Enzymes involved in the last steps of the biosynthesis of mannitol in brown algae

Mannitol-1-phosphate dehydrogenase (EC 1.1.1.17 [EC] ) and mannitol-1-phosphatase(EC number yet unassigned) were detected in the brown algae,Spatoglossum pacificum and Dictyota dichotoma. The enzymes wereextracted from algal fronds and their properties were investigatedusing partially purified preparations. Mannitol-1-phosphatase shows maximum activity at pH 7. The enzymehad a narrow substrate specificity. The Km value for mannitol-1-phosphateis 8.3x10^–4 M (30°C, pH 7.0). The enzyme is activatedby Mg⁺⁺ and Mn⁺⁺and is strongly inhibited by PCMB, Hg⁺⁺and NaF. Mannitol-1-phosphate dehydrogenase showed maximum activitiesat pH values 6.5 and 10.2 in reductive and oxidative reactions,respectively. The dehydrogenase also showed narrow substratespecificity; mannitol-1-phosphate and NAD or fructose-6-phosphateand NADH₂ are utilized, respectively, in oxidative and reductivereactions by the enzyme. Km values for these substrates andthe coenzymes are 2.5x10^–4 M and 7.1x10^–5 M forthe first pair and 2.8x10^–4 M and 1.3x10^–5 M forthe latter pair. This enzyme was strongly inhibited by PCMBand Hg⁺⁺, but was only slightly affected by adenosine phosphates. Possible roles of these enzymes in the biosynthesis of mannitolin brown algae are discussed. ¹ Contributions from the Shimoda Marine Biological Station ofTokyo Kyoiku University, No. 233. This work was supported inpart by a Grant-in-Aid for Co-operative Research from the Ministryof Education, Japan and in part by a grant to one of us (T.Ikawa) from the Matsunaga Science Foundation. ² Present address: Chemical and Physical Laboratory, HoechstJapan Research Laboratory, Minamidai, Kawagoe, Japan. (Received February 22, 1972; )     

THE RELATION BETWEEN RED AND BLUE OR FAR-RED LIGHTS IN THE NIGHT-INTERRUPTION OF THE PHOTOPERIODIC TUBERIZATION IN BEGONIA EVANSIANA

Effects of night-interruption on the aerial tuber formationof Begonia evansiana Andr. were investigated. Among coloredlights tested, red light was most effective to reduce the photoperiodicresponse. It inhibited tuberization almost completely at lowintensities. The red lightaction was partially reversed by subsequentblue or far-red irradiation under the 12-hour daylength, andthe relation between the red and the blue or far-red lightswas reversible. No reversal, however, was observed under the8-hour daylength. The inhibitory action of red light remainedunchanged on irradiating with red, blue or far-red light beforethe night periods. ¹Present address: Department of Horticulture, Purdue University,Lafayette, Indiana, USA     

Effect of shade treatment on biosynthesis of catechins in tea plants

When tea plants were shaded with black lawn cloth for severaldays in the field, the accumulations of (—)-epicatechin,(—)-epicatechin-3-gallate, (—)-epigallocatechinand (—)-epigallocatechin-3-gallate decreased in newlydeveloping tea shoots. Radioactive tracer studies showed thatthe conversions of glucose-U-¹⁴C, shikimic acid-G-¹⁴C and phenylalanine-U-¹⁴Cinto (—)-epicatechin and (—)-epigallocatechin moietieswere depressed by the shade treatment for tea plants but theincorporation of trans-cinnamic acid-3-¹⁴C was not affected.The treatment was found to have no significant effect on theactivities of phospho-2-keto-3-deoxy-heptonate. aldolase (EC.4.1.2.15 [EC] ), 3-dehydroquinate synthase (EC. 4.6.1.3 [EC] ), 3-dehydroquinatedehydratase (EC. 4.2.1.10 [EC] ), shikimate dehydrogenase (EC. 1.1.1.25 [EC] )and trans-cinnamate 4-monooxygenase (EC. 1.14.13.11 [EC] ) in theshoots, whereas the activity of phenylalanine ammonia-lyase(EC. 4.3.1.5 [EC] ) clearly decreased. (Received March 17, 1980; )     

