Effects of chloride ion on HILL reactions in Euglena chloroplasts

Effects of Cl^– and other anions on the rate of HILL reactionin Euglena chloroplasts were investigated. Cl^– acceleratedthe reaction rate with ferricyanide as HILL oxidant; Br^–,F^– and I^– were also effective; NO₃^–, PO₄^2–and SO₄^2– were less effective. Divalent cations, Ca²⁺and Mg²⁺, were also highly effective. The promoting effectsof these ions were highly dependent on pH and the nature andconcentration of the HILL oxidant used. Accelerating effectsof the ion increased with decreasing concentrations of ferricyanide.Generally, the stimulating effect of Cl^– was much moremarked at pH 7–7.5, with little effect at pH 5. Thus,the pH-activity relationship in the HILL reaction is more orless markedly modified by addition of ions. Cl^–, and other anions, accelerated the reaction by affectingonly the dark rate-limiting portion of the HILL reaction; thelight reaction constant remained uninfluenced. We inferred thatsome reaction step, at which ferricyanide receives electronfrom photosystem 2, is accelerated by Cl^– and other ions.Cl^– effects were rather small, or undetectable, with DPIPor p-benzoquinone as oxidants. (Received January 8, 1970; )     

FLAVOPROTEIN IN CHLORELLA ELLIPSOIDEA CATALYZING TPNH-LINKED REDUCTION OF PLASTOCYANIN

1. An enzyme possessing a capacity of catalyzing reduction of thecopper protein, plastocyanin, with reduced pyridine nucleotides(TPNH-plastocyanin reductase) was isolated from Chlorella ellipsoidea.The procedures of purification and the properties of the purifiedenzyme are described.
2. From the results of chromatographicand enzymic tests, the prostheticgroup of the enzyme was identifiedas FAD. No evidence was obtainedto indicate the participationof metal ions in the reaction.
3. The enzyme utilizes both TPNHand DPNH as electron donors, butthe reaction is about 12 timesfaster with TPNH than with DPNH.
4. The enzyme, with TPNH aselectron donor, catalyzes the reductionof Chlorella plastocyanin,cytochrome c, 2,6-dichlorophenolindophenol and oxygen in adecreasing order of reaction rate.The reaction with oxygenas electron acceptor was found to bemuch more strongly acceleratedby the addition of higher concentrationsof flavins as comparedwith the reaction with other acceptors.FAD and FMN added tothe reaction mixture are not appreciablyreduced.
5. The propertiesof the enzyme are compared with those of alliedchloroplastenzymes reported by various investigators and thepossible roleof the new enzyme in photosynthesis is discussed.

(Received January 18, 1961; )     

EFFECT OF PLASTOCYANIN ON PHOTOPHOSPHORYLATION IN ISOLATED CHLOROPLASTS

The effect of addition of plastocyanin on photophosphorylationin isolated chloroplasts was studied in comparison with itseffect on photoreduction. Catalytic amounts of added plastocyaninstimulated the HILL reaction with NADP as oxidant, but the photophosphorylationcoupled to this reaction was not influenced by the additionof plastocyanin. The addition of NH₄+ or the complete phosphorylatingsystem did not affect the plastocyanin-induced increase in rateof the photoreduction. The rate of photoreduction of NADP, FMN,or indigo carmine in the presence of DPIP and ascorbate wasmuch accelerated by added plastocyanin, but these reactionswere not coupled to ATP formation. As reported earlier, isolated chloroplasts can utilize plastocyaninas oxidant in the HILL reaction. This reaction was found tobe accompanied by ATP formation, but the efficiency in thiscase was somewhat lower than in photophosphorylation coupledto the HILL reaction with the usual oxidants. The possible mechanism of these reactions is described brieflyand a scheme for reactions of plastocyanin in the electron transferin chloroplasts is presented. (Received July 20, 1965; )     

The Expression of Tyrosinase,Tyrosinase-Related Proteins 1 and 2 (TRP1 and TRP2), the Silver Protein,and a Melanogenic Inhibitor in Human Melanoma Cells of Differing Melanogenic Activities

