Formation of Tyrosine Phenol-lyase by Bacteria

Formation of protochlorophyllide and ribulose-1,5-diphosphate carboxylase, both of which were constituents proper to chloroplast, was inhibited in the radish cotyledons grown with 4-thiouridine (0.5 mm), though the growth of the seedlings, activities of a cytoplasmic enzyme glucose-6-phosphate dehydrogenase and of a mitochondrial enzyme glutamate dehydrogenase in the cotyledones were not affected. Photo-induced formation of chlorophyll pigments and of chloroplastic ribosomal RNAs in the 4-thiouridine treated cotyledones were depressed as compared with controls. Interestingly, the effect of 4-thiouridine, however, disappeared with continuous illumination. Based upon these results, specific development of the chloroplast is discussed.     

Chloroplast Development in 4-Thiouridine-Cultured Radish Seedlings XI. Inhibition of RNA Synthesis by 4-Thiouridine Nucleotides during Germination of Radish Seeds

The effects of 4-thiouridine and its metabolites on RNA synthesisin radish (Raphanus sativus) cotyledons were investigated. The4-thiouridine nucleotides, 4-thioUTP and 4-thioUDP, were foundto inhibit DNA-dependent RNA polymerase activities of isolatednuclei and of chloroplasts from radish cotyledons. These inhibitorsappeared to compete with UTP for its binding to RNA polymerase.Neither 4-thiouridine nor 4-thioUMP inhibited RNA polymeraseactivities. Reduced RNA accumulation accompanied by the inhibition of protochlorophyllideaccumulation was observed in cotyledons of dark-grown radishseedlings germinated and grown with 4-thiouridine. On the otherhand, 4-thiouridine had no effect on chloroplast developmentin the control seedlings germinated and grown without 4-thiouridine.These results suggest that the inhibition of chloroplast developmentby 4-thiouridine may in part be due to the inhibition of RNAsynthesis by 4-thiouridine nucleotide during germination, resultingin inhibition of etioplast development. (Received December 9, 1985; Accepted June 26, 1986)     

Transfer ribonucleic acids from radish seedlings germinated with 4-thiouridine

Transfer RNAs containing 4-thiouridine residues were prepared from etiolated cotyledons or isolated chloroplasts of radish seedlings germinated with the analog. They possess a higher melting temperature and tend to have a reduced hyperchromicity. Incorporation of 4-thiouridine into tRNA reduces the ability to accept a mixture of 14 amino acids or phenylalanine alone. After desulphurization of 4-thiouridine to uridine in the tRNA, aminoacylation was restored almost completely to the level of control tRNA prepared from untreated seedlings. These results indicate that a tRNA containing 4-thiouridine in the anticodon and/or in another part of molecule has low or no ability to accept amino acids.     

The Effect of Antibiotics on the Ultrastructure and Photochemical Activity of a Developing Chloroplast

The effects of the antibiotics chloramphenicol and cycloheximideon the ultrastructure of the chloroplast in greening cells ofEuglena gracilis strain Z have been investigated. The rate ofchloroplaat development in the presence of either antibioticwas closely related to that of chlorophyll production. Chloramphenicol,which at 10 mg/ml inhibits chlorophyll synthesis but not celldivision, caused a marked inhibition of the development of chloroplaststructure. The chloroplasts were smaller than those of untreatedcells and contained a smaller number of internal lamellae. Mostof these lamellae were not appressed and the results supportthe suggestion that chloramphenicol inhibits the synthesis ofa protein responsible for the fusion of individual lamellaein the chloroplast. Measurement of the photochemical activityof chloroplasts isolated from chloramphenicol-treated cellsshowed that the photoreduction of NADP from water (photosystemI+II), photosystem II activity, and photosystem I activity weregreatly inhibited when compared with chloroplasts from untreatedcells. In contrast, cycloheximide at 2.5 to 5.0 µg/mlinhibited cell division but allowed the chloroplasts to developafter a lag phase, the length of which was related to the concentrationof antibiotic employed. The number of lamellae per chloroplastand the degree of appression of the lamellae in chloroplastsof cycloheximide-treated cells and untreated cells were comparable.After 48-h illumination the photochemical activities of chloroplastsisolated from cycloheximide-treated cells were about 50 percent of those of the untreated cells.     

