Cultures of cells dissociated from embryonic mouse cerebra were used to demonstrate: (1) that the developmental expression of the mRNA of proteolipid protein is dependent on thyroid hormone; (2) that the expression of the mRNA of proteolipid protein is stimulated not only by triiodothyronine but also by hydrocortisone, which achieve their respective stimulations by an additive and uncompetitive mechanism; (3) the stimulation of the net accumulation of the mRNA of myelin basic protein by hydrocortisone and triiodothyronine is also cooperative, additive, and uncompetitive, and (4) the stimulation of the net accumulation of myelin basic protein, during development by hydrocortisone, is completely dependent on the presence of thyroid hormone. These results suggest that the regulation of the synthesis of myelin basic protein by hydrocortisone requires the presence of triiodothyronine at a posttranscriptional event, but not for transcription itself.
Hydrogen fluoride treatment of [14C‐glycerol]lipoteichoic acid synthesized by growing Streptococcus faecium ATCC9790 in the presence of 1,3[14C]glycerol produced five radioactive, water‐soluble products which were identified by chromatographic and analytical techniques to be tetraglucosyl glycerol, triglucosyl glycerol, diglucosyl glycerol, monoglucosyl glycerol and unsubstituted glycerol. The percent composition of each varied modestly from culture to culture and ranged between 7 and 8% for the tetra‐, 20.5 and 31.2% for the tri‐, 11.3 to 23.5% for the di‐, 20.9 to 26.8% for the mono‐, and 23.1 to 34.8% for the unsubstituted glycerol. The same glucosylated glycerol compounds could be obtained in an in vitro reaction in which a 30 000 ×g particulate enzyme catalyzed the incorporation of [3H]glucose from UDP [3H]glucose into lipoteichoic acid.
Specific degradation of membrane lipoteichoic acid of Streptococcus faecium ATCC 9790 by a phosphodiesterase from Aspergillus niger and by periodate oxidation has demonstrated that the enzymatic synthesis of the glycerol phosphate polymer of the molecule occurs by an external elongation system. Evidence of this type of mechanism was obtained with lipoteichoic acid synthesized in vivo or in vitro by differential radioisotope labeling techniques. The glycerol phosphate repeating units were transferred from phosphatidylglycerol and became linked through a phosphodiester bond to the glycerol phosphate unit of the chain farthest from or most external to the lipid end of the polymer.
Streptococcus mutans BHT and FA-1, when grown to log phase on chemically defined medium containing ['4C]glycerol, excreted 15% of the total biosynthesized '4C-lipid into the medium. When grown to early stationary phase, 28 to 33% of the '4C-lipid was found in the medium. The radioactive lipids of these varieties of S. mutans were identified as diacylglycerol, diglucosyl diacylglycerol (DGD), monoglucosyl diacylglycerol, diphosphatidylglycerol, phosphatidylglycerol (PG), and smaller amounts of two other lipids tentatively were identified as amino acyl-PG and glycerol phosphoryl-DGD. All lipids were found as extracellular and intracellular components from cells grown to either log or stationary phase. However, there were some shifts in the relative percentage of these lipids as the cells changed from log to stationary phase. For example, the intracellular lipid content of log-phase S. mutans BHT was composed of 49% PG and 19% DGD, but these percents shifted to 18% PG and 57% DGD when the cells were grown to stationary phase. However, the extracellular lipids of this organism contained 50 to 60% PG and 20% DGD in both log and stationary phases.
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