Effects of Light on Degradation of Chlorophyll and Proteins during Senescence of Detached Rice Leaves

Regulatory effects of light on senescence of rice leaves wereinvestigated by measuring degradation of chlorophyll and proteinsin leaf segments which had been kept in the dark or under illuminationwith light of different intensities and colors. When leaveshad been left in total darkness for three days at 30°C,there was an initial long lag that lasted for one whole dayand then chlorophyll was rapidly degraded in the second andthird days. Breakdown of chlorophyll was strongly retarded bycontinuous illumination with white light of intensity as lowas 0.5 µmol photons m^–2 s^–1 but the effectof light decreased at intensities above 10 µmol photonsm^–2 s^–2. The initial lag and subsequent degradationof chlorophyll in the dark were little affected by illuminationwith red or far red light at the beginning of dark treatment.However, a brief illumination with red light at the end of thefirst and/or second day significantly suppressed degradationof chlorophyll during subsequent dark periods and the effectof red light was nullified by a short irradiation with far redlight. Thus, degradation of chlorophyll is regulated by phytochrome.Thylakoid membrane proteins and soluble proteins were also largelydegraded during three days in the dark. Degradation of membraneproteins such as the apoproteins of light-harvesting chlorophylla/b proteins of photosystem II and chlorophyll a-binding proteinsof reaction center complexes showed a long lag and was stronglysuppressed by illumination with weak white light. Thus, theloss of chlorophyll can be correlated with degradation of chlorophyll-carryingmembrane proteins. By contrast, light had only a weak protectingeffect on soluble proteins and ribulose-1,5-bisphosphate carboxylase/oxygenaserapidly disappeared under illumination with weak white light.Thus, breakdown of thylakoid membrane and soluble proteins aredifferently regulated by light. Artifacts which would be introducedby detachment of leaves were also discussed. ¹ Present address: Department of Applied Biology, Faculty ofScience and Technology, Science University of Tokyo, Yamazaki,Noda-shi, Chiba, 278 Japan. ² Present address: Department of Life Science, Faculty of Science,Himeji Institute of Technology, Harima Science Park City, Hyogo,678-12 Japan.     

Light Activation of Pyruvate, Orthophosphate Dikinase in Maize Mesophyll Chloroplasts: A Role for Adenylate Energy Charge

Pyruvate, orthophosphate dikinase (EC 2.7.9.1 [EC] ) was activatedin the light and inactivated following a dark treatment in intactmaize mesophyll chloroplasts. Addition of catalase (100–250units/ml) to the assay medium was necessary to obtain good activationand to keep the enzyme in an active state during illumination.Arsenate and carbonyl cyanide m-chlorophenyl-hydrazone, uncouplersof photophosphorylation, inhibited the activation. Pyruvate,which has been proposed to have a critical role in supportingthe light activation of pyruvate, orthophosphate dikinase, actuallyinhibited the activation. The pyruvate level in the chloroplastsuspension decreased when the enzyme was light-activated. Measurementsof adenylates and pyruvate in the chloroplasts indicated thatthe energy state of the chloroplasts was more important forthe light activation than was the level of pyruvate. ¹Present address: Department of Biochemistry, Faculty of Science,Saitama University, 255, Shimo-Okubo, Urawa, 338 Japan ²Present address: National Institute of Agrobiological Resources,Yatabe, Tsukuba, Ibaraki, 305 Japan (Received May 2, 1989; Accepted October 2, 1989)     

COMPARATIVE STUDIES ON GROWTH, RESPIRATION, PHOTOSYNTHESIS AND PIGMENT CONTENT IN RHODOPSEUDOMONAS PALUSTRIS

1. Comparative studies were performed on growth, photosyntheticand respiratory activities, and pigment content in Rhodopseudomonaspalustris.
2. The growth of the organism, as influenced by variousculturalconditions such as light, aerobiosis, anaerobiosisand nutritionalfactors was investigated.
3. The respiratoryactivity of the bacterium was found to be higherin dark-growncells than in cells grown in the light. The photosyntheticactivitydid not significantly depend on the growth conditionsof theculture. Cells of younger cultures were found to be moreactivethan those of older cultures, with respect both to respirationand photosynthesis.
4. The pigment content was found to be higherin the light-growncells than in the dark-grown ones. The ratiophotosyntheticactivity/bacteriochlorophyll was significantlyhigher in thelatter than in the former.
5. Light, as well asvarious nutritional factors, was found toexert a marked accelerationon pigment formation, although ithas not yet been possibleto culture cells completely lackingin photosynthetic pigmentsand accordingly in photosyntheticactivity.