The expression of various melanogenic proteins, including tyrosinase, the tyrosinase-related proteins 1 (TRP1) and 2 (TRP2/DOPAchrome tautomerase), and the silver protein in human melanocytes was studied in six different human melanoma cell lines and compared to a mouse derived melanoma cell line. Analysis of the expression of tyrosinase, TRP1, TRP2, and the silver protein using flow cytometry revealed that in general there was a positive correlation between melanin formation and the expression of those melanogenic enzymes. Although several of the melanoma cell lines possessed significant activities of TRP2, the levels of DOPAchrome tautomerase in extracts of human cells were relatively low compared to those in murine melanocytes. Melanins derived from melanotic murine JB/MS cells, from melanotic human Ihara cells and HM-IY cells, from sepia melanin, and from C57BL/6 mouse hair were chemically analyzed. JB/MS cells, as well as Ihara cells and HM-TY cells, possessed significant amounts of 5,6-dihydroxyindole-2-carboxylic acid (DHICA) derived melanins, this being dependent on the activity of TRP2. Kinetic HPLC assays showed that 5,6-dihydroxyindole (DHI) produced during melanogenesis was metabolized quickly to melanin in pigmented KHm-1/4 cells, whereas DHI was stable in amelanotic human SK-MEL-24 cells. A melanogenic inhibitor that has been purified from SK-MEL-24 cells that suppressed oxidation of DHI in the presence or absence of tyrosinase, but had no effect on DHICA oxidation. The sum of these results suggest that the expression of melanogenic enzymes as well as the activity of a melanogenic inhibitor are critical to the production of melanin synthesis in humans.     

STUDIES ON ALGAL CYTOCHROME II PHYSICO-CHEMICAL PROPERTIES OF CRYSTALLINE PORPHYRA TENERA CYTOCHROME 553

The Physico-chemical properties of an algal cytochrome, Porphyratenera cytochrome 553 were investigated, using a crystallinepreparation of the substance. The cytochrome was found to behighly resistant to heat and preservation. The stability ofthe cytochrome was also prominent in a wide range of pH. Absorption spectra as: well as data concerning the extinctioncoefficients of the oxidized and reduced forms are presented. The oxidation-reduction potential of the cytochrome was determinedat various pH. The value for the normal potential was foundto decrease gradually with increasing pH; from 355 mV at pH5.0, to 270 mV at pH 11.0. Electrophoretic investigation revealedthat this cytochrome is a markedly acidic protein, with an isoelectricpoint of pH 3.5. The molecular weight of the cytochrome wasdetermined from ultracentrifugal and diffusion experiments tobe 13,600. The values for the minimum molecular weight calculatedfrom the heme- and iron-contents are, respectively, 12,000 and11,000. (Received April 20, 1960; )     

Two modes of inhibition by 2-heptyl-4-hydroxyquinoline- N-oxide of electron transport associated with photosystem 2 in spinach chloroplasts

2-Heptyl-4-hydroxyquinoline-N-oxide (HOQNO) exerted two modesof inhibition on the Hill reaction in spinach chloroplasts.The first mode of inhibition by HOQNO, which developed rapidlyand reversibly on addition of the inhibitor to chloroplasts,was observed in the Hill reaction with various electron acceptorsand in photoreduction of methyl viologen with ascorbate as electrondonor, but was not observed in methyl viologen photoreductionsupported by reduced DPIP. Fifty percent inhibition of the Hillreaction was obtained with HOQNO at a low concentration of theorder of 10^–6 M. Besides the fast-developing inhibition, HOQNO caused a progressivedecrease in the Hill activity during the reaction when ferrricyanidewas used as electron acceptor. Similar time-dependent inactivationoccurred when chloroplasts were incubated with HOQNO and ferricyanidein the dark. Chloroplasts, thus inactivated, showed loweredactivity for ascorbate-supported methyl viologen photoreductionbut had unchanged activity for photoreduction with reduced DPIPas electron donor. Progress of the time-dependent inhibitionwas accelerated by increasing the concentration of HOQNO orferricyanide and was suppressed by addition of ferrocyanide.On changing the ratio of ferri- to ferrocyanide in the reactionmedium, fifty percent protection of the Hill activity was obtainedwith a ferri- and ferrocyanide mixture giving the redoxpotentialof 560 mv. A simple kinetic model for the second time-dependentinhibition by HOQNO is presented. ¹ Present address: Department of Botany, Faculty of Science,Toho University, Narashino 275, Chiba, Japan. (Received January 19, 1971; )     

Light-induced changes of b-type cytochromes in the electron transport chain of Euglena chloroplasts

Light-induced changes of b-type cytochromes in Euglena chloroplastswere studied spectrophotometrically.

