Advances in Protein ChemistryAdvances in Protein Chemistry |
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Page 2
... amino acid residues and thus have considerably lower molecular weights than even the smaller proteins. The exception is poly-y-glutamic acid which must be distinguished from proteins on the basis of its composition rather than its size ...
... amino acid residues and thus have considerably lower molecular weights than even the smaller proteins. The exception is poly-y-glutamic acid which must be distinguished from proteins on the basis of its composition rather than its size ...
Page 22
... glutamic acid with cysteine to give y-glutamylcysteine (y-GluCySH), which then reacts with glycine (Snoke and Bloch, 1952). Both steps require adenosine triphosphate (ATP), which is split into adenosine diphosphate (ADP) and ...
... glutamic acid with cysteine to give y-glutamylcysteine (y-GluCySH), which then reacts with glycine (Snoke and Bloch, 1952). Both steps require adenosine triphosphate (ATP), which is split into adenosine diphosphate (ADP) and ...
Page 28
... Glutamic acid, B-adenine, glycine, taurine, cysteic acid, and an unidentified amino acid were liberated on hydrolysis. Thus this differs from most of the other nucleotide-peptides in containing nonprotein amino acids. Another nucleotide ...
... Glutamic acid, B-adenine, glycine, taurine, cysteic acid, and an unidentified amino acid were liberated on hydrolysis. Thus this differs from most of the other nucleotide-peptides in containing nonprotein amino acids. Another nucleotide ...
Page 29
... glutamic acid that are metabolically important and widely distributed. The structure of pteroylglutamic acid (folic acid) (XV) is as shown below: HEN N N / Y I 1 (E0211 N\ / N cn,—nn-—©~co—nncncn2cnzcozn on (XV) The peptides, which ...
... glutamic acid that are metabolically important and widely distributed. The structure of pteroylglutamic acid (folic acid) (XV) is as shown below: HEN N N / Y I 1 (E0211 N\ / N cn,—nn-—©~co—nncncn2cnzcozn on (XV) The peptides, which ...
Page 34
... amino acid not containing sulfur (Sections B and C) and those that contain a modified cysteine residue (Sections D and E). B. Ophthalmic Acid 1. Isolation Ophthalmic acid was the first peptide related to glutathione to be discovered ...
... amino acid not containing sulfur (Sections B and C) and those that contain a modified cysteine residue (Sections D and E). B. Ophthalmic Acid 1. Isolation Ophthalmic acid was the first peptide related to glutathione to be discovered ...
Contents
Chapter 2 Cytochrome c | 113 |
Chapter 3 Hydrogen Exchange in Proteins | 287 |
Chapter 4 Selenium Derivatives in Proteins | 387 |
Author Index for Volume 21 | 417 |
Subject Index for Volume 21 | 438 |
Cumulative Author Index for Volumes 121 | 443 |
Cumulative Title Index for Volume 121 | 449 |
Common terms and phrases
Acta actinomycin activity amide amino acid aqueous solution baker’s yeast band Biochem Biol Biophys carnosine cells Chem chromatography chrome complex compounds concentration confirmed conformation containing cysteine cyto cytochrome oxidase deuterium disulfide enzymatic enzyme exchange rate exchanging hydrogen atoms extracts ferric ferricytochrome first fraction function glutamic acid glutathione glycine gramicidin groups GSSG H-D exchange heme heme peptide heme proteins hemochrome Hvidt hydrogen atoms hydrogen bonds hydrolysis hydrophobic imidazole infrared ionization iron isolated isotope effect Keilin kinetic exchange curves labile hydrogen atoms ligand Margoliash molecular muscle myoglobin native protein Nielsen observed obtained Okunuki ophthalmic acid oxidation Paléus peptide chain peptide-group hydrogen atoms Physiol polypeptide porphyrin preparations present primary structure Proc protein protein molecule purified rate constant reaction scheme redox residues ribonuclease Schwarz Section selenium selenium derivatives selenomethionine species specific studies sulfur synthesis temperature Theorell and Akesson thiol tion tissues titration Waley Yamanaka