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Singlenucleotide

A single nucleotide is the basic building block of nucleic acids, consisting of a sugar molecule (deoxyribose in DNA or ribose in RNA), a phosphate group, and a nitrogenous base (adenine, thymine, cytosine, or guanine in DNA; adenine, uracil, cytosine, or guanine in RNA). The sugar and phosphate form the backbone of DNA and RNA, while the base carries the informational content through base pairing and sequence.

In DNA, nucleotides pair through hydrogen bonds: adenine with thymine and cytosine with guanine, enabling the

Single nucleotide polymorphisms (SNPs) are variations at a single nucleotide position among individuals. SNPs can occur

In research and biotechnology, single nucleotides are synthesized with precision, read by sequencing technologies, and manipulated

double
helix
structure.
In
RNA,
the
bases
pair
differently
in
structural
contexts,
with
adenine
pairing
with
uracil
and
cytosine
with
guanine
in
folded
molecules.
Beyond
information
storage,
nucleotides
function
as
monomers
for
the
polymers
that
encode,
transmit,
and
regulate
genetic
information,
and
as
energy
carriers
such
as
ATP,
GTP,
and
their
derivatives.
in
coding
regions,
potentially
changing
amino
acids
or
protein
function;
in
regulatory
regions,
they
can
influence
gene
expression;
or
in
noncoding
regions
with
other
effects.
Most
SNPs
have
no
overt
effect,
but
some
are
associated
with
traits
or
diseases
and
are
widely
used
in
genetic
mapping
and
association
studies.
by
genome-editing
methods.
Understanding
nucleotide
identity
and
variation
is
fundamental
to
genetics,
molecular
biology,
and
modern
genomics.