Walter E. Bernheimer

Graff, K.

doi:10.1002/asna.19372642007

Cited by 2 publications

(3 citation statements)

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“…The results given in Table 4 show that in Exp. 4 and 5 the mercaptide-S is greatly in excess of the non-methionine-S, assumed to be cystine-S, which amounts to 43.5 % of the total S. Under the conditions of (6) and especially of (7) the mercaptide-S approaches the expected value for cystine-S, though in the latter case the imercaptide-N is higher than the equivalence claimed by Graff et al [1937].…”

Section: Removal Of Cy8tine As Cuprou8 Mercaptide Priormentioning

confidence: 87%

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Critique of the Foreman method for the estimation of the dicarboxylic acids in protein hydrolysates

Bailey

Chibnall

Rees

et al. 1943

Biochemical Journal

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The lime-ethanol method of Foreman [1914a] for the estimation of aspartic and glutamic acids in the products of protein hydrolysis has found wide application, and in the hands 6f later workers has undergone various modifications in detail. Foreman recited the conditions that he considered necessary for the quantitative precipitation ofthe dicarboxylic acids as their Ca salts from the amino-acid mixture obtained by hydrolysing the protein with HCR. He * In a private communication to one of us (A. C. C.) Mr Foreman stated that in 1914 he was aware of the superior selectivity of the Ca salts and that his choice was deliberate. The contrary opinion of Town [1941] was based on experiments with gliadin, which contains very little basic-N.

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Section: Removal Of Cy8tine As Cuprou8 Mercaptide Priormentioning

confidence: 87%

“…(7) The procedure of Graff, Maculla & Graff [1937] was employed. The hydrolysate was first reduced with Zn and HCI, adjusted to pH 5 with Na acetate, humin removed, the solution adjusted to pH 4 with acetic acid and then treated with Cu20.…”

Section: Removal Of Cy8tine As Cuprou8 Mercaptide Priormentioning

confidence: 99%

Critique of the Foreman method for the estimation of the dicarboxylic acids in protein hydrolysates

Bailey

Chibnall

Rees

et al. 1943

Biochemical Journal

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“…Tyrosine and tryptophane were determined by the method of Folin and Marenzi (19). Histidine was determined by a micro method developed in our laboratory (20) and cystine according to the method of Graff et al (21). The non-coagulable nitrogen of the various samples was determined by the method of Sorenson (22) and in some cases the amino nitrogen was studied with the manometric method of Van Slyke (23).…”

Section: Methodsmentioning

confidence: 99%

Studies on Photo-Oxidation of Antigen and Antibodies

Smetana

Shemin

1941

Journal of Experimental Medicine

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1. Quantitative precipitin studies indicate that progressive photo-oxidation progressively destroys the antigenic function of egg albumin. 2. Quantitative precipitin reactions of antisera (anti-egg albumin rabbit serum and antipneumococcus Type I horse serum) demonstrate that progressive photo-oxidation causes progressive lowering of the potency of the sera. 3. Quantitative precipitin reactions of the photo-oxidized globulin gamma fraction of anti-egg albumin rabbit serum and of Felton solution of antipneumococcus Type I horse serum show that these specific antibody fractions behave similarly to antibodies in whole sera. 4. Egg albumin whose precipitin reaction is destroyed by photo-oxidation no longer causes anaphylaxis in guinea pigs and does not produce precipitins in rabbits. 5. Chemical studies of progressively photo-oxidized egg albumin show a progressive destruction of tryptophane and histidine while tyrosine remains intact and cystine is reversibly oxidized. Sulfhydryl groups can no longer be demonstrated in photo-oxidized egg albumin whose antigenic characteristics are greatly weakened. 6. Similar studies on the globulin gamma fraction of anti-egg albumin rabbit serum and on Felton solution show no diminution of these amino acids in photo-oxidized material whose antigenic properties are destroyed. 7. The non-coagulable nitrogen and the amino nitrogen of egg albumin, antisera, and their specific antibody fractions show but an insignificant increase during photo-oxidation, indicating that the loss of the precipitin reaction is not due to splitting of the respective protein molecules. 8. Electrophoretic studies of egg albumin, antisera, and their specific antibody fractions show that photo-oxidation causes a marked alteration of the pattern of these substrates. 9. Photo-oxidation of proteins causes the formation of aggregates, indicating denaturation. 10. Hematoporphyrin migrates with the albumin fraction of unaltered as well as the photo-oxidized anti-egg albumin rabbit serum and pneumococcus Type I horse serum; in isolated proteins such as egg albumin, globulin gamma, or Felton solution, etc., the dye moves independently of the protein; after progressive photo-oxidation Hp becomes progressively fixed to the protein. Eosin behaves similarly to hematoporphyrin.

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Walter E. Bernheimer

Cited by 2 publications

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Critique of the Foreman method for the estimation of the dicarboxylic acids in protein hydrolysates

Critique of the Foreman method for the estimation of the dicarboxylic acids in protein hydrolysates

Studies on Photo-Oxidation of Antigen and Antibodies

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