenols.
Various
polyaromatic
effectively
undergo
desired
atom's
presenting
considerable
various
applications
Account,
present
an
overview
achievements
reactions,
with
scopes,
mechanistic
features,
applications.
anticipate
that
will
provide
valuable
insights
propel
development
innovative
methodologies
both
N-heterocycle
synthesis.
