Chromatic Regulation of Photosystem Composition in the Cyanobacterial Photosynthetic System: Kinetic Relationship between Change of Photosystem Composition and Cell Proliferation

Kinetics of the change of photosystem (PS) composition in cyanobacteriainduced by chromatic light were studied in relation to cellproliferation. The study was made for two unicellular strains,Synechococcus NIBB 1059 and Synechocystis (Aphanocapsa) PCC6714. We found that (1) the change to a higher or lower PS I/IIratio was due to acceleration or suppression of apparent PSI formation, and (2) it progressed on a similar time scale tothat of the cell proliferation. The apparent rate constant ofthe change in the PS I/II ratio was proportional to that ofcell proliferation, µ, when this was low, but at highvalues of µ the increase in the rate constant of the changein the PS I/II ratio became smaller, causing a deviation fromthe linear relationship. Results indicate that under autotrophicconditions, the photoregulated composition change occurs asa result of thylakoid development, which accompanies cell proliferation. (Received June 23, 1986; Accepted December 5, 1986)     

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)     

Manganese-histidine cluster as the functional center of the water oxidation complex in photosynthesis

The recent model of Kambara and Govindjee for water oxidation [Kambara T. and Govindjee (1985) Proc. Natl. Acad. Sci. U.S.A., 82:6119–6123] has been extended in this paper by examining all the data in order to identify the most likely candidate for the redox-active ligand (RAL), suggested to operate between the water oxidizing complex (WOC) and Z, the electron donor to the reaction center P680. We have concluded that a very suitable candidate for RAL is the imidazole moiety of a histidine residue. The electrochemical data available on imidazole derivatives play heavily in this identification of RAL. Thus, we suggest that histidine might play the role of an electron mediator between the WOC and Z. A model of S-states in terms of their plausible chemical identity is presented here.Abbreviations J electronic spin of ion - P680 reaction center chlorophyll - RAL Redox active ligand - S_n state of the oxygen-evolving system - WOC water oxidation complex - Z electron donor to P680 Dedicated to Prof. L.N.M. Duysens on the occasion of his retirement     

Primary structure of guinea-pig Hageman factor: sequence around the cleavage site differs from the human molecule.

The guinea-pig and human Hageman factors differ in their sensitivity to activation by particular bacterial proteinases. To understand this difference, the primary structure and cleavage site on activation of the guinea-pig molecule were determined and compared with the human molecule. By the use of a synthetic oligodeoxyribonucleotide probe which encoded a part of human Hageman factor cDNA, a cDNA clone was isolated from a lambda gt11 cDNA library of guinea-pig liver and sequenced. The cDNA clone was identified as that of guinea-pig Hageman factor by the complete identity of the deduced amino-acid sequence with the actual sequence of the amino-terminal portion of guinea-pig Hageman factor molecule and the active form. The cDNA included part of a leader sequence and the entire coding region of the Hageman factor molecule. Guinea-pig Hageman factor was composed of the same domain structures as the human counterpart with an overall 72% homology in the amino-acid sequence. However, the sequences around the cleavage site were surprisingly different; -Met351-Thr-Arg-Val-Val-Gly-Gly-Leu-Val359-(human) and -Leu338-Ser-Arg-Ile-Val-Gly-Gly-Leu-Val346-(guinea-pig). The amino-acid substitutions around the cleavage site might explain the difference in sensitivity to activation between the human and guinea-pig molecules.     

Photoreversible absorption changes of guanidine-HCltreated phycocyanin and allophycocyanin isolated from the blue-green alga Tolypothrix tenuis

In the search for the photoreceptor in photocontrolled phycoerythrinformation, photoreversible absorption changes of chromoproteinsin vivo and in vitro were studied with the blue-green alga Tolypothrixtenuis. Neither intact cells nor crude extracts of soluble proteinsshowed any significant absorption changes which were reversiblyinduced by green and red light. However, the photoresponse wasobservable when the crude protein extracts were treated withthe chaotropic reagent guanidine-HCl (0.4 M, for 1 hr in thedark). Isolated phycocyanin and allophycocyanin also showedthe same photoresponse after the guanidine-HCl treatment. Thedifference spectrum (green minus red) of guanidine-HCl-treatedphycocyanin was almost identical with that shown by phycochromea of Bj?rn and Bj?rn (3), and the allophycocyanin showed thesame difference spectrum as those of phycochrome c of Bj?rnand Bj?rn and the photoreversible pigment isolated by Scheibe(7). Urea at a concentration higher than 1 M or alkaline incubation(pH 8.5) also showed the same effect. The results were interpretedas indicating that phycocyanin and allophycocyanin obtain theability for photoresponsiveness when their protein conformation,probably around the chromophore site, is modified. (Received October 30, 1978; )     

Factor XIII-dependent generation of 5th complement component(C5)-derived monocyte chemotactic factor coinciding with plasma clotting.