¹ Present address: Division of Dermatology and Urology, TokyoMetropolitan Hiroo Hospital, Tokyo. ² Present address: Department of Biology, Saitama University,Urawa. ³ Present address: Department of Biochemistry, School of Medicine,Yokohama University, Yokohama. ⁴ Present address: Department of Biophysics and Biochemistry,Faculty of Science, University of Tokyo, Tokyo. (Received July 23, 1961; )     

A Method for the Rapid Growth in Culture of Gametophytes of Equisetum arvense with Antheridia

Rapid growth in culture of Equisetum arvense gametophytes wasobtained using Murashige-Skoog's medium plus 3% (w/v) sucroseand continuous illumination. In darkness, growth was reducedand chlorophyll synthesis markedly inhibited. Antheridia formedon the top margin of gametophytes in light and darkness butarchegonia were not observed in either case. ¹Present address: Interdisciplinary Research Institute of EnvironmentalSciences, Higashi-yanagi-cho, Nishi-iru, Shichihon-matsu, Itsutsuji-dori,Kamigyo-ku, Kyoto, 602 Japan. (Received June 5, 1989; Accepted September 12, 1989)     

Novel Light-Dark Change of Proline Levels in Halophyte (Mesembryanthemum crystallinum L.) and Glycophytes (Hordeum vulgare L. and Triticum aestivum L.) Leaves and Roots under Salt Stress

Proline accumulation was determined in a facultative halophyte,Mesembryanthemum crystallinum and glycophytes, barley (Hordeumvulgare L.) and wheat (Triticum aestivum L.) Proline accumulationpreceded the shift of CAM in M. crystallinum and did not occurin the continuous darkness. The novel light-dark change of prolinelevel (high in the light and low in the dark) was observed inleaves of all three plants. Proline levels of shoots in barleyand wheat also showed the same light-dark change, suggestingthat proline accumulated in the leaves in the light was nottranslocated to other tissues in the dark period. These resultssuggest that proline has a bifunctional role in the acclimationto high salt stress; an osmoregulant role in the light, anda substrate for dark respiration to supply energy to compartmentationof ions into vacuole in the dark. ¹Present address: Kyoto Biological Res. Lab., Bio-Chiba Inc.Watsuka,Soraku, Kyoto, 619-12 Japan ²Present address: Kobayashi Pharmaceutical Co., Ltd. Doshomachi,Chuo-ku, Osaka, 541 Japan     

Photoconversion of protochlorophyll to chlorophyll a in a mutant of Chlorella regularis

Dark-grown cells of a mutant strain of Chlorella regularis containedchlorophyll a and protochlorophyll, phytyl ester of protochlorophyllide.Under illumination, protochlorophyll was quantitatively anddirectly converted into chlorophyll a. The photoconversion wasdependent on light intensity and temperature and proceeded ina cell-free preparation. The pathway of chlorophyll formation found in the mutant cellsis entirely different from that from protochlorophyllide byway of chlorophyllide a, which is generally observed in greenplants. ¹Present address: Division of Biology, Medical College of Miyazaki,Miyazaki 889-16, Japan. ²Present address: Division of Environmental Biology, The NationalInstitute for Environmental Studies, Ibaragi 300-21, Japan. (Received October 24, 1975; )     

Increase of cytokinin activity in detached etiolated cotyledons of squash after illumination

Cytokinins nullified the lag period of the formation of chlorophyllin detached etiolated cotyledons of squash (Cucurbita moschataDuch. var. melonaeformis Makino cv. Tokyo). One hour after illumination,cytokinin activity in detached cotyledons rapidly increasedand maintained a certain level for another hour. ¹ Present address: Department of Enviromental Studies, Collegeof Integrated Arts and Sciences, Hiroshima University, Hiroshima730, Japan. (Received November 25, 1976; )     

