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methylenedioxyphenyl

Methylenedioxyphenyl is a chemical descriptor for a phenyl ring bearing a methylenedioxy substituent, forming the benzodioxole moiety. The methylenedioxy group is a methylene (-CH2-) bridge that links two adjacent oxygen atoms on the ring, yielding a five-membered dioxole ring fused to the benzene, i.e., a 1,3-benzodioxole system. In practice, the substituent is often referred to as the 3,4-methylenedioxyphenyl motif when the benzodioxole ring is connected at adjacent positions on the phenyl ring.

Origins and occurrence: The benzodioxole ring can arise in natural products and can be prepared synthetically

Chemistry and properties: The methylenedioxyphenyl motif modulates the electronic distribution of the aromatic ring, often increasing

Safety and regulation: Benzodioxole-containing compounds have regulatory relevance in some contexts due to potential use as

by
cyclization
of
catechol
derivatives
with
formaldehyde
to
create
the
methylenedioxy
bridge.
The
motif
is
found
in
plant-derived
compounds
such
as
safrole
(5-allyl-1,3-benzodioxole)
and
piperonal
(3,4-methylenedioxybenzaldehyde).
It
also
serves
as
a
common
building
block
in
medicinal
chemistry
and
in
the
synthesis
of
various
synthetic
compounds,
including
derivatives
of
the
3,4-methylenedioxyphenyl
type
used
as
intermediates.
electron
density
and
influencing
reactivity
and
metabolic
pathways.
Substitutions
on
the
ring
can
yield
a
range
of
derivatives
with
differing
physical
and
chemical
properties.
precursors
in
drug
synthesis
and
concerns
about
safety
and
environmental
impact.
Researchers
distinguish
the
methylenedioxyphenyl
motif
from
illicit
substances
by
chemical
identity
and
proper
context.