Chloroplast development in 4-thiouridine-cultured radish seedlings IV. Properties of cellular organelles

The effect of 4-thiouridine (4SU) on metabolic activities oforganelles other than plastids was investigated by examininggrowth parameters, cellular enzyme activities and metabolicbehaviors of greening radish seedlings germinated and grownwith 4SU. Seedling growth was not severely affected by 4SU culture.Mitochondrial, peroxisomal and microsomal marker enzymes andcytoplasmic enzyme activities were not generally changed inthe 4SU-cultured radish cotyledons. The respiration rate ofmitochondria isolated from 4SU-cultured cotyledons was alsonormal. Some soluble enzymes of the isolated plastids had normalor even higher activities. However, chloroplastic pigments andribulose bisphosphate carboxylase activity decreased with increasingconcentration of 4SU in the culture medium. We concluded thatthe inhibitory effect of 4SU was limited to chloroplast development. (Received December 4, 1979; )     

萝卜离体子叶衰老与膜脂过氧化的关系

萝卜离体子叶在光下或暗中衰老及激素调节衰老过程中,作为叶片衰老指标的叶绿素和蛋白质含量的降低,发生在MDA含量增高之前,更早于SOD活性的下降。表明由SOD活性降低所导致的膜脂过氧化的增强,并非衰老的原初反应,而是叶片衰老到一定程度的生理变化。因此,至少在萝卜离体子叶上,不能将其衰老的启动归因于受SOD控制的膜脂过氧化作用导致的膜累积性质变。     

Chloroplast development in 4-thiouridine-cultured radish seedlings III. Photochemical activities in isolated plastids

Accumulation of chlorophyll, development of photosystem I andII activities and contents of chloroplastic components wereinvestigated in greening radish seedlings germinated and grownwith 4-thiouridine (4SU). The development of photosystem I activityprior to that of photosystem II was observed also in the 4SU-culturedgreening radish cotyledons in which chlorophyll accumulationwas inhibited up to 60–80% of that of the control. Photochemicalactivities expressed on a plastid protein basis decreased withthe increase of 4SU in the culture medium. In contrast to ferredoxinand ferredoxin-NADP reductase, which were present in significantamounts in the treated cotyledons, chloroplastic cytochromes(f, b₅₅₉ and b₆ decreased in the plastids from 4SU-culturedcotyledons. These results suggest that 4SU interferes in partwith protein synthesis in plastids and thereby with chloroplastdevelopment. (Received December 4, 1979; )     

Studies on {partial}-amino levulinic acid deydratase in radish cotyledons during chloroplast development

The subcellular localization and biosynthetic site of 8-aminolevulinic acid dehydratase [EC 4.2.1.24 [EC] , ALAD] were investigatedin relation to chloroplast development in radish cotyledons. ALAD was mainly located in the chloroplasts and cytoplasm. Mostof the ALAD in the chloroplasts was readily released by hypotonicshock. The enzyme was also found in the proplastids of etiolatedcotyledons. The normal increase in the activity of ALAD in the chloroplastsas well as the cytoplasm was inhibited by cycloheximide butunaffected by D-threo chloramphenicol and kanamycin during thegreening of radish cotyledons. We concluded that the ALAD inboth the cytoplasm and chloroplasts was synthesized on the cytoplasmic80S-ribosomes. This suggests that the ALAD formed on the 80S-ribosomesmight be incorporated into chloroplasts during their development. When etiolated radish seedlings were illuminated, ALAD in boththe cytoplasm and chloroplasts increased up to the point ofthe full development of the chloroplasts, and thereafter itdecreased. (Received August 20, 1975; )     

Effect of 2,4-dichlorophenoxyacetic acid on the structure and function of developing chloroplasts

