Ca2+ is Required by Clubroot Resistant Turnip Cells for Transient Increases in PAL Activity that Follow Inoculation with Plasmodiophora brassicae

Phenylalanine ammonia‐lyase (PAL, EC 4.3.1.5) activity in clubroot disease‐resistant turnip calli was transiently increased by 20 h after the inoculation with Plasmodiophora brassicae spores. The magnitude of the increase in PAL activity was four to six times higher than constitutive PAL activity. There was no transient increase in PAL activity in susceptible calli. Preincubation of calli in Ca²⁺‐free medium or the removal of Ca²⁺ from cell surfaces by ethylene glycol bis(2‐aminoethyl ether)‐N,N,N′,N′‐tetraacetic acid‐chelation, completely inhibited induced PAL activity. The influx of exogenous Ca²⁺ into cells appears necessary for this pathogen induced PAL activity. Verapamil and the calmodulin inhibitor W7 almost completely inhibited induced PAL activity at 1 and 0.1 mm , respectively. Neomycin, ruthenium red and (1‐(6‐[(17β‐3‐Methoxyestra‐1,3,5‐(10)‐trien‐17‐yl)amino]hexyl)‐1H‐pyrrole‐2,5‐dione) did not inhibit induced PAL activity. Thus, verapamil and N‐(6‐aminohexyl)‐5‐chloro‐1‐naphthalenesulphonamide hydrochloride‐sensitive Ca²⁺‐mediated signalling process appear necessary for P. brassicae induced PAL activity. As the protein synthesis inhibitor cycloheximide (CHX) blocked the induced increasing PAL activity, de novo synthesis of PAL appears to be required for turnip cell defence reactions against P. brassicae.     

Monooxygenation of N-acetylhistamine mediated by L-ascorbate

In the presence of molecular oxygen and a catalytic amount of copper(II) ion, ascorbate almost completely degraded histamine (approx. 72%). The reaction was shown to occur at the imidazole group but not at the primary amino group in histamine. 4-[2-(Acetylamino)ethyl]-2,3-dihydroimidazol-2-one, a monooxygenated form of N-acetylhistamine, was first isolated as the primary product.     

Nudeotide Pools and Purine Metabolism in Tissue Cultures of Wild-Type Datura innoxia and Adenine-Requiring Auxotroph

Cells of the auxotrophic mutant, Ad1, of Datura innoxia requiredadenine, adenosine, or inosine for their growth on solid agarmedium which contained Murashige-Skoog salts, 2,4-dichloro-phenoxyaceticacid, and sucrose. Thirteen purine and pyrimidine nucleotidesin extracts of wild-type and Ad1 cells were separated and quantifiedby HPLC. Levels of ADP-glucose and UMP were significantly higherin Ad1 than in wild-type cells, but those of other nucleotideswas found when Ad1 cells were transferred to fresh medium withoutadenine. The rate of the biosynthesis de novo of purines, asestimated from the rate of incorporation of ¹⁴C from [2-¹⁴C]-glycine and [¹⁴C]formate into adenine nucleotides, was reducedin Ad1 cells to 21 and 13% of the wild-type rate, respectively.The activities involved in the salvage of adenine and adenosinein Ad1 cells were similar to those in wild-type cells. Ad1 cellshad the capability to convert adenine to guanine nucleotidesand guanine to adenine nucleotides. ¹ Part 27 of the series, "Metabolic Regulation in Plant CellCulture". (Received March 7, 1988; Accepted August 3, 1988)     

Effects of Glyphosate on the Shikimate Pathway and Regulation of Phenylalanine Ammonia-lyase in Cryptomeria and Perilla Cell Suspension Cultures

Treatment of Cryptomeria and Perilla cell suspension cultureswith glyphosate resulted in a marked suppression of the formationof flavans and caffeic acid derivatives, respectively, whileit caused only a slight decline in the cell growth. In contrastwith 3-deoxy-D-arabino-heptulosonate (DAHP) synthase-Mn isozyme,DAHP synthase-Co isozyme from Cryptomeria and Perilla cellswas much more sensitive to inhibition by glyphosate. The additionof 1 to 2 mM glyphosate caused an accumulation of shikimateand quinate and a reduction of L-phenylalanine in both cellcultures. The inhibition of phenylalanine ammonia-lyase (PAL)activity by glyphosate was reversed by exogenously suppliedL-phenylalanine to near the control level. Cycloheximide andactinomycin D nullified the recovery by exogenous L-phenylalanineon PAL activity. L-Phenylalanine itself promoted PAL activityto some extent. No recovery of PAL activity in L--aminooxy-ß-phenylpropionate(L-AOPP)-treated cell cultures could be observed by the additionof L-phenylalanine. Therefore, L-AOPP seems to inhibit the formationof PAL, though it has been considered a competitive inhibitor. ³Present address: Biological Institute, Faculty of Science,Tohoku University, Sendai 980, Japan. (Received October 28, 1985; Accepted March 13, 1986)     