Cytoplasmic Alkalization and Cytoplasmic Streaming Induced by Light and Histidine in Leaf Cells of Egeria densa: in vivo 31P-NMR study

Rotational streaming of the cytoplasm including chloroplastswas induced by L-histidine, as well as by light, on the anticlinalface of leaf cells of Egeria densa. In the case of treatmentwith L-histidine some of the chloroplasts remained stationaryon the periclinal face of cells after rotational cytoplasmicstreaming was initiated. However, these chloroplasts were easilydislodged and translocated to the centrifugal end of the histidine-treatedcells by application of a centrifugal force that barely affectedthe location of chloroplasts in cells incubated in the darkwithout L-histidine. This result indicates that the anchoringof chloroplasts was weakened by L-histidine. Thus only the releaseof chloroplasts from anchoring was not enough for initiationof their streaming. The cytoplasmic pH (pH_c) and vacuolar pH(pH_v) were noninvasively monitored by in vivo ³¹P-nuclear magneticresonance (NMR) spectroscopy. Compared with the dark controlvalue, both illumination and treatment with L-histidine increasedthe pH_c by 0.3 units. In contrast, pH_v changed only a littlewith both illumination and treatment with L-histidine. Releaseof chloroplasts from anchoring and initiation of cytoplasmicstreaming are discussed in relation to the increase in pH_c inducedby both light and L-histidine. ⁴ Present address: Department of Cell Biology, National Instituteof Agrobiological Resources, Kannondai, Tsukuba, Ibaraki, 305Japan ⁵ Present address: Marine Biotechnology Institute Co., Ltd.,Head Office, 2-35-10 Hongo, Bunkyo-ku, Tokyo, 113 Japan (Received July 16, 1990; Accepted December 20, 1990)     

Photocontrol of Nuclear DNA Replication in Chattonella antiqua (Raphidophyceae)

The timing of nuclear DNA replication was examined in a synchronizedcell population of a red-tide flagellate, Chattonella antiqua,using fluorescence microspectrophotometry with a DNA-specificfluorochrome, 4',6-diamidino-2-phenylindole (DAPI). Under alternating12-h periods of light and dark (12L12D), nuclear DNA began toincrease synchronously ca. 10 h after the onset of light irradiation.Even when the light-off timing of the light period or the wholespan of the 12-h light period was shifted after synchronizationunder 12L12D cycles, the timing of the beginning of nuclearDNA replication was invariably ca. 10 h from the onset of lightirradiation. When irradiation was not given, there was no increaseof nuclear DNA. The conclusion reached was that light irradiationis necessary for nuclear DNA replication in Chattonella antiquaand that the timing of the replication is dependent upon onlythe timing of the onset of the last irradiation. In other words,a light-on signal induces the transition of cell nuclei fromthe G₁ into the S phase and also determines the timing of thisevent. When not irradiated, cells are arrested in the G₁ phase. ³ Present address: Department of Biology, Faculty of Science,University of Tokyo, Hongo, Tokyo 113, Japan. ⁴ Present address: Frontier Research Programs, RIKEN, Wako-city,Saitama 351-01, Japan. (Received February 28, 1987; Accepted June 5, 1987)     

Purification and Some Properties of Cytochrome b-560 from Nitrosomonas europaea

Cytochrome b-560 was purified to an electrophoretically homogeneousstate from Nitrosomonas europaea. It showed absorption peaksat 427, 530 and 560 nm in the reduced form. Its molecular weightwas estimated to be 44,000 by SDS-polyacrylamide gel electrophoresisand the same value was obtained on the basis of the contentsof haem and protein. The cytochrome was not autoxidizable anddid not react with CO. ¹Present address: Tokyo Research Center, TOSOH Corporation,Hayakawa, Ayase-shi, Kanagawa 252, Japan ²Present address: Faculty of Integrated Arts and Sciences, HiroshimaUniversity, Higashisenda-machi, Hiroshima 730, Japan (Received March 23, 1988; Accepted June 2, 1988)     