Dark-grown radish seedlings (Raphanus sativus L.) were sprayed with 10^-3 mol·l^-1 2,4-dichlorophenoxyacetic acid and then were exposed to a 14:10 light: dark cycle. Cotyledon samples from these seedlings and unsprayed controls were taken for electron microscopy, chlorophyll determinations, and photosynthetic rate measurements at regular intervals for 72 h. A normal development of etioplasts to chloroplasts with formation of typical grana-fret work system was observed in the control cotyledons. The chloroplasts in the 2,4-D-treated cotyledons showed changes in the organization of the grana thylakoids; these thylakoids being more appressed to each other than in the controls. The chlorophyll content of treated plants was less than that of controls but the rate of chlorophyll biosynthesis was unaffected. The photosynthetic rate/mg chlorophyll was considerably higher for treated plants suggesting that 2,4-D treatment resulted in decreased size of the photosynthetic unit.     

The effects of 2, 4-dichIorophenoxyacetk acid altered chloroplast development on photosynthesis

We studied the changes in function and physical properties of isolated radish ( Raphonus sativus L. cv. Sparkler) lamellar membranes 48 h after chloroplast development was altered by 2, 4-(dichlorophenoxy)acet, tc acid. The number of chlorophyll molecules attendant to each electron transport chain was approximately 25% less in the chloroplasts from 2, 4-(dichlorophenoxy)acetic acid-treated plants than in chloroplasts from untreated plants. The maximal turnover rate of Photosystem I] in the treated chloroplasts was slightly less than half the turnover rate in normal chloroplasts. The efficiency of coupling between electron flux and ATP formation was not significantly different in the two chloroplast types. This hight efficiency of photophosphorylation in addition to normal membrane conductance to hydrogen ions indicates that the herbicide has not brought about a general deterioration of the membrane. A dramatic increase in the proton binding capacity of the lamellar membrane was observed in the treated chloroplasts. This increase in hydrogen ion buffering groups was largely accounted for by extrinsic membrane proteins bound to the exterior surface of the lamellar membrane. Although the addition of 2, 4-(dichloro-phenoxy) acetic acid to chloroplasts isolated from untreated plants caused concurrent uncoupling of ATP formation and inhibition of electron transport, our data show that these direct effects of the compound have little to do with its herbicidal action.     

Light-Induced Chloroplast Shrinkage in vivo Detectable After Rapid Isolation of Chloroplasts From Pisum sativum

A light-induced shrinkage of chloroplasts in vivo could be detected with chloroplasts isolated within 2 minutes of harvesting pea plants. As determined both by packed volume and Coulter counter, the mean volume of chloroplasts from plants in the dark was 39 μ³, whereas it was 31 μ³ for chloroplasts from plants in the light. Upon illumination of the plants, the half-time for the chloroplast shrinkage in vivo was about 3 minutes, and the half-time for the reversal in the dark was about 5 minutes. A plant growth temperature of 20° was optimal for the volume change. The chloroplast shrinkage was half-maximal for a light intensity of 400 lux incident on the plants and was light-saturated near 2000 lux. The light-absorbing pigment responsible for the volume change was chlorophyll. This light-induced shrinkage resulted in a flattening and slight indenting of the chloroplasts. This chloroplast flattening upon illumination of the plants may accompany an increase in the photosynthetic efficiency of chloroplasts.     

CYTOLOGICAL AND BIOCHEMICAL ASPECTS OF CYTOKININ-ENHANCED GROWTH OF RADISH (RAPHANUS SATIVUS) COTYLEDONS

Light and electron microscopy revealed no stimulation of oleosome disappearance or chloroplast development associated with zeatin-enhanced growth of excised radish cotyledons. Accelerated protein body breakdown was the only detectable effect of zeatin treatment. Isocitrate lyase activity, disappearance of total lipids, and appearance of galactolipids, phospholipids, and chlorophyll were unaffected by zeatin. Results indicate that cytokinins do not accelerate conversion of radish cotyledons from storage to photosynthetic organs.     

