We've set ourself a new task for our monthly lab meetings - take one of the questions we're often asked by our users and answer it in less than five minutes, with no slides. Although most of it is stuff that we all know already, it's always good to have a refresher and it provides an opertunity to discuss how we explain things to users to make sure they get acurate and consistent information.
We'll be sharing some of these Flow Lab FAQs on this blog, first up:
What are Tandem Conjugates and what are their Pros and cons?
We'll be sharing some of these Flow Lab FAQs on this blog, first up:
What are Tandem Conjugates and what are their Pros and cons?
What are they?
Tandems are essentially
two fluorochromes chemically coupled together:
With single
fluorochromes we use a laser to excite the molecule to a higher excitation
state, then look at the energy given off as the molecule returns to its ground
state.
Tandem conjugates use
FRET (Förster, or fluorescence, Energy Resonance Transfer) so that the energy
emitted by the first fluorochrome (A, the donor dye) is passed to the second (B,
the acceptor dye). B is then excited to a higher state before dropping back
down and emitting energy that we can detect.
The Benefits:
The difference between
the excitation wavelength and the emission wavelength of a fluorochrome is
known as the Stokes Shift. The size of this shift is limited in single
fluorochromes but can be greatly increased by using a tandem. This means that
with limited excitation sources (lasers) you can make use of more of the visual
spectrum.
The Problems
No matter how efficient
the process of making a tandem, there will always be some residual fluorescence
from the donor dye. If a sample is stained with PE and PE-Cy7 antibodies it
will be impossible to tell the difference between that and the PE signal from
the tandem. Even worse, this changes over
time. Fortunately we can do something about this as we know it will happen. We
also need to take more care with the storage of tandem dyes as their emission
spectra will change over time.
Precautions To Take When Working with Tandem
Conjugates
Controls
Controls
Controls
·
When
using a tandem, ALWAYS have a single colour control
·
Always
use the exact same antibody in your control as in your panel.
o
Different
batches of tandems will always be slightly different so it is essential for
correct compensation that the exact same batch is used for the controls and the
sample.
o
If
your population is too rare or expressed at too low a level for a good control,
use beads instead of cells
·
Always
check the single control in the channels for its component parts to see donor emission.
·
Tandems
tend to be more photosensitive than single fluorochromes so need to be
protected from light during storage and during and after staining.
·
Tandems
are also more prone to fixation issues as fixation will always alter the
chemical structure of the dyes so make sure the controls and samples are
treated in the same way.
·
When
you get a new batch of a tandem, it’s a good idea to run it and look at the
spillover, e.g. PE-Cy7 spillover in the PE channel. Then follow this over time.
If the spillover starts to increase the efficiency of the FRET in the tandem is
probably becoming less.
·
The
name of most tandems makes it obvious what they are but that isn’t the case for
some newer fluorochromes. Eg. Brilliant Violet BV 605 is a tandem of BV421 and
Cy3.5 (all BV dyes above 605 are tandems). All the same precautions should be
taken with these less obvious tandems.
Kirsty