Spectral effectiveness in chlorophyll and 5-aminolevulinic acid formation during regreening of glucose-bleached cells of Chlorella protothecoides

Regreening of glucose-bleached cells of Chlorella protothecoidesis stimulated by light. Spectral effectiveness in the processshowed maxima around 370, 440 and 480 nm, suggesting a flavoproteinas primary photoreceptor. Action spectra of ALA synthesis provedto be similar to those of chlorophyll formation, indicatingthat light stimulation of greening in this alga is regulatedat the first step of chlorophyll biosynthesis. ¹ Present address: Institute of Applied Microbiology, Universityof Tokyo, Tokyo 113, Japan. (Received March 27, 1978; )     

Periplasmic location of dissimilatory nitrate and nitrite reductases in a denitrifying phototrophic bacterium, Rhodopseudomonas sphaeroides forma sp. denitrificans

The localization of dissimilatory nitrate and nitrite reductasesof a denitrifying phototrophic bacterium, Rhodopseudomonas sphaeroidesforma sp. denitrificans, was investigated. Nitrate and nitritereductases were located in the periplasmic space of the bacteriumgrown anaerobically in the presence of nitrate either in lightor in darkness. Chromatophores showed nitrate and nitrite reductaseactivities when dithionite-reduced benzyl viologen was an electrondonor; this suggests that the enzymes were trapped inside thevesicles. ¹Present address: Japanese Red Cross Central Blood Center, Hiroo4-1-31, Shibuyaku, Tokyo 150, Japan. ²Present address: Plant Growth Laboratory, University of California,Davis, California 95616, U.S.A. (Received November 7, 1979; )     

Role of Light in 5-Aminolevulinic Acid Formation in Wild Strain and Mutant C-2A' Cells of Scenedesmus obliquus

In dark-grown wild strain cells of Scenedesmus obliquus, 5-aminolevulinicacid (ALA) formation was induced by irradiation with a weakblue light, as in its mutant C-2A' cells. The induction wasinhibited by distamycin A, 6-methylpurine, cycloheximide andchloramphenicol. After the light induction, the ALA formationcould proceed in the dark as well as in the light, in such heterotrophicallygrown wild type cells, but not in the greening mutant C-2A'cells. In the latter, ALA formation was dependent on red light,as well as on blue light, in the presence of CMU. The amountsof protochlorophyll in the mutant cells increased upon cessationof illumination and decreased with subsequent irradiation withblue and red light. The possible role of protochlorophyll asa photoreceptor in regulation of ALA formation in the mutantcells is discussed. ¹Present address: Laboratory of Chemistry, Faculty of Medicine,Teikyo University, Otuka, Hachioji, Tokyo 192-03, Japan. (Received January 17, 1981; Accepted April 30, 1981)     

Involvement of Poly(ADP-Ribose) Synthesis in Transdifferentiation of Isolated Mesophyll Cells of Zinnia elegans into Tracheary Elements

The relationship between poly(ADP-ribose) synthesis and cytodifferentiationwas studied in the well characterized Zinnia system, in whichisolated mesophyll cells of Zinnia elegans transdifferentiateinto tracheary elements (TE) in a suspension culture in thepresence of both auxin and cytokinin. The rate of poly(ADP-ribose)synthesis was measured in nuclei isolated from cells that hadbeen induced to undergo transdifferentiation, and activationof such synthesis was observed before the appearance of TE duringculture. In cultures without auxin or cytokinin, poly-(ADP-ribose)synthesis appeared to proceed much more slowly. Treatment of cells with a potent inhibitor of poly-(ADP-ribose)polymerase, namely, 6(5H)-phenanthridinone (PT), resulted inthe blockage of TE formation and a decrease in the frequencyof cell division. PT was very effective in interfering withtransdifferentiation, in particular, when supplied between the24th hour and the 36th hour of culture. Repair-type DNA synthesis,which has been proposed to participate in transdifferentiation,was suppressed by the treatment with PT. These results suggestthat poIy(ADP-ribose) synthesis and subsequent repair-type DNAsynthesis might play a critical role in the transdifferentiationof Zinnia cells. ³Present address: Botanical Gardens, Faculty of Science, Universityof Tokyo, Hakusan, Bunkyo-ku, Tokyo, 112 Japan. ⁴Present address: Department of Chemical and Biological Sciences,Faculty of Science, Japan Women's University, Mejirodai, Bunkyo-ku,Tokyo, 112 Japan.     