The Role of the Red/Far-Red Ratio in the Response of Tropical Tree Seedlings to Shade

The West African species Khaya senegalensis and Terminalia ivorensiswere grown in a controlled environment, varying the photon fluxdensity in the range 18–610 µmol m^–2 s^–1and the red/far-red ratio over an appropriate range to simulatethe shade of a tree canopy versus unattenuated daylight. Theshade tolerant seedlings of Khaya were relatively insensitiveto the red/far-red ratio. The light demanding Terminalia wasconsiderably affected: when the ratio was low the specific leafarea was increased and the leaves produced were very much largerin area. Thus, the Leaf Area Ratio was enhanced and the plantsdisplayed an increase in Relative Growth Rate. Khaya, Terminalia, tropical trees, shade, red/far-red ratio     

Abscission: Response to Red and Far-Red Light

Craker, L. E., Zhao, S. Y. and Decoteau, D. R. 1987. Abscission:response to red and far-red light.—J. exp. Bot. 38: 883–888. The dose-response and time relationship of red and far-red lightin the inhibition and promotion, respectively, of dark-inducedleaf abscission was quantified using cuttings of coleus (ColeusBlumei Benth.). A continuous photon flux of approximately 15nM m^–2 s^–1 of red light was sufficient to preventleaf abscission. Abscission was promoted by exposure to a photonflux of approximately 10 nM m^–2 s^–1 of far-red lightThe inhibition of abscission by red light could be reversedby treatment with far-red and the promotion of abscission byfar-red light could be reversed by treatment with red lightThe data were consistent with a phytochrome receptor systemlocated in the leaves that controlled the presence of an abscission-inhibitingsubstance in the abscission zones. Key words: Abscission, Coleus Blumei, far-red light red light     

BLUE LIGHT, PHYTOCHROME AND THE FLOWERING OF LEMNA PERPUSILLA 6746

Lemna perpusilla 6746 was grown on HUTNER'S medium with sucroseunder light schedules combining red, blue and far-red light.As shown earlier, brief red exposures added to a continuousblue schedule inhibit flowering although either schedule alonepermits it; hence red and blue act together in establishinga long day (flower inhibiting) condition. However, the red exposurerequired to inhibit flowering is greater with high intensitythan with low intensity continuous blue, suggesting in additiona blue-red antagonism. Blue light reverses the effects of abrief red exposure closing a blue or far-red main photoperiod,but it also reverses the effects of a brief far-red exposureclosing a red photoperiod. Thus, blue can act either like redor like far-red, depending on the situation. All effects ofblue light on the flowering of L. perpusilla 6746 are consistentwith the notion that it establishes a Pfr level intermediatebetween those established by red and far-red light; the postulationof an additional photoreaction to explain the effects of blueseems unnecessary. ¹Research carried out at Brookhaven National Laboratory underthe auspices of the U. S. Atomic Energy Commission.     

A Protein Encoded by din1, a Dark-Inducible and Senescence-Associated Gene of Radish, Can Be Imported by Isolated Chloroplasts and Has Sequence Similarity to Sulfide Dehydrogenase and Other Small Stress Proteins

