Synthesis, Excretion, and Metabolism of Glycolate under Highly Photorespiratory Conditions in Euglena gracilis Z

Glycolate was excreted from the 5% CO₂-grown cells of Euglena gracilis Z when placed in an atmosphere of 100% O₂ under illumination at 20,000 lux. The amount of excreted glycolate reached 30% of the dry weight of the cells during incubation for 12 hours. The content of paramylon, the reserve polysaccharide of E. gracilis, was decreased during the glycolate excretion, and of the depleted paramylon carbon, two-thirds was excreted to the outside of cells and the remaining metabolized to other compounds, both as glycolate. The paramylon carbon entered Calvin cycle probably as triose phosphate or 3-phosphoglycerate, but not as CO₂ after the complete oxidation through the tricarboxylic acid cycle. The glycolate pathway was partially operative and the activity of the pathway was much less than the rate of the synthesis of glycolate in the cells under 100% O₂ and 20,000 lux; this led the cells to excrete glycolate outside the cells. Exogenous glycolate was metabolized only to CO₂ but not to glycine and serine. The physiologic role of the glycolate metabolism and excretion under such conditions is discussed.     

Regulation of Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase Activation by Inorganic Phosphate through Stimulating the Binding of the Activator CO2 to the Activation Sites

The mechanism of the regulation of the activation of ribulose1,5-bisphosphate carboxylase/ oxygenase (RuBisCO) by inorganicphosphate (P_i) in the presence of limiting concentrations ofCO₂ was explored. The activation state of RuBisCO increasedsigmoidally following a biphasic kinetics against the concentrationof P_i in the activation mixture with an intermediary plateauat 2 to 3 mM P_i when the enzyme was activated for 30 min. Theintermediary plateau could not be seen when the preincubationtime was 10 min and the activation was completed at 10 mM P_i.RuBisCO from Euglena also showed a quite similar activationkinetics. The activation was not due to the contaminating CO₂included in the stock P_i solution or in the activation buffercontaining the enzyme. The experiments with 2-carboxyarabinitol1,5-bisphosphate showed that the P_i stimulated activation wasdue to the promotion of binding of the activator CO₂ to theactivation sites. It was also found that P_i increased the affinityof RuBisCO for the activator CO₂ 5.4-fold accompanied by a decreaseof the half-saturating concentration of CO₂ to 1.6 µMat 20 mM MgCl₂. Physiological significance of the effects ofP_i on the activation of RuBisCO is discussed. ²Present address: Laboratory of Plant Molecular Physiology,Research Institute of Innovative Technology for the Earth (RITE),9-2 Kizugawadai, Kizu-cho, Soraku-gun, Kyoto, Japan.     

Microtubule- and actin filament-dependent motors are distributed on pollen tube mitochondria and contribute differently to their movement

The pollen tube exhibits cytoplasmic streaming of organelles, which is dependent on the actin-myosin system. Although microtubule-based motors have also been identified in the pollen tube, many uncertainties exist regarding their role in organelle transport. As part of our attempt to understand the role of microtubule-based movement in the pollen tube of tobacco, we investigated the cooperation between microtubules and actin filaments in the transport of mitochondria and Golgi vesicles, which are distributed differently in the growing pollen tube. The analysis was performed using in vitro motility assays in which organelles move along both microtubules and actin filaments. The results indicated that the movement of mitochondria and Golgi vesicles is slow and continuous along microtubules but fast and irregular along actin filaments. In addition, the presence of microtubules in the motility assays forces organelles to use lower velocities. Actin- and tubulin-binding tests, immunoblotting and immunogold labeling indicated that different organelles bind to identical myosins but associate with specific kinesins. We found that a 90 kDa kinesin (previously known as 90 kDa ATP-MAP) is associated with mitochondria but not with Golgi vesicles, whereas a 170 kDa myosin is distributed on mitochondria and other organelle classes. In vitro and in vivo motility assays indicate that microtubules and kinesins decrease the speed of mitochondria, thus contributing to their positioning in the pollen tube.     

Irreversible cross-linking of heme to the distal tryptophan of stromal ascorbate peroxidase in response to rapid inactivation by H2O2

Ascorbate peroxidase (APX) isoforms localized in the stroma and thylakoid membrane of chloroplasts play a central role in scavenging reactive oxygen species generated by photosystems. These enzymes are inactivated within minutes by H2O2 when the reducing substrate, ascorbate, is depleted. We found that, when the enzyme is inactivated by H2O2, a heme at the catalytic site of a stromal APX isoform is irreversibly cross-linked to a tryptophan residue facing the distal cavity. Mutation of this tryptophan to phenylalanine abolished the cross-linking and increased the half-time for inactivation from <10 to 62 s. In contrast with H2O2-tolerant peroxidases, rapid formation of the cross-link in APXs suggests that a radical in the reaction intermediate tends to be located in the distal tryptophan so that heme is easily cross-linked to it. This is the first report of a mutation that improves the tolerance of chloroplast APXs to H2O2.     