Blood coagulation or plasma clotting caused generation of a monocyte chemotactic factor(s) in vitro. The chemotactic factor, of which the apparent molecular mass was 75 kDa, shared antigenicity with complement C5 and possessed the affinity to monocytes, but not to polymorphonuclear leukocytes. The generation of the chemotactic factor was hindered in the presence of a thiol enzyme inhibitor, p-chloromercuriphenyl sulfonic acid, at the concentration of 1 mmol/l, although the gelation of plasma was apparently completed. Furthermore, the generation of chemotactic factor was not observed when a plasma deficient in blood coagulation factor XIII, which is a precursor of a thiol enzyme, plasma transglutaminase, was used; and the activity normally appeared when the deficient plasma was reconstituted with purified factor XIII or with a tissue transglutaminase prior to clotting. When the human sera were injected into guinea pig skin, the serum derived from normal plasma or from the reconstituted factor XIII deficient one caused mononuclear cell infiltration, however, the serum from the deficient plasma without reconstitution infiltrated to a significantly smaller extent. These results indicated that the complement system was initiated somehow during the clotting process resulting in the generation of the C5-derived monocyte chemotactic factor in cooperation with factor XIIIa (activated factor XIII).     

Kinetics of the reconstitution of hemoglobin from semihemoglobins α and β with heme

Kinetics of the reconstitution of hemoglobin from semihemoglobins and with hemin dicyanide have been investigated using three kinds of stopped-flow technique (Soret absorption, fluorescence quenching of tryptophan, and Soret CD). The semihemoglobins and are occupied by heme in the and chains, respectively, the other chain being heme-free. Based on the kinetic results, the following scheme for the reconstitution is proposed; First, hemin dicyanide enters the pocket-like site of the apo chains. Second, in semihemoglobin , the CN-ligand in the fifth coordination position of iron is replaced by the imidazole ring of the proximal His immediately after the heme insertion. In contrast, semihemoglobin changes its conformation after the heme insertion, and this is followed by the ligand replacement. Finally, the partial structure changes induced by the ligand replacement propagate onto the whole molecule and the final conformation is attained. The results indicate that semihemoglobin retains a more rigid and organized structure, and more closely approaches its final structure than does semihemoglobin . Correspondence to: Y. Kawamura-Konishi     

Activation of human Hageman factor by Pseudomonas aeruginosa elastase in the presence or absence of negatively charged substance in vitro.

Human Hageman factor, a plasma proteinase zymogen, was activated in vitro under a near physiological condition (pH 7.8, ionic strength I = 0.14, 37 degrees C) by Pseudomonas aeruginosa elastase, which is a zinc-dependent tissue destructive neutral proteinase. This activation was completely inhibited by a specific inhibitor of the elastase, HONHCOCH(CH2C6H5)CO-Ala-Gly-NH2, at a concentration as low as 10 microM. In this activation Hagemen factor was cleaved, in a limited fashion, liberating two fragments with apparent molecular masses of 40 and 30 kDa, respectively. The appearance of the latter seemed to correspond chronologically to the generation of activated Hageman factor. Kinetic parameters of the enzymatic activation were kcat = 5.8 x 10(-3) s-1, Km = 4.3 x 10(-7) M and kcat/Km = 1.4 x 10(4) M-1 x s-1. This Km value is close to the plasma concentration of Hageman factor. Another zinc-dependent proteinase, P. aeruginosa alkaline proteinase, showed a negligible Hageman factor activation. In the presence of a negatively charged soluble substance, dextran sulfate (0.3-3 micrograms/ml), the activation rate by the elastase increased several fold, with the kinetic parameters of kcat = 13.9 x 10(-3) s-1, Km = 1.6 x 10(-7) M and kcat/Km = 8.5 x 10(4) M-1 x s-1. These results suggested a participation of the Hageman factor-dependent system in the inflammatory response to pseudomonal infections, due to the initiation of the system by the bacterial elastase.     

Blocking VLDL secretion causes hepatic steatosis but does not affect peripheral lipid stores or insulin sensitivity in mice

The liver secretes triglyceride-rich VLDLs, and the triglycerides in these particles are taken up by peripheral tissues, mainly heart, skeletal muscle, and adipose tissue. Blocking hepatic VLDL secretion interferes with the delivery of liver-derived triglycerides to peripheral tissues and results in an accumulation of triglycerides in the liver. However, it is unclear how interfering with hepatic triglyceride secretion affects adiposity, muscle triglyceride stores, and insulin sensitivity. To explore these issues, we examined mice that cannot secrete VLDL [due to the absence of microsomal triglyceride transfer protein (Mttp) in the liver]. These mice exhibit markedly reduced levels of apolipoprotein B-100 in the plasma, along with reduced levels of triglycerides in the plasma. Despite the low plasma triglyceride levels, triglyceride levels in skeletal muscle were unaffected. Adiposity and adipose tissue triglyceride synthesis rates were also normal, and body weight curves were unaffected. Even though the blockade of VLDL secretion caused hepatic steatosis accompanied by increased ceramides and diacylglycerols in the liver, the mice exhibited normal glucose tolerance and were sensitive to insulin at the whole-body level, as judged by hyperinsulinemic euglycemic clamp studies. Normal hepatic glucose production and insulin signaling were also maintained in the fatty liver induced by Mttp deletion. Thus, blocking VLDL secretion causes hepatic steatosis without insulin resistance, and there is little effect on muscle triglyceride stores or adiposity.