In an attempt to isolate cDNA clones for dark-inducible chloroplastproteins, we screened a cDNA library which was prepared fromradish cotyledons by a two-step method. The source plants weregrown under continuous light for 14 d and kept in darkness for24 h. One of the selected clones, S2D12, corresponded to thedin1 gene which we previously reported as a dark-inducible,senescence-associated gene [Azumi and Watanabe (1991) PlantPhysiol. 95: 577]. A 22 kDa polypeptide was produced from thecDNA in an in vitro expression system in the presence of [³⁵S]methionine.This polypeptide was capable of being imported by isolated chloroplasts,processed to a smaller mature form and localized in the stromalfraction. As the amino acid sequence of the putative matureprotein has no homology to any known chloroplast protein, din1was suggested to be the first gene for a chloroplast proteinwhich is negatively controlled by light. The putative matureprotein has similarity to sulfide dehydrogenase from Wolinellasuccinogenes and other small stress proteins; glpE and pspEfrom Escherichia coli and hsp67B2 from Drosophila melanogaster. ¹ The nucleotide sequence data in this paper has been submittedto EMBL, GenBank and DDBJ Data Libraries under the acces sionnumber AB004242 ² Present address: The Institute of Physical and Chemical Research(RIKEN), 2-1 Hirosawa, Wako-shi, Saitama, 351-01 Japan     

Phytochrome Control of Its Own Synthesis in Pisum sativum

An analysis of phytochrome synthesis in Pisum seedlings by measuringthe activity of polysomal polyadenylated RNA (poly-A⁺-RNA) codingfor phytochrome apoprotein showed phytochrome control of itsown synthesis; brief red-light irradiation of pea seedlingsinhibited the activity of the RNA, and the red-light effectwas red/far-red reversible. ⁴ Permanent address: Biology Department, Faculty of Science,University of Tokyo, Hongo, Tokyo 113, Japan. (Received August 13, 1984; Accepted September 17, 1984)     

SPECTRAL SENSITIVITY OF SEED GERMINATION IN ARTEMISIA MONOSPERMA

The absolute requirement for light in the germination of achenesof Artemisia monosperma is as satisfied by radiant energy inthe blue, green, yellow, red and far-red regions of the visiblespectrum, as by unfiltered white light. The same stimulationwas obtained by a short irradiation as by an uninterrupted one.Phytochrome seems to be either absent, or masked by a differentpigment which absorbs light in the entire visible spectrum andthus initiates germination. ¹ This study was supported by grant FG-Is-115 from the UnitedStates Department of Agriculture.     

Photoreversible and photoirreversible absorbance changes in the red and far-red spectral regions in Zea primary roots

When 2-mm apical segments of the primary roots of Zea mays L.(cv. Golden Cross Bantam 70) were irradiated successively withred and far-red light, a photoirreversible absorbance decreasewas separated from the red far-red reversible absorbance changetypical of phytochrome. The difference spectrum of the reversiblechange showed maximum absorbance changes at 666 and 730 nm,while the photoirreversible change induced by red light showeda maximum decrease at 640 nm. The photoreversible absorbancechange was linearly proportional to the fluence of red lightbetween 1 and 6 J m^–2, while the photoirreversible absorbancechange was proportional to its logarithm. Red light of approximately6 J m^–2 induced 50% of the maximum photoirreversible absorbancechange at 640 nm but only about 25% of the maximum photoreversibleabsorbance change. Moreover, no effect of ascorbate on the twoabsorbance changes was observed. ¹Faculty of Education, University of Yamagata, Yamagata 990,Japan. (Received November 2, 1980; )     

Photoreversible and photoirreversible absorbance changes in the red and far-red spectral regions in Zea primary roots

When 2-mm apical segments of the primary roots of Zea mays L.(cv. Golden Cross Bantam 70) were irradiated successively withred and far-red light, a photoirreversible absorbance decreasewas separated from the red far-red reversible absorbance changetypical of phytochrome. The difference spectrum of the reversiblechange showed maximum absorbance changes at 666 and 730 nm,while the photoirreversible change induced by red light showeda maximum decrease at 640 nm. The photoreversible absorbancechange was linearly proportional to the fluence of red lightbetween 1 and 6 J m^–2, while the photoirreversible absorbancechange was proportional to its logarithm. Red light of approximately6 J m^–2 induced 50% of the maximum photoirreversible absorbancechange at 640 nm but only about 25% of the maximum photoreversibleabsorbance change. Moreover, no effect of ascorbate on the twoabsorbance changes was observed. ¹Faculty of Education, University of Yamagata, Yamagata 990,Japan. (Received November 2, 1980; )     

