Bridge-It®
S-Adenosyl Methionine (SAM) Fluorescence
Assay
Measuring
DNA-Binding Proteins and Their Ligands
Eukaryotic cells contain an estimated 3,000
sequence-specific DNA-binding proteins.
These important proteins, acting either
alone or in combination with a small molecule
co-regulator (ligand), control all aspects
of genomic DNA activity including gene expression,
DNA replication, and DNA repair. Mediomics
is applying its novel fluorescence assay
platform to develop in vitro assays
capable of rapidly and sensitively quantifying
DNA-binding proteins and their small molecule
co-regulators (ligands).
Fluorescence
Assay Platform Design
The common property of all sequence-specific
DNA-binding proteins is their ability to bind
with high affinity and specificity to a DNA
duplex containing a unique nucleotide sequence,
i.e., the DNA-binding site for the protein.
Mediomics’ novel assay platform relies
on this common characteristic. A DNA duplex
containing the sequence-specific DNA-binding
site for a given target protein is split into
two DNA “half-site” duplexes each
having a short single-stranded overhang. These
single-stranded extensions are short enough
so that in the absence of the target protein
little spontaneous re-association occurs.
When the target protein is present, however,
its high affinity for the full-length DNA
sequence will drive the re-association of
the two half-site DNA duplexes. This re-association
can be sensitively detected by incorporating
an appropriate fluorescence probe into each
one of the two DNA half-sites. The presence
of the DNA-binding protein is detected as
a change in fluorescence signal. A simple
variation of this basic platform design allows
a DNA-binding protein to function as a sensitive
biosensor for its specific small molecule
co-regulator (ligand) as represented schematically
below:
S-Adenosyl
Methionine
S-adenosyl methionine (also referred to as
SAM, SAMe or AdoMet) plays a crucial role
in the biological process of methylation in
all types of organisms. In the methylation
cycle, SAM serves as the donor of the methyl
group used in the covalent modification of
DNA and proteins. Variability in SAM levels
have been linked to the processes of aging,
numerous neurological and psychiatric disorders
including Alzheimer’s disease, depression,
HIV-related neurological dysfunction/dementia,
multiple sclerosis, Parkinson’s disease,
spinal cord degeneration, epilepsy, fibromyalgia,
migraine headaches, and also chronic liver
dysfunction, arteriosclerosis and cancer.
Currently, SAM is quantified using the high
pressure liquid chromatography (HPLC) method.
HPLC is time consuming, costly and, due to
the large amount of organic solvent required,
not environmentally friendly.
Bridge-It® S-Adenosyl Methionine
Fluorescence (SAM) Assay1,2
Mediomics Bridge-It® S-adenosyl methionine
(SAM) fluorescence assay method is based on
a combination of well-established fluorescence
measurement techniques and our patented new
assay platform design that utilizes DNA-binding
proteins as biosensors for their respective
small molecule co-regulators (ligands). The
affinity of the DNA sequence-specific MetJ
protein for its unique DNA-binding site is
greatly increased in the presence of its ligand,
S-adenosyl methionine. For this assay, the
MetJ consensus sequence was split into two
DNA “half-sites”. One half fragment
was labeled with fluorescein and the other
half fragment was labeled with Oyster®
645 fluorophore3,4. The relative amount of
SAM present in a test sample will influence
the amount of DNA-MetJ protein complex formation
in the assay. When this complex forms, it
brings the fluorescence labeled-DNA half-sites
into close proximity and causes a measurable
change (increase) in fluorescence signal emission
that can be readily measured using a microplate
reader (wavelength settings: absorption 485
nm; emission 665 nm). SAM concentrations in
test samples are then determined using a SAM
standard curve. The Bridge-It® SAM fluorescence
assay method exhibits highly desirable performance
characteristics including a high (>5:1)
signal to background (S/B) ratio, a broad
linear dynamic range (0.5 µM –
20 µM), and, a detection sensitivity
of 0.5 µM. This detection level (0.5
µM) is useful for quantifying SAM in
most test samples of interest including biological
fluids, cell culture and fermentation medium,
and extracts of tissues and cells.
In
contrast to the HPLC procedure, the Bridge-It®
SAM fluorescence assay method utilizes the
384 and 96-well microplate format. Thus, it
is ideally suited for the rapid, simultaneous
measurement of SAM levels in large numbers
of test samples. Also, this method is readily
adaptable to the high-throughput screening
platforms currently being used in drug discovery
research. In comparison with the HPLC procedure,
the Bridge-It® SAM fluorescence assay
method is:
Easy
Mix test sample or standard with the Assay
solution and incubate at ~25°C
Fast
Read fluorescent signal after 30 minutes of
incubation
Sensitive
Assay measures SAM at a lower limit of sensitivity
of 0.5 µM
(i.e., 50 pmol / well in a 96-well or 20 pmol
in a 384-well black microplate)
Flexible
Assay is adaptable to both low- and high-throughput
screening formats
Additional information on the Bridge-It®
S-adenosyl methionine fluorescence assay protocol
and product ordering information are available
on-line at www.mediomics.com.