Effects of Growth Regulators on the Induction of Anthocyanin Synthesis in Carrot Suspension Cultures

The effects of plant growth regulators were investigated onanthocyanin synthesis induced by removing auxin from carrotsuspension cultures. Of the auxins tested, 2,4-D showed thestrongest inhibiting effect on anthocyanin synthesis and hadthe strongest promoting effect on undifferentiated growth. When2,4-D was added to anthocyanin synthesizing cells, in whichcell division had ceased, anthocyanin synthesis was repressedimmediately, accumulated anthocyanin disappeared and cell divisionresumed. All cytokinins examined promoted anthocyanin synthesisin the absence of auxin. Both gibberellic acid (GA₃) and abscisicacid inhibited anthocyanin synthesis in media lacking 2,4-D,though GA³ showed no effect on cell division. These effectsof growth regulators on anthocyanin synthesis are similar tothose reported for their effects on embryogenesis [Fujimuraand Komamine (1975) Plant Sci. Lett. 5: 359, (1979) Z. Pflanzenphysiol.95: 13, (1980) Z. PJlanzenphysiol. 99: 1]. The relationshipbetween the induction of anthocyanin synthesis, metabolic differentiation,and embryogenesis are discussed. ¹ Present address: Department of Biology, College of Arts andSciences, The University of Tokyo, Komaba, Meguro-ku, Tokyo153, Japan. ² Present address: Biological Institute, Faculty of Science,Tohoku University, Sendai, Miyagi 980, Japan. (Received November 28, 1985; Accepted July 23, 1986)     

Effects of Leaf Chilling on Thylakoid Functions, Measured at Room Temperature, in Cucumis sativus L. and Oryza sativa L.

Photosynthetic functions in leaves of cucumber (Cucumis sativusL.) and rice (Oryza sativa L.) were examined before and aftervarious chilling treatments. Cucumber leaves lost the capacityfor the photosynthetic oxygen evolution after chilling at 0°Cin the dark for 48 h. Thyla-koids isolated from such leaveswere not able to reduce dichloroindophenol (DCIP), but the additionof diphenylcarbazide (DPC), an electron donor to PS II, restoredthe ability to reduce DCIP, indicating that the site of damageis in the water-splitting machinery of PS II. In moderate light (500 jumol quanta m^–2s^–1), chillingof cucumber leaves at 5°C for 5 h was sufficient to inducethe complete loss of the capacity for photosynthetic oxygenevolution. Electron transport rates measured in thylakoids wereunaltered, but thylakoids were totally permeable to protons.Since the addition of dicyclohexylcarbodiimide (DCCD) restoredcoupling and the capacity for proton uptake, the primary siteof damage was deduced to be in the ATPase. In rice, both chilling treatments had barely any effect on thylakoidfunctions, although some negative effects was apparent in photosynthesisin leaves. ¹Present address: Department of Botany, Faculty of Science,University of Tokyo, Hongo, Bunkyo-ku, Tokyo, 113 Japan. ²Present address: Department of Botany, Duke University, Durham,NC 27706, U.S.A. (Received January 11, 1989; Accepted June 12, 1989)     

Comparison of carbon dioxide fixation and the fine structure in various assimilatory tissues of Amaranthus retroflexus L

