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Query: UMLS:C0694563 (
eds
)
1,062
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Preparations of NADH-ubiquinone reductase from bovine heart mitochondria (Complex I) were shown to contain at least 16 polypeptides by gel electrophoresis in the presence of sodium dodecyl sulphate. 2. High-molecular-weight soluble NADH dehydrogenase prepared from Triton X-100 extracts of submitochondrial particles [Baugh & King (1972) Biochem. Biophys. Res. Commun. 49, 1165-1173] was similar to Complex I in its polypeptide composition. 3. Solubilization of Complex I by
phospholipase A
treatment and subsequent sucrose-density-gradient centrifugation did not alter the polypeptide composition. 4. Lysophosphatidylcholine treatment of Complex I caused some selective solubilization of a polypeptide of mol.wt. 33000 previosuly postulated to be the transmembrane component of Complex I in the mitochondrial membrane [Ragan (1975) in Energy Transducing Membranes: Structure, Function and Reconstitution (Bennun, Bacila & Najjar,
eds
.), Junk, The Hague, in the press]. 5. Chaotropic resolution of Complex I caused solubilization of polypeptides of molecular weights 75000, 53000, 29000, 26000 and 15500 and traces of others in the 10000-20000-mol.wt.range. 6. The major components of the iron-protein fraction from chaotropic resolution had molecular weights of 75000, 53000 and 29000, whereas the flavoprotein contained polypeptides of molecular weights 53000 and 26000 in a 1:1 molar ratio. 7. Iodination of Complex I by lactoperoxidase indicated that the water-soluble polypeptides released by chaotropic resolution, in particular those of the flavoprotein fraction, were largely buried in the intact Complex. 8. The polypeptides of molecular weights 75000, 53000, 42000, 39000, 33000, 29000 and 26000 were present in 1:2:1:1:1:1:1 molar proportions. The two subunits of molecular weight 53000 are probably non-identical.
...
PMID:The structure and subunit composition of the particulate NADH-ubiquinone reductase of bovine heart mitochondria. 18 Sep 73
The complete amino acid sequence of the basic subunit of crotoxin from the venom of Crotalus durissus terrificus has been determined. Fragmentation of the protein was achieved by using cyanogen bromide and arginine- and lysine-specific endoproteases. Sixteen Glx and Asx residues reported by Fraenkel-Conrat et al. (1980) in Natural Toxins (D. Eaker and T. Wadstrom,
eds
.), pp. 561-567, Pergamon, Oxford.) have been resolved as Glu or Gln and Asp or Asn residues, respectively. Most of the remaining sequence is identical to that reported by the foregoing authors although several significant differences were evident in our protein. Tyr-61 was not present; thus the correct sequence is Lys-60, Trp-61. The latter sequence aligns with sequences of all other known viperid and crotalid phospholipases A2 (S. D. Aird, I. I. Kaiser, R. V. Lewis, and W. G. Kruggel (1985) Biochemistry 24, 7054-7058). Other differences include Asx-99, which is Ser, and Asx-105, which is Tyr. Some positions display allelic variation. In some lots of venom Glx-33 is Gln, while in others it is Arg. Positions 37 and 69 occur as mixtures of both Lys and Arg. Amino acid sequence comparisons between the basic and acidic subunits of crotoxin and between the basic subunit and other
phospholipase A2
molecules indicate that the basic subunit is structurally most similar to the monomers of nontoxic, dimeric phospholipases A2 from the venoms of Crotalus adamanteus, Crotalus atrox, and Trimeresurus okinavensis, and to the toxic monomeric
phospholipase A2
from the venom of Bitis caudalis.
...
PMID:A complete amino acid sequence for the basic subunit of crotoxin. 375 3