Possible role of the cytosol pathway of acetyl-CoA supply in terpene biosynthesis in sweet potato infected with Ceratocystis fimbriata

Pyruvate was converted into acetyl-CoA by the cytosol enzymefraction prepared from sweet potato root tissue infected withCeratocystis fimbriata. The conversion was dependent on thiaminepyrophosphate, NAD⁺, ATP and CoA. Activities of pyruvate decarboxylase,aldehyde dehydrogenase and acetyl CoA synthetase increased indiseased tissue. These results indicate the operation of thecytosol pathway of acetyl-CoA supply for terpene biosynthesisin C. fimbriata-infected tissue which consists of the abovethree enzymes. ¹This paper constitutes Part 135 of the Phytopathological Chemistryof Sweet Potato with Black Rot and Injury. This work was supportedin part by a Grant-in-Aid from the Ministry of Education, Scienceand Culture. ²Present address: Biochemistry Department, University of Queensland,St. Lucia 4067, Queensland, Australia. (Received April 21, 1980; )     

Photomodulation of Stem Extension in Light-Grown Plants: Evidence for Two Reactions

Internode elongation was measured in plants of Phaseolus vulgarisand Glycine max grown under 8 h photoperiods at 25 W m^–2in white fluorescent light, followed by light-extensions varyingin quality, irradiance and duration. Two distinct responsesto light were observed under these conditions. A reduction in P_FR/P increased elongation, but elongation wasalso modified by a second reaction in which internode lengthincreased with increase in the duration and irradiance of theday-extension. This light-promoted response occurred in bothred and blue light. In the P_FR-inhibition response, light acteddirectly on the expanding internode. The light-promoted response,in contrast, required irradiation of the leaf. The response to a short end-of-day exposure to far-red lightprogressively diminished as successive internodes expanded underthe treatment, whereas the light-promoted response increased.The two processes appeared to interact and, in the later-expandinginternodes, the effect of a reduction in P_FR was greater underlong day-extensions with mixed red and far-red light than inthe end-of-day treatments. ¹ Present address: British Telecom, Brunel House, 2 FitzalanRoad, Cardiff, U.K.     

Control of Glutamate Dehydrogenase from Green Tobacco Callus Mitochondria by Ca2$ and pH

Glutamate dehydrogenase (GDH) (EC 1.4.1.3 [EC] .) purified from greentobacco callus mitochondria was activated markedly by Ca^2$ inthe amination reaction. This activation was detectable evenat concentrations below 5 µM Ca^2$. Saturation curves for the three substrates of the aminationreaction showed normal Michaelis-Menten kinetics in the presenceof 1 mM of Ca^2$, but pronounced substrate inhibition occurredwithout Ca^2$. The effect of Ca^2$ was chiefly on the maximalvelocity. The saturation curve for NH₄Cl in the presence of Ca^2$ was modulatedby a change in pH. The apparent K_m value for NH₄Cl markedlydecreased whereas that for -ketoglutarate increased slightlywhen the pH was raised from 7.3 to 9.0. In contrast, the K_mfor NADH was little affected by raising the pH. The characteristicof GDH which increases its affinity for NH₄Cl when the pH israised may be compatible with the detoxification of ammonia. ¹ Present address: Mochida Pharmaceutical Co., Ltd. (Received August 24, 1981; Accepted November 28, 1981)     

Sample preconditioning for measurement of fluorescence induction of chlorophyll a in marine phytoplankton