1. In the dark and at pH 6.5, most of the cytochrome 558 in chloroplastswas in the reduced state, and most of the cytochrome 563, inthe oxidized state. Illumination of chloroplasts at pH 6.5 induceda rapid, but slight oxidation of cytochrome 552 and cytochrome558. The magnitude of photooxidation of cytochrome 558 was greatlyenhanced by the addition of 3-(3',4'-dichlorophenyl)-1,1-dimethylurea(DCMU). The rate of photooxidation in the presence of DCMU wasstimulated by the addition of 0.15 µM Euglena cytochrome552, or 100 µM methyl viologen.
2. Euglena chloroplasts,incubated at 55°C for 5 min showedno significant absorbancechanges for about 10 min after theonset of illumination. However,greater photooxidation of cytochrome558 was observed afterprolonged illumination, or in the presenceof DCMU or ethylenediaminetetraaceticacid (EDTA). Similar resultswere obtained with chloroplastspre-treated at pH 9.0–10.0for 5 min.
3. At pH 9.5, andin the dark, both cytochrome 563 and cytochrome558 were inan almost reduced state. On illumination at thispH, both cytochromeswere photooxidized, with a complicatedkinetics, showing aninitial rapid and small absorbance decrease,followed by a stagnantphase of temporary retarded reaction.In the presence of DCMUor EDTA, photooxidation proceeded rapidlywithout a stagnantphase.
4. At pH 6.5 cytochrome 558, on cessation of illumination,wasquickly reduced to the initial level. At pH 9.5, there wasalsoappreciable re-reduction of cytochrome 558 and 563 whenthelight was turned off at an early stage of illumination.Theamounts of re-reduction of the cytochromes in the subsequentdark period, however, decreased as photooxidation of cytochromesproceeded. This decrease was accelerated by the presence ofDCMU.
5. At pH 9.5 ascorbate and manganese served as electrondonorsfor die DCMU-sensitive photooxidation of cytochromes558 and563.
6. Experimental results are discussed with specialreference tothe occurrence of two pools of electron carriers,one at thereducing side and the other at the oxidizing sideof photosystem2. The role of manganese in the latter pool ofelectron carriersis also discussed.

(Received March 11, 1970; )     

Phylogeny of Regulatory Regions of Vertebrate Tyrosinase Genes

Highly homologous DNA elements were found to be shared by the upstream regions of the mouse tyrosinase and tyrosinase related protein (TRP-1) genes. Several nuclear proteins were shown to bind to both of these upstream regions. Shared homologous DNA elements were also found in the 5’ flanking sequences of Japanese quail and snapping turtle tyrosinase genes. Shared homologous nucleotide sequences were found to be scattered like an archipelago in the 5’ upstream regions of mouse and human tyrosinase genes. Comparisons between Japanese quail and snapping turtle tyrosinase genes gave similar results. On the contrary, mammalian (mouse and human) and nonmammalian (quail and snapping turtle) tyrosinase genes did not show significant homology in their 5’ upstream regions. In contrast, coding sequences in the first exons of vertebrate tyrosinase genes and their deduced amino acid sequences were found to be highly conserved except for their putative leader sequence-coding regions.     

STUDIES ON ALGAL CYTOCHROME: I. ENZYMIC ACTIVITIES PERTAINING TO PORPHYRA TENERA CYTOCHROME 553 IN CELL-FREE EXTRACTS

1. Enzymic activities pertaining to Porphyra tenera cytochrome553 were investigated with cell-free extracts of a red alga,Porphyra tenera, and various fractions prepared therefrom.
2. Thealgal extracts were found to be incapable, in the dark,of catalyzingoxidation of reduced cytochrome 553 at a ratesufficient toaccount for the respiratory oxygen-uptake in theintact cell.Oxidation of cytochrome 553 was highly acceleratedon illumination.The former reaction was found to be cyanide-sensitiveand thelatter, cyanide-insensitive. Both activities were foundto belocalized in the particulate fraction of the cell extract.
3. Significantactivities of reduced pyridine nucleotide-cytochromereductasewere discovered in the soluble fraction of the cellextract,the reaction being two or three times faster with TPNHthanwith DPNH as electron donor. There was no reaction withsuccinatein the presence of cytochrome and 2,6–dichlorophenolindophenol.
4. Porphyra tenera cytochrome 553 was shown to be localized inthe plastids of the algal cell.
5. Possible functions of cytochrome553 in the algal metabolismwere discussed.