Molecular Characterization of an Intact p53 Pathway Subtype in High-Grade Serous Ovarian Cancer

High-grade serous ovarian cancer (HGSOC) is the most aggressive histological type of epithelial ovarian cancer, which is characterized by a high frequency of somatic TP53 mutations. We performed exome analyses of tumors and matched normal tissues of 34 Japanese patients with HGSOC and observed a substantial number of patients without TP53 mutation (24%, 8/34). Combined with the results of copy number variation analyses, we subdivided the 34 patients with HGSOC into subtypes designated ST1 and ST2. ST1 showed intact p53 pathway and was characterized by fewer somatic mutations and copy number alterations. In contrast, the p53 pathway was impaired in ST2, which is characterized by abundant somatic mutations and copy number alterations. Gene expression profiles combined with analyses using the Gene Ontology resource indicate the involvement of specific biological processes (mitosis and DNA helicase) that are relevant to genomic stability and cancer etiology. In particular we demonstrate the presence of a novel subtype of patients with HGSOC that is characterized by an intact p53 pathway, with limited genomic alterations and specific gene expression profiles.     

Occurrence of Castasterone,Brassinolide and Methyl 4-Chloroindole- 3-acetate in Immature Vicia faba Seeds

The rice lamina inclination test indicated the presence of brassinosteroid-like active substances in immature Vicia faba seeds. Two of these were identified as castasterone and brassinolide by GC/MS and GC/SIM, respectively. Another active principle was identified as methyl 4- chloroindole-3-acetate by GC/MS and HPLC.     

Peroxisomes of the nematode Caenorhabditis elegans: distribution and morphological characteristics

We analyzed the distribution and morphological characteristics of peroxisomes in the nematode Caenorhabditis elegans by routine electron microscopy, immunoelectron microscopy, and morphometry. Peroxisomes were mainly contained in the epithelial cells of the digestive tract and pharyngeal gland, but some were observed in other cells. Their shape varied from round to twisted. The matrix of most peroxisomes was coarse and uneven, and contained electron-dense nucleoids and frequently tubular substructures. The diameter of peroxisomes in the gut (0.185 micro m) was smaller than that in pharyngeal gland (0.262 micro m). The volume density of peroxisomes per 100 micro m(2) of cytoplasm was 1.86 in the gut and 1.75 in the pharyngeal gland. After treatment with clofibrate, the diameter of peroxisomes increased approximately 1.11-fold in the gut and 1.2-fold in the pharyngeal gland. The volume density of peroxisomes also increased by 2.2-fold in the gut and 2.6-fold in the pharyngeal gland. The labeling density for catalase-2 was almost identical between gut and pharyngeal gland peroxisomes. The results show that in C. elegans peroxisomes mainly distribute in the epithelial cells of the gut and pharyngeal gland. Peroxisomes of the pharyngeal gland are larger than those of the gut, but peroxisomes of both tissues contain catalase-2 at similar concentrations.     

Comparison of sensitization to crude and purified house dust mite allergens in inbred mice

To establish a murine model for house dust mite allergy to purified mite allergens, we studied the immune response to two major mite allergens, native Dermatophagoides farinae 1 (nDer f 1) and recombinant Der f 2 (rDer f 2), and crude mite extract in four mouse strains, A/J, BALB/c, C57BL/6, and C3H/He. Mice were immunized with mite extract, nDer f 1 or rDer f 2, three times at 2-week intervals. Then mice were examined to determine status of sensitization to the antigen. Anti-mite extract IgE production was induced in all strains, and plasma IgE concentration did not differ much among the four strains. In contrast, IgE response to nDer f 1 and rDer f 2 indicated an intra-strain difference. The A/J mice had high responses to both antigens, whereas BALB/c did not respond to rDer f 2. The C57BL/6 and C3H/He mice had moderate to low IgE responses to nDer f 1 and rDer f 2. Immediate airway constriction was provoked by inhalation of mite extract or rDer f 2 in sensitized mice, and the degree of the immediate response was almost proportional to antigen-specific IgE concentration. We concluded that immunization of inbred mice with nDer f 1 and rDer f 2 achieved sensitization to mite allergens. Among the four strains, A/J mice with H-2a haplotype were the highest responder to mite allergens.     

Immunocytochemical localization of cathepsin B in rat kidney. II. Electron microscopic study using the protein A-gold technique

Thin sections of Lowicryl K4M-embedded materials were labeled with protein A-gold complex. Gold particles representing the antigen sites for cathepsin B were exclusively confined to lysosomes of each segment of the nephron. The heaviest labeling was noted in the lysosomes of the S1 segment of the proximal tubules. Labeling intensity varied considerably with the individual lysosomes. Lysosomes of the other tubular segments, such as the S2 and S3 segments of the proximal tubules, distal convoluted tubules, and collecting tubules were weakly labeled by gold particles. Quantitative analysis of labeling density also confirmed that lysosomes in the S1 segment have the highest labeling density and that approximately 65% of labeling in the whole renal segments, except for the glomerulus, was found in the S1 segment. These results indicate that in rat kidney the lysosomes of the S1 segment are a main location of cathepsin B. Further precise observations on lysosomes of the S1 segment revealed that apical vesicles, tubules, and vacuoles were devoid of gold particles, but when the vacuoles contained fine fibrillar materials, gold labeling was detectable in such vacuoles. As the lysosomal matrix becomes denser, the labeling density is increased. Some small vesicles around the Golgi complex were also labeled. These results indicate that the endocytotic apparatus including the apical vesicles, tubules, and vacuoles contains no cathepsin B. When the vacuoles develop into phagosomes, they acquire this enzyme to digest the absorbed proteins.