Conditions for measuring fluorescence induction curves (time-scalems) of in vivo chlorophyll ^a were studied using cultures ofDunaliella tertiolecta Butcher (Chlorophyceae) and of Thalassiosirapseudonana Hustedt (3H) (Bacillariophyceae), and samples ofnatural phytoplankton populations from the Grand Banks. Thearea above the fluorescence induction curve (A_DCMU) and themaximum fluorescence intensity (F_max) measured in the presenceof 3-(3,4-dichlorophenyl)-1, 1-dimethylurea (DCMU) were computedby microcomputer. Cells must be ‘conditioned’ or‘adapted’ prior to obtaining a fluorescence inductioncurve; dark-adaptation resulted in a lower A_DCMU and F_max thandid adaptation in far-red (720 nm) light, and was the conditioningmethod chosen. A_DCMU and F_max increased linearly with increasingirradiance up to 32.8 W m^–2 the highest actinic irradianceavailable. Information on the light history of D. tertiolectawas obtained by following the time-course of change in A_DCMUand in F_max for cells exposed for 10 min to far-red or to bluelight. The rise-time of the fluorescence induction curve andvalues of F_max were greater for samples of D. tertiolecta concentratedonto glass-fiber filters than for liquid samples, however, valuesof A_DCMU for filtered and liquid samples were not significantlydifferent. Samples of Grand Banks phytoplankton collected ontoglass-fiber filters and frozen for 28 d exhibited a significantdecrease in F_max and in A_DCMU relative to the same freshly-filteredsamples. Filtration and freezing of samples is not recommended. ^*This paper is the result of a study made at the Group for AquaticPrimary Productivity (GAP). Second International Workshop heldat the National Oceanographic Institute. Haifa. Israel in April–May1984.     

Action Spectra Confirm Two Separate Actions of Phytochrome in the Induction of Flowering in Lemna paucicostata 441

Action spectra studies have shown that in the short day plant(SDP) Lemna paucicostat441 there are at least two actions ofphytochrome in the induction of flowering. At the beginningof the dark period far-red light inhibited flowering, and theaction spectrum corresponded to the absorption spectrum of P_FR,while at the middle of the inductive dark period both red andfar-red light were inhibitory. The action spectrum for the redlight corresponded to that of PR absorption, but there was activityin the region beyond 720 nm which exactly coincided with theabsorption by P_FR observed at the beginning of the dark period,indicating that at the middle of the dark period there was absorptionby both P_R and P_FR. The difference in quantum efficiency betweenthe red and far-red light effects was about 60-fold. These resultsare consistent with there being a stable pool of P_FR necessaryfor the induction of flowering and another pool of phytochromein a different cellular environment which participates in thenight-break reaction as P_R. ¹ Present address: School of Applied Biology, Faculty of Science,Lancashire Polytechnic, Preston PR1 2TQ, U.K. ² 2 Present address: Division of Environmental Biology, NationalInstitute for Environmental Studies, Yatabemachi, Tsukuba, Ibaraki305, Japan. ³ Present address: Division of Plant Biological Regulation,The Riken Institute for Frontier Research Program, Hirosawa,Wako-shi, 351-01, Japan. (Received December 13, 1986; Accepted July 17, 1987)     

Phytochrome Participation in Induction of Haustoria in Cuscuta japonica, a Holoparasitic Flowering Plant

Seedlings of Cuscuta japonica pasted on an acrylic plate developedmany haustoria in response to far-red light after pre-irradiationwith white light. The effect of far-red light was cancelledcompletely by red light irradiated immediately after the far-redlight. In order to elucidate the photoreceptor(s) for photocontrolin the induction of haustoria, action spectra for the photo-inductionand its reversion were determined in the wavelength region from340 nm to 800 nm using the Okazaki Large Spectrograph. The action spectrum for the induction of haustoria had a pronouncedpeak at 740 nm and a small peak at 420 nm, while the actionspectrum for reversal of the induction had a pronounced peakat 660 nm and a small peak at 380 nm. These results indicatethat phytochrome is involved in the photocontrol of inductionof haustoria in Cuscuta japonica. Considering the far-red /redreversibility, it was suggested that phytochrome B is the photorecepter.This is the first reliable evidence of phytochome participationon development of haustoria in parasitic plants. ⁴Present address: Graduate School of Science Division of BiologicalScience, Nagoya University, Nagoya, 464-01 Japan.     

