Contact Info

Mailing List

Human Hormones

Cardiac Markers

Cancer Markers

Plasma Proteins

Tissue Proteins

Enzymes/Biochemicals

Monoclonal Antibodies

Polyclonal Antibodies

Animal Hormones

Complete Listing

Diabetes

Technical Info

Literature

Custom Projects

Job Opportunities

External Links

Summary of Spectroscopic Techniques


Electron Spin Resonance Spectrophotometry

Principle:
Detection of magnetic moment associated with unpaired electrons
Main Uses:
Research on metalloproteins, particularly enzymes and changes in the environment of free radicals introduced into biological assemblies, e.g. membranes.

Flame (Emission and Absorption) Spectrophotometry

Principle:
Energy transitions of outer electrons of atoms after volatilization in a flame.
Main Uses:
Qualitative and quantitative analysis of metals, particularly in clinical biochemistry. Emission techniques are for routine determination of alkali metals. The absorption technique extends the range of metals that may be determined and the sensitivity.

Infra-red and Raman Spectrophotometry

Principle:
Atomic vibrations involving a change in dipole moment and a change in polarizability, respectivley.
Main Uses:
Qualitative analysis and fingerprinting of purified molecules of intermediate size. Mainly used in research.

Mass Spectrophotometry

Principle:
Determination of the abundance of positively ionized molecules and fragments.
Main Uses:
Qualitative analysis of small quantities of material (10-6 to 10-9 g), particularly in conjunction with gas liquid chromatography. Mailnly used in research, but has high potential for the rapid determination of the primary structure of peptides.

Nuclear Magnetic Resonance Spectrophotometry

Principle:
Detection of magnetic moment associated with an odd number of protons in an atomic nucleus.
Main Uses:
Research into the structure of organic molecules of molecular weight less than 20,000 daltons.

Spectrofluorimetry

Principle:
Absorbed radiation emitted at longer wavelengths.
Main Uses:
Routine qualitative and quantitative analysis, enzyme analysis and kinetics, and detection of changes in protein conformation. More sensitive at lower concentrations than visible and u.v. absorption spectrophotometry.

Ultra-violet and Visible Light Spectrophotometry

Principle:
Energy transitions of bonding and non-bonding outer electrons and molecules, usually delocalized electrons.
Main Uses:
Routine qualitative and quantitative biochemical analysis including a vast number of colorimetric assays. Enzyme analysis and kinetics. Difference spectra, turbidometry, and nephelometry.

- Top of Page