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>
> Dear microscopists,
>
> I'm looking for a reliable source of the FRET spectral overlap integral
> formula. I was unable to decipher it form the original Forster's paper
> (http://onlinelibrary.wiley.com/doi/10.1002/andp.19484370105/epdf). Most
> often I've encountered it in the form as on Wikipedia (https://en.wikipedia.
> org/wiki/F%C3%B6rster_resonance_energy_transfer), that is in wavelength
> units and lambda^4 factor. But in some papers (http://pubs.rsc.org/en/
> content/articlepdf/2013/cp/c3cp50173f), formula (4), it's in the wavenumber
> units and a nu^(-4) factor.
>
> The problem is the two formulas are mathematically incompatible (I believe).
> Given nu=1/lambda and the integral substitution rule (http://tutorial.math.
> lamar.edu/Classes/CalcI/SubstitutionRuleIndefinite.aspx) there should be
> another nu^(-2) "Jacobian", yielding nu^(-6). Or alternatively, if the "nu"-
> formula is correct, then a lambda^(-2) factor would lead to lambda^2 in the
> well know formula...
>
> To sum up, I believe either one or the other part of the formula (5.5) here
> (https://books.google.com/books?id=GXWAAQAAQBAJ&pg=PT117) is wrong. Btw, the
> same should apply to formula (5.6) in the same book (if the link does not
> work, it's "FRET - Förster Resonance Energy Transfer: From Theory to
> Applications"), as the two ways to normalize the spectrum are very
> different...
>
> I found one experimental paper in favor of the "lambda"-version (http://www.
> pnas.org/content/63/1/23.full.pdf), see fig 6. But can anyone point me
> towards the origin of the formula?
>
> Thanks, zdenek
>
>
>
>
> --
>
> Zdenek Svindrych, Ph.D.
>
> W.M. Keck Center for Cellular Imaging (PLSB 003)
>
> University of Virginia, Charlottesville, VA
>
> http://www.kcci.virginia.edu/
>
> tel: 434-982-4869
>
>