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phloemmediated

Phloem-mediated describes processes that occur through the phloem, the vascular tissue in higher plants responsible for the translocation of organic nutrients, primarily sucrose, from photosynthetically active sources to sinks. In angiosperms, the phloem consists of sieve elements (sieve tubes) and companion cells, which collaborate to load, transport, and unload solutes. The conventional mechanism is the pressure-flow hypothesis, where osmotic gradients generate turgor pressure in source tissues that drives bulk flow through sieve tubes to sink tissues such as developing leaves, roots, tubers, or seeds. Phloem loading and unloading can be apoplastic or symplastic and involves specialized transport proteins and plasmodesmata regulation.

Phloem-mediated transport is not limited to sugars; it also distributes hormones, amino acids, minerals, RNAs, peptides,

In research and applied contexts, understanding phloem-mediated transport is important for crop yield and stress resilience.

and
even
viruses.
This
allows
rapid
systemic
signaling
of
developmental
cues
or
defense
responses.
For
example,
small
interfering
RNAs
and
transcriptional
regulators
can
move
through
the
phloem
to
coordinate
gene
expression
across
distant
organs,
while
salicylic
acid
and
other
signaling
molecules
contribute
to
systemic
acquired
resistance.
Phloem-mediated
communication
supports
processes
such
as
flowering,
metamorphosis
of
sink
strength,
drought
response,
and
pathogen
defense.
Studied
aspects
include
phloem
loading
strategies,
phloem
sap
composition,
and
methods
to
modify
long-distance
signaling
to
improve
carbohydrate
allocation
or
defense
readiness.
The
term
emphasizes
the
route
and
mechanism
of
movement
rather
than
the
tissue
of
origin
or
the
final
destination.