The pattern for primary products of CO₂-fixation and the chloroplaststructure of Amaranthus retrqflexus L., a species which incorporatescarbon dioxide into C₄ dicarboxylic acids as the primary productof photosynthesis, were compared in various chlorophyll containingtissues,i.e., foliage leaves, stems, cotyledons and pale-greencallus induced from stem pith. Despite some morphological differencesin these assimilatory tissues, malate and aspartate were identifiedas the major compounds labelled during a 10 sec fixation of¹⁴CO₂ in all tissues. Whereas, aspartate was the major componentin C₄-dicarboxylic acids formed in foliage leaves, malate predominatedas the primary product in stems, cotyledons and the pale-greencallus. The percentage of ¹⁴C-radioactivity incorporated intoPGA and sugar-P esters increased and ¹⁴C-sucrose was detectedin the prolonged fixation of ¹⁴CO₂ in the light, not only infoliage leaves, but also in stems and cotyledons. ¹ This work was supported by a Grant for Scientific ResearchNo. 58813, from the Ministry of Education, Japan. ² Present address: Institute of Applied Microbiology, Universityof Tokyo, Tokyo, Japan. ³ Present address: Department of Biochemistry, University ofGeorgia, Athens 30601. Georgia, U. S. A. (Received July 10, 1971; )     

Tentoxin Inhibits Both Photophosphorylation in Thylakoids and the ATPase Activity of Isolated Coupling Factor F1 from the Cyanobacterium Anacystis nidulans

Tentoxin strongly inhibited the ATPase activity of isolatedcoupling factor 1 (AF₁) from the cyanobacterium Anacystis nidulans,with 50% inhibition occurring at 0.3 µM. When thylakoidsfrom A. nidulans were preincubated with 0.3 µM tentoxinfor 30 min, photophosphorylation was inhibited by 50%. Measurementsof fluorescence from 9-aminoacridine indicated that tentoxininhibited the utilization of the proton gradient by ATP formationin thylakoids. These results indicate that tentoxin is a strongenergy-transfer inhibitor of photophosphorylation in A. nidulans.Tentoxin decreased the level of ATP in intact cells both inthe light and in darkness, its effects being much stronger inthe dark. Tentoxin at 50 µM strongly inhibited the growthof the cells. ³Present address: Corporate Research and Development Laboratory,Tonen Co. 1-3-1 Nishi-tsurugaoka, Ohi-machi, Saitama, 354 Japan ⁴Present address: Technology and Engineering Laboratories, AjinomotoCo., Inc. Suzuki-cho 1, Kawasaki, 210 Japan     

Phenotypic Characterization and Molecular Mapping of an acaulis2 Mutant of Arabidopsis thaliana with Flower Stalks of Much Reduced Length

An acaulis2-1 (acl2-1) mutant of Arabidopsis thaliana (L.) Heynh.was isolated and characterized. The mutant had inflorescencesof much reduced length. The defect was severer in lower internodesand was visible preferentially in type 2 metamers. The defectin the elongation of internodal cells of inflorescences wasattributable to a defect in the mechanism for elongation ofthese cells. The cortical microtubules (MTs) were analyzed inthe acl2 mutant, in a comparison with those of an acl1 mutantwhich was described earlier, but no changes were detected inamounts of MTs. In the type 2 and type 3 metamers, the defectin elongation in acl mutants was loosely correlated with a changein the orientation of MTs. Thus, the abnormal arrangement ofMTs appears to be one of the pleiotropic effects of acaulismutations. Genetic mapping was performed using molecular markers and theACL2 gene was located at 100 map units on chromosome 1. ¹Present address: Institute of Molecular and Cellular Biosciences,The University of Tokyo, Yayoi, Bunkyo-ku, Tokyo, 113 Japan ²Present address: Division of Biological Sciences, GraduateSchool of Science, Hokkaido University, Kita-ku, Sapporo, 060Japan     

Formation of protochlorophyll(ide) in wild type and mutant C-2A' cells of Scenedesmus obliquus

Protochlorophyll(ide) was isolated from dark-grown wild typeand mutant C-2A' cells of Scenedesmus obliquus after dark incubationwith 5-aminolevulinate. Proto-chlorophyll(ide) was detectedin mutant cells grown heterotrophically at 29°C or at 21°C.At the latter temperature chlorophyll synthesis was significant.Regulation of chlorophyll synthesis in algae is discussed. ¹Present address: Laboratory of Chemistry, Faculty of Medicine,Teikyo University, Otsuka, Hachioji, Tokyo 192-03, Japan. (Received July 14, 1980; )