Ultra-violet Absorption of Genuine and Hydrolysed Protein

HAUROWITZ, FELIX; ASTRUP, TAGE

doi:10.1038/143118b0

Ultra-violet Absorption of Genuine and Hydrolysed Protein

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Published: 01 February 1939

Volume 143, pages 118–119, (1939)
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FELIX HAUROWITZ¹ &
TAGE ASTRUP¹

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Abstract

ACCORDING to the classical theory of protein structure, the carboxyl and amino groups found after hydrolytic splitting of a protein come from –CO–NH– bonds. According to the cyclol hypothesis (Wrinch¹), however, the free carboxyl and amino groups must be formed, during the splitting, from bonds of the structure >C(OH)–N<. The classical theory would predict on hydrolysis no great change in the absorption spectrum below 2400 A. because the CO groups of the amino acids and of the peptide bonds both are strongly absorbing in this region². On the other hand, the cyclol hypothesis would predict a greatly increased absorption because of the formation of new CO groups.

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References

Wrinch, D. M., NATURE, 139, 798, 972 (1937).
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Cf. Magill, M. A., Steiger, R. E., and Allen, A. J., Biochem. J., 31, 188 (1936).
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Biological Institute, Carlsberg Foundation, Copenhagen
FELIX HAUROWITZ & TAGE ASTRUP

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FELIX HAUROWITZ
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HAUROWITZ, F., ASTRUP, T. Ultra-violet Absorption of Genuine and Hydrolysed Protein. Nature 143, 118–119 (1939). https://doi.org/10.1038/143118b0

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Published: 01 February 1939
Issue Date: 21 January 1939
DOI: https://doi.org/10.1038/143118b0
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Ultra-violet Absorption of Genuine and Hydrolysed Protein

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Abstract

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Bleaching of solutions of chlorophylls a and b with blue and red light

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