Bio-Rad BioLogic QuadTec™ Detector and Components User Manual
Page 54
APPENDIX B
WAVELENGTH SELECTION FOR TYPICAL BIOLOGICAL MOLECULES
Wave-
length
Absorbing Species
Applications
206 nm
Carboxyl groups,
Proteins, peptides,
ester links, amide or
amino acids,
peptide bonds
steroids,
nucleotides,
fatty acids,
carbohydrates
214 nm
Peptide bonds
Peptides, proteins
224 nm
Peptide bonds
Peptides, proteins
245 nm
Peptide bonds
Proteins in the
presence of Triton
X-100
254 nm
Nucleotides
Nucleotide bases,
260 nm
DNA, RNA
280 nm
Aromatic amino acids
Proteins
313 nm
Conjugated ring
Certain vitamins,
systems antibiotics
365 nm
Conjugated ring
Some steroids,
systems
NADH,NADPH,
flavoproteins,
bacteriochlorophylls
405 nm
Heme group
Myoglobin
550 nm
Cytochromes
WAVELENGTH SELECTION
APPENDIX B
B-1
Comments
Virtually all biological macromolecules will absorb
at this wavelength. Detection at this wavelength
will give high sensitivity and/or permit the
detection of compounds that don’t absorb at other
wavelengths. Some buffers cause a problem with
background absorbance.
This wavelength allows one to use many of the
buffers that might give problems at 206 nm and
yet yields much more sensitivity than 280 nm.
This wavelength detects any compound with
peptide bonds. It is less sensitive than lower
wavelengths but more sensitive than 280 nm; It is
used to overcome the interferences seen with
many buffers at 206 nm.
Triton X-100 absorbs strongly at 280 nm and may
mask true protein absorbance at that wavelength.
These are the best wavelengths for nucleic acids.
This is the traditional wavelength for protein
detection and therefore the most frequently used
by the biochemist. As aromatic amino acids
absorb best at this wavelength (i.e. tryptophan,
tyrosine, and phenylalanine), proteins with few of
these amino acids may not absorb as strongly as
expected.
Flavoproteins exhibit absorption maxima at 280 nm,
350–380nm and 450 nm. Reduction of the flavin
eliminates the absorption at 450 nm.
Reduced cytochrome c absorbs at 550 nm.