Growth-coupled changes in glucosaminoglycans (heparan sulfate and hyaluronic acid) in normal and transformed human fibroblasts

Changes in glycosaminoglycans (GAGs) were investigated in relation to cell density, growth and transformation of human fibroblasts. Relative amounts (percentages of the total GAGs) of heparan sulfate (HS) increased and those of hyaluronic acid (HA) decreased in growth-reduced (serum-starved, exogenous HS-treated and dense) cultures of normal (WI-38) cells. In contrast, transformed (WI-38 CT-1) cells exerted such GAG changes only in serum-starved cultures, but not in HS-treated or dense cultures. These results indicate that the changes in glucosaminoglycans (G1cAGs) (HS and HA) is coupled exclusively with cell growth.     

Investigation of actin in Tetrahymena cells. A comparison with skeletal muscle actin by a devised two-dimensional gel electrophoresis method

Total protein constituents of Tetrahymena thermophila strain B1868 III were studied by two-dimensional agarose-polyacrylamide gel electrophoresis to detect actin among the constituents. In the attempts to prepare a whole-cell extract of Tetrahymena, it was found that protease activity in the extract was so high that high molecular components were quickly digested with the endogenous protease into small peptides unless the homogenization and heat-treatment in a sodium dodecylsulfate solution were performed within 5 s. It was eventually found that employment of 8 M guanidine hydrochloride (HCl) in the homogenization of cells perfectly prevented the degradation of protein components, even through a long preparation procedure. A devised two-dimensional agarose-polyacrylamide gel electrophoresis of the guanidine HCl extract gave a 'protein map' on which most proteins were located in their respective positions, including proteins with more than 200,000 mol. wt. Addition of rabbit skeletal muscle actin on the protein map revealed that no protein with isoelectric point and molecular weight identical with those of the actin was contained in the whole Tetrahymena extract, suggesting that Tetrahymena actin may have characteristics far different from those of skeletal muscle actin.     

Crystal structure of the complex of subtilisin BPN' with its protein inhibitor Streptomyces subtilisin inhibitor. The structure at 4.3 Angstroms resolution

The crystal structure of the complex of subtilisin BPN′ (EC 3.4.21.14) with its protein inhibitor (Streptomyces subtilisin inhibitor) was solved at 4.3 Å resolution, thus establishing the following. (1) Two subtilisin BPN′ molecules (2E) associate with one dimeric inhibitor molecule (I₂) to form the complex molecule E₂I₂. (2) The conformation of neither the inhibitor nor subtilisin BPN′ undergoes any detectable change at this resolution upon complex formation. (3) The inhibitor binds to subtilisin to form an antiparallel β-sheet, as in the case of trypsin/ trypsin inhibitor complexes. (4) The scissible bond of the inhibitor is between Met73′ and Val74′, as proposed earlier (Ikenaka et al., 1974). (5) The protein inhibitor and the substrates bind to subtilisin BPN′ in essentially the same way.     

Polymorphism in rice amylases at an early stage of seed germination

A polymorphism in rice amylases at an early stage of seed germination is analyzed by zymogram. In non-glutinous cultivars of rice, alpha-amylase isozymes are mainly confirmed in germinating seeds. However, in glutinous cultivars, beta-amylase isozymes, which are not confirmed in nonglutinous cultivars, make up the major part of the total amylase activity and the expression of alpha-amylases are repressed.     

Formaldehyde Fixation Contributes to Detoxification for Growth of a Nonmethylotroph, Burkholderia cepacia TM1, on Vanillic Acid

During bacterial degradation of methoxylated lignin monomers, such as vanillin and vanillic acid, formaldehyde is released through the reaction catalyzed by vanillic acid demethylase. When Burkholderia cepacia TM1 was grown on vanillin or vanillic acid as the sole carbon source, the enzymes 3-hexulose-6-phosphate synthase (HPS) and 6-phospho-3-hexuloisomerase (PHI) were induced. These enzymes were also expressed during growth on Luria-Bertani medium containing formaldehyde. To understand the roles of these enzymes, the hps and phi genes from a methylotrophic bacterium, Methylomonas aminofaciens 77a, were introduced into B. cepacia TM1. The transformant strain constitutively expressed the genes for HPS and PHI, and these activities were two- or threefold higher than the activities in the wild strain. Incorporation of [¹⁴C]formaldehyde into the cell constituents was increased by overexpression of the genes. Furthermore, the degradation of vanillic acid and the growth yield were significantly improved at a high concentration of vanillic acid (60 mM) in the transformant strain. These results suggest that HPS and PHI play significant roles in the detoxification and assimilation of formaldehyde. This is the first report that enhancement of the HPS/PHI pathway could improve the degradation of vanillic acid in nonmethylotrophic bacteria.