NCS对离体萝卜子叶微体中酶活性及细胞超微结构的影响

研究了天然生物活性物质narciclasine(NCS)对离体萝卜子叶光下生长发育期间叶绿素含量变化、异柠檬酸裂解酶及羟基丙酮酸还原酶活性的影响;并对萝卜子叶细胞的超微结构变化进行了观察。结果表明,NCS明显抑制光下培养的离体萝卜子叶叶绿素含量及鲜重增加,对异柠檬酸裂解酶及羟基丙酮酸还原酶活性也显示出明显的抑制作用。电镜观察显示,NCS对蛋白体及脂质体的降解、叶绿体的发育也表现出强烈的抑制效应。NCS的各种抑制作用均随其浓度的增加而增加,而且高浓度的NCS(10^-5mol／L)基本上完全阻止了离体萝卜子叶的光下生长及其转绿。     

Photochemical properties of mesophyll and bundle sheath chloroplasts of maize

Several photochemical and spectral properties of maize (Zea mays) bundle sheath and mesophyll chloroplasts are reported that provide a better understanding of the photosynthetic apparatus of C₄ plants. The difference absorption spectrum at 298 K and the fluorescence excitation and emission spectra of chlorophyll at 298 K and 77 K provide new information on the different forms of chlorophyll a in bundle sheath and mesophyll chloroplasts: the former contain, relative to short wavelength chlorophyll a forms, more long wavelength chlorophyll a form (e.g. chlorophyll a 693 and chlorophyll a 705) and less chlorophyll b than the latter. The degree of polarization of chlorophyll a fluorescence is 6% in bundle sheath and 4% in mesophyll chloroplasts. This result is consistent with the presence of relatively high amounts of oriented long wavelength forms of chlorophyll a in bundle sheath compared to mesophyll chloroplasts. The relative yield of variable, with respect to constant, chorophyll a fluorescence in mesophyll chloroplasts is more than twice that in bundle sheath chloroplast. Furthermore, the relative yield of total chlorophyll a fluorescence is 40% lower in bundle sheath compared to that in mesophyll chloroplasts. This is in agreement with the presence of the higher ratio of the weakly fluorescent pigment system I to pigment system II in bundle sheath than in mesophyll chloroplast. The efficiency of energy transfer from chlorophyll b and carotenoids to chlorophyll a are calculated to be 100 and 50%, respectively, in both types of chloroplasts. Fluorescence quenching of atebrin, reflecting high energy state of chloroplasts, is 10 times higher in mesophyll chloroplasts than in bundle sheath chloroplasts during noncyclic electron flow but is equal during cyclic flow. The entire electron transport chain is shown to be present in both types of chloroplasts, as inferred from the antagonistic effect of red (650 nm) and far red (710 nm) lights on the absorbance changes at 559 nm and 553 nm, and the photoreduction of methyl viologen from H₂O. (The rate of methyl viologen photoreduction in bundle sheath chloroplasts was 40% of that of mesophyll chloroplasts.)     

Changes of Photochemical Activities and Photosynthetic Electron Transport of Chloroplasts in the Course of Ageing

Chloroplasts were isolated from Spinacia olerecea L. and Doblichos lablab L. Chloroplasts suspension was stored in refrigerator at 5–8 ℃. Photochemical activities and chlorophyll content of chloroplasts at different times of storage were deter- mined. The results can be summarized as follows: 1. In the course of chloroplasts ageing, the lost of K3Fe(CN)6 photo reduction activity was more than that of DCPIP photoreduction activity. 2. The activity of K3Fe(CN)6 photoreduction during storage began to decrease markedly after 12 hours, but activity of DCPIP photoreduction began to decrease markedly after 24 hours. 3. The DCPIP photoreduction activity of aged chloroplasts was stimulated by the addition of 1.5-diphenylcarbazide. 4. Destruction of oxidized side of PSⅡ was earlier and higher than that of the other side (from the active center of PSⅡ to the reduced side of PSⅠ). 5. During chloroplasts ageing, the decrease of chlorophyll content was less than the rate of decrease of photochemical activities.     

