Hemocyanin,

infrared, resonance Raman, and ultraviolet-visible spectroscopy should follow. Kinetic and thermodynamic information about the model complexes in comparison to that known for natural systems should be gathered. These concepts were updated in 1999 by Karlin, writing in reference 49. Model studies should provide reasonable bases for hypotheses about a biological structure and its reaction intermediates. Researchers should determine the model s competence in carrying out reactions that mimic metalloprotein chemistry. Using these methods and criteria, researchers may hope to exploit Cu-oxygen systems as practical dioxygen carriers or oxidation catalysts for laboratory and industrial purposes. 

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Copper is one of the twenty-seven elements known to be essential to humans (69—72) (see Mineral nutrients). The daily recommended requirement for humans is 2.5—5.0 mg (73). Copper is probably second only to iron as an oxidation catalyst and oxygen carrier in humans (74). It is present in many proteins, such as hemocyanin [9013-32-3] galactose oxidase [9028-79-9] ceruloplasmin [9031 -37-2] dopamine -hydroxylase, monoamine oxidase [9001-66-5] superoxide dismutase [9054-89-17, and phenolase (75,76). Copper aids in photosynthesis and other oxidative processes in plants. 

Liquid chromatography/mass spectrometry Lower limit of detection Limit of detection Limit of quantitation Florseshoe crab hemocyanin Liquid scintillation counting Matrix-assisted laser desorption/ ionization mass spectrometry m -Maleimidobenzoy 1-A -Hydroxysuccinimide 1 -Cyclohexyl-3-(2-Morptiolino-ethyl)carbodiimide rnetlio-/ -Toluenesulfonate (same as CDI)... 

A similar effect has been observed for alamethicin I and II, hemocyanin, antiamoebin I and other substances. Great interest in the behaviour of these substances was aroused by the fact that they represent simple models for ion channels in nerve cells. 

Ross, P. K., and E. I. Solomon. 1991. An Electronic Structural Comparison of Cooper-Peroxide Complexes of Relevance to Hemocyanin and Tyrosinase Active Sites. J. Am. Chem. Soc. 113, 3246. 

Dissolve the protein to be modified at a concentration of 1-10 mg/ml in 0.1 M sodium phosphate, pH 7.4. NaCl may be added to this buffer if desired. For the modification of keyhole limpet hemocyanin (KLH Thermo Fisher) as described by Staros et al., 1986, include 0.9 M NaCl to maintain the solubility of this high-molecular-weight protein. If lower or higher concentrations of the protein are used, adjust the amounts of the other reactants as necessary to maintain the correct molar ratios. 

The most common carrier proteins in use today are keyhole limpet hemocyanin (KLH MW 4.5 X 105 to 1.3 X 107), BSA (MW 67,000), aminoethylated (or cationized) BSA (cBSA), thyroglobulin (MW 660,000), ovalbumin (OVA MW 43,000), and various toxoid proteins, including tetanus toxoid and diphtheria toxoid. Other proteins occasionally used include myoglobin, rabbit serum albumin, immunoglobulin molecules (particularly IgG) from bovine or mouse sera, tuberculin purified protein derivative, and synthetic polypeptides such as poly-L-lysine and poly-L-glutamic acid. 

Bartel, A., and Campbell, D. (1959) Some immunochemical differences between associated and dissociate hemocyanin. Arch. Biochem. Biophys. 82, 2332. 

Hersckovits, T. (1988) Recent aspects of the subunit organization and dissociation of hemocyanins. 

Senozan, N. et al. (1981) Hemocyanin of the giant keyhold limpet, Megathura crenulata. In Invertebrate Oxygen Binding Proteins Structure, Active Sites, andFunction (J. Lamy, and J. Lamy, eds.), pp. 703-717. Dekker, New York. 

Truchot, J.P. and F. Boitel. 1992. In vitro and in vivo effects of copper on hemocyanin-02 binding in the shore crab, Carcinus maenas. Comp. Biochem. Physiol. 103C 339-343. 

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