Phytochrome Control of Acid and Alkaline Phosphatases in Etiolated Shoot Apices of Sorghum bicolor

A short pulse of red light or continuous far-red light enhancedthe activities of acid and alkaline phosphatases over the valuesof the dark controls in 5-day-old etiolated seedlings of Sorghumbicolor. For 30 min after the red light pulse 100% of the red/far-redphotoreversibilities was maintained for the acid and 80% forthe alkaline phosphatases. Thereafter, the "photoreversibilityescape reaction" was fast, being completed within 180 min. Cycloheximideas well as 6-methyl purine markedly inhibited red light enhancementof the activities of the phosphatases, but chloramphenicol,lincomiycin and rifamycin SV were ineffective. In spite of photoregulationof both the phosphatases at the time of de novo synthesis, itappears that control of the acid and alkaline phosphatases maybe affected by two independent initial actions of phytochrome. ¹ Present address: Biologisches Institut II, University of Freiburg,FRG. (Received August 4, 1984; Accepted April 3, 1985)     

Changes in some Calvin Cycle Enzymes of the Tomato during Acclimation to Irradiance

The activities of three Calvin cycle enzymes, RuBPc (E.C. 4.1.1.39 [EC] ),3PGA phosphokinase (E.C. 2.7.2.3 [EC] ) and NADP-G3P dehydrogenase(E.C. 1.2.1.13 [EC] ), and the cytoplasmic enzyme PEPc (E.C. 4.1.1.31 [EC] )together with soluble protein and chlorophyll were measuredin extracts from young tomato leaves during acclimation to achange in irradiance. Leaf area and fresh weight were also measuredto show changes due to growth during treatments. Soluble proteinhad doubled on a unit leaf area basis 7 d after transfer from100 µmol quanta m^–2s^–1 PAR (low light) to400 µmol quanta m^–2s^–1 PAR (high light). Duringthis period the protein/chlorophyll ratio rose from 4•6to 10, RuBPc activity almost doubled and PEPc almost trebled.Following the reverse transfer from high to low light, solubleprotein decreased by 30% after 7 d and the protein/chlorophyllratio fell from 12 to 5•6. There was no change in RuBPcactivity 3 d after transfer from high to low light while PEPcactivity decreased by over 30%. There was no decrease in theactivity of 3PGA phosphokinase or NADP-G3P dehydrogenase 1 dafter transfer to low light, but decreases were apparent after3 d. The extracted kinase and dehydrogenase when fully activatedwere able to phosphorylate and reduce 3PGA at more than 2•5-foldits calculated rate of synthesis in the leaf. The data are discussedin relation to changes in the CO₂ exchange of the leaf. Key words: Photosynthetic acclimation, irradiance, tomato leaf, RuBP carboxylase     

EVIDENCE ON THE SITE OF ACTION OF GROWTH RETARDANTS

1. The ability of five growth retardants to inhibit the GA-inducedand endogenous growth of Avena leaf sections has been investigated.The retardants vary in effectiveness. The order, from most effectiveto least, is Phosfon D, Amo-1618, C011, CCC and B995. 2. The inhibition of growth caused by Phosfon D and Amo-1618is not reversed by GA. It is apparent that the retardants donot compete with GA at the site of GA-action. 3. Addition of IAA will partially reverse the inhibition inducedby Phosfon D or Amo-1618. It is concluded that the retardantsact in part in Avena leaf sections by interfering with the auxinmetabolism of the tisssue. ¹ Supported in part by grants G-14578 and GB-1950 from the NationalScience Foundation ² Present address: Department of Botany, University of Washington,Seattle, Washington