Formation of glycolate by a reconstituted spinach chloroplast preparation

A reconstituted preparation requiring fructose 6-phosphate, transketolase, triphosphopyridine nucleotide, ferredoxin, fragmented spinach chloroplasts, and light capable of forming glycolate at rates of about 10 micromoles per milligram of chlorophyll per hour has been characterized. The glycolaldehyde-transketolase addition product could be substituted for fructose 6-phosphate and transketolase. The stoichiometry of the reaction was: 1 mole of fructose 6-phosphate consumed for each mole of glycolate and of reduced triphosphopyridine nucleotide produced. Evidence was presented indicating that glycolate formation was coupled to the photosystems of the photosynthetic electron transport chain. Synthesis of glycolate is envisaged as the result of either (a) a reaction between the upper two carbon atoms derived from fructose 6-phosphate and an uncharacterized oxidant generated by photosystem 2 or (b) hydrogen peroxide produced by the reoxidation of reduced triphos-phopyridine nucleotide or reduced ferredoxin by molecular oxygen.     

Glucosylation of Teichoic Acid: Solubilization and Partial Characterization of the Uridine Diphosphoglucose:Polyglycerolteichoic Acid Glucosyl Transferase from Membranes of Bacillus subtilis

Polyglycerolteichoic acid:glucosyl transferase (TAG transferase), one of the three enzymes involved in the pathway leading to the glucosylation of teichoic acid in Bacillus subtilis 168, was investigated. During the early stages of the growth of B. subtilis, TAG transferase is predominantly a soluble enzyme found in the cytoplasm. As growth proceeds, the amount of soluble enzyme decreases and the proportion of insoluble, membrane-bound TAG transferase increases, reaching a maximal value at the close of the logarithmic phase. Data are presented which suggest that these are two forms of the same enzyme, or have some common component. The effects of chaotropic agents, such as sodium trichloroacetate and sodium perchlorate, on the cytoplasmic membrane were also studied. These data show that such compounds can effectively remove the TAG transferase from the membrane in a water-soluble form. A study of some of the physical properties of this solubilized enzyme suggests that there is little difference between the two forms of the enzyme. Experiments are described which indicate that the glucosyl transfer by both the membrane-bound and soluble enzymes is not mediated by lipids.     

Ribonucleic acid as an inducer of germination inhibition in Aegilops Kotschyi

Application of RNase or GA to dormant caryopses of AegilopsKotschyi accelerates normal hydrolysis of RNA during the firsthours of germination and also improves germination percentages.Glume extract of this species, known to have an inhibitory effecton germination, retards hydrolysis of RNA to some extent. Furthermore,Rifamycin, an inhibitor of RNA-polymerase, did not effect germination,although it inhibited later stages of seedling growth. The possibilityis discussed that dormant caryopses of Aegilops Kotschyi containa specific RNA fraction which is responsible for dormancy andthat the triggering of germination is dependent upon its degradation. ¹ This research was financed in part by a grant from the ResearchCouncil of Bar Ilan University. (Received August 8, 1970; )