烟草质体分裂相关基因NtFtsZ1和NtFtsZ2对叶绿体分裂和形态的影响

质体作为植物细胞中一类重要的细胞器,控制其分裂的分子机制一直都不清楚。最近的研究表明,植物细胞中与原核细胞分裂基因fisZ类似的同源基因控制着质体的分裂过程。通过正反义转化分析了两个烟草的ftsZ基因（NtFtsZ1和NtFtsZ2)在转基因烟草中的功能。二的反义表达并未对转化烟草细胞中叶绿体的分裂和形态产生明显影响,但二过表达转化植株中叶绿体的数目和形态都发生了明显的变化,在某些转化植株的叶肉细胞中甚至只有1－2个巨大的叶绿体存在。对不同转化植株的电镜观察和叶绿素含量分析认为,NtFtsZs基因可能对叶绿体的正常发育和功能没有影响,叶绿体形态的变化是对其数目减少的一种补偿。正反义转化植株中叶绿体的不同表型暗示高等植物中同一家族的ftsZ基因可能在控制质体分裂方面具有相同的功能。同时,过表达植株中叶绿体形态的变化被认为是高等植物的FtsZ质体骨架功能的体现。     

Chloroplast ultrastructure and fluorescence response of oilseed rape containing male-sterile radish cytoplasm

Summary The production of hybrid seed is facilitated if one parent possesses a male-sterile cytoplasm. Introduction of the cytoplasm of male-sterile radish (Raphanus sativus L.) into rapeseed (Brassica napus L.) results not only in transfer of the desirable male-sterile trait but induces a chlorophyll defect in the backcrossed male-sterile plants. In this study we show that the defect manifests itself in two different ways in the alloplasmic plants: a) smaller and fewer chloroplasts with an impaired ultrastructure and b) an increase in chlorophyll fluorescence. Defective chloroplasts were characterized by a reduction in both the number and size of grana, the latter due to poor stacking of thylakoids and with frequent discontinuity in the intergranal thylakoid systems. The changed chloroplast morphology and the increase in chlorophyll fluorescence are probably the cause of the lowered photosynthetic efficiency associated with the alloplasmic plants. We propose that the deficiency is the result of incompatibility between the genomes of the radish chloroplast and the rapeseed nucleus. Supporting this hypothesis are studies of male-sterile rapeseed plants in which, by protoplast fusion, the radish chloroplasts were substituted by those of normal male-fertile rapeseed. Such plants showed complete restoration of their photosynthetic potential and displayed both normal chloroplast ultrastructure and normal levels of chlorophyll fluorescence.     

The effect of cotyledons on hypocotyl elongation in light-grown bean seedlings: Comparison between dwarf and tall varieties

Hypocotyl sections with and without the cotyledons were cutfrom bean seedlings and incubated under white light of 6000lux. The cotyledons had an inhibitory effect as well as a promotiveeffect on hypocotyl growth. The former effect was more strikingin the dwarf variety, and the latter in the tall variety. Whenthe hypocotyl units were exposed to light for shorter times(6 hr or less) or incubated under weaker light (1600 and 50lux), the inhibitory effect of the cotyledons decreased greatly,and in the tall variety the presence of cotyledons producedno inhibition, but a promotion of hypocotyl growth. GA treatmentenhanced hypocotyl growth and counteracted the growth inhibitioncaused by the cotyledons. On the whole, the GA effect was moremarked in the tall variety than in the dwarf. The elongation of bean hypocotyls may be controlled by a balancebetween the inhibitory and promotive effects of cotyledons,and the predominance of the former over the latter may be oneof the causes for expressing dwarfing. (Received November 13, 1976; )     

Does the chloroplast envelope contain carotenoids and quinones in vivo?

Leaves, cotyledons, isolated chloroplasts and subplastid fractions (thylakoids and envelopes) of radish ( Raphanus sativus L. cv. Saxa) and spinach ( Spinacia oleracea L. cv. Matador) were assayed for their pigment and quinone content and composition. Evidence is presented suggesting that the chloroplast envelope does not contain carotenoids and quinones in vivo. Envelopes prepared by the method described contained very low amounts of chlorophyll a and b , violaxanthin and neoxanthin, but no β-carotene, lutein, zeaxanthin and antheraxanthin. Among the quinones, trace amounts of plastoquinone and α-tocopherol but no plastohydroquinone, α-tocoquinone and phylloquinone were detected. The data presented suggest that, contrary to previous findings, carotenoids and quinones are not located in the chloroplast envelope.