Fixation increases sensitivity of India ink staining of proteins and peptides on nitrocellulose paper

The detectability by India ink staining of proteins and peptides dot-blotted on nitrocellulose paper was assessed before and after fixation. Fixation considerably increased the detectability of proteins and peptides. Denaturation by KOH treatment or baking at 100 degrees C for 15 min gave the best results. Precipitation by isopropanol/acetic acid gave intermediate results, whereas crosslinking with glutaraldehyde improved the detectability of small peptides, but not of proteins. Ferridye and Aurodye were also tested after baking. Both dyes were more sensitive and stained more proteins and peptides than India ink. In all cases the detectability of peptides smaller than Mr 1500 was poor.     

PHYSICO-CHEMICAL CHARACTERISTICS AND REGIONAL DISTRIBUTION STUDIES OF GP-350, A SOLUBLE SIALOGLYCOPROTEIN FROM BRAIN

The apparent molecular weight of GP-350, a sialoglycoprotein from calf and rat brain, has been determined by SDS-polyacrylamide gel electrophoresis. The electrophoretic mobility corresponds to the mobility of a polypeptide with a molecular weight of 11,600 ± 200. On this basis it can be calculated that only one sialic acid residue is present/GP-350 molecule. From isoelectric focusing experiments it appeared that the isoelectric point of GP-350 is about 2. The determination of the amide content of the polypeptide chain showed that out of 22.0 acidic amino acid residues of glutamic acid and aspartic acid, only 4.9 residues are amidated. The total amount of the basic amino acid residues lysine and arginine, is 6.5. So, per molecule GP-350 10.6 acidic amino acid residues are not counteracted by basic amino acid residues. The surplus of the acidic amino acid residues as well as sialic acid result in the pronounced acidic character of GP-350. This fact is supported by the electrophoretic experiments. The carbohydrate-polypeptide linkage type has been studied by alkaline sodium borohydride treatment. Two thirds of all the galactosamine was destroyed, whereas the amount of glucosamine remained the same. Amino acid analysis indicated a decrease in serine and threonine with a concomitant small increase in alanine. These data point to the occurrence of linkages between the carbohydrate chain and the polypeptide core of the galactosamineserine or –threonine type. Per molecule GP-350 about two residues of galactosamine are destroyed, indicating that two carbohydrate chains of this binding type are present. Only one of these chains can be terminated by a sialic acid residue. The other carbohydrate chain may be terminated by fucose. Regional distribution studies showed the presence of GP-350 in all brain areas studied; in relatively large amounts in the regions rich in ganglia such as caudate nucleus, cerebellar grey matter, pons and medulla oblongata, and in relatively small amounts in the regions poor in ganglia such as corpus callosum, cerebral white, cerebral grey and cerebellar white matter. GP-350 is also present in the pituitary gland. In the cerebrospinal fluid a glycoprotein is present with the same electrophoretic mobility as GP-350. However, this glycoprotein gave no precipitin reaction with GP-350 specific antiserum. Moreover, the amino acid composition was quite different from that of GP-350. Subcellular distribution study revealed that GP-350 is present in the soluble cell fraction and in the synaptosomal membrane fraction, whereas it is absent from the purified nuclei, mitochondria, myelin, and also from the microsomal fraction.     

Oxidation-reduction potentials in the cecal contents of rats and mice.

The oxidation-reduction potential (ORP) in the cecal contents of conventional rats, germ-free mice, and mice with a Colonization Resistance Factor flora (CRF-mice) was investigated. By using animals that were anaesthetized for a longer period of time, we attempted to eliminate the disturbing influence of oxygen. In addition, measurements were made under anaerobic conditions. For the rats, the ORP values reached a more or less constant level after about 30 min following the insertion of the electrodes. The mean ORP at that time was -458 mV (SD = 45 mV). The mean ORP values for the mice showed a more gradual reduction than was found in the rats. The curves leveled off at about 100 min following the insertion of the electrodes. The mean ORP values 100 min after electrode insertion were: germ-free mice, + 3 mV (SD = 39 mV); CRF-mice, -554 mV (SD = 29 mV). In rats, the ORP value decreased after death; no decrease was observed in mice. No difference was found in the values obtained when measuring under anaerobic or aerobic conditions after death.     

Phosphate metabolism and foetal growth in the rat. II. Net transfer of 31P and 32P inorganic phosphate from the maternal plasma to the normal foetus

Net transfer of 31P and 32P inorganic phosphate from the maternal plasma to the rat foetus has been studied after intraperitoneal injection of [32P] ortho-phosphate in primigravid females at the 12th day or later stages of gestation. The concentration per unit weight of foetus of the inorganic phosphate (P1) fraction increases markedly with increasing foetal weight; labelling data [inverse relationship between P1 concentration and specific activity, absence of precursor/product relationship between P1 and acid-soluble organic-bound phosphates (POAS)] show this increase to result in part from the formation of a relatively inert metabolic pool, presumably in mineralized tissue. The foetal concentrations of calcium and inorganic phosphate show a strong positive correlation, both increasing markedly with foetal weight. The progressive accumulation of calcium does not, however, account entirely for the rising concentration of inorganic phosphate. The concentration per unit weight of foetus of the POAS fraction remains stable for foetuses smaller than 2 000 mg. In heavier foetuses (greater than 2 000 mg) the POAS concentrations are, with an abrupt transition, distinctly lower, rising however slightly with increasing foetal weight. The concentration per unit weight of foetus of the acid-insoluble organic-bound phosphate (POAIS) fraction decreases slightly with increasing foetal weight. The label uptake per unit weight of foetus of both POAS and POAIS fractions is negatively correlated with increasing foetal weight. The amount and label uptake per whole foetus of the P1, POAS and POAIS fractions are positively correlated with increasing foetal weight. Phosphate transfer to the foetus increases continuously, being maximal at or near birth.