Lipopolysaccharide- and gram-positive bacteria-induced cellular inflammatory responses: role of heterotrimeric Galpha(i) proteins

Heterotrimeric G_i proteins may play a role in lipopolysaccharide (LPS)-activated signaling through Toll-like receptor 4 (TLR4), leading to inflammatory mediator production. Although LPS is a TLR4 ligand, the gram-positive bacterium Staphylococcus aureus (SA) is a TLR2 ligand, and group B streptococci (GBS) are neither TLR2 nor TLR4 ligands but are MyD88 dependent. We hypothesized that genetic deletion of G_i proteins would alter mediator production induced by LPS and gram-positive bacterial stimulation. We examined genetic deletion of G_i2 or G_i1/3 protein in G_i2-knockout (G_i2–/–) or G_i1/3-knockout (G_i1/3–/–) mice. LPS-, heat-killed SA-, or GBS-induced mediator production in splenocytes or peritoneal macrophages (M) was investigated. There were significant increases in LPS-, SA-, and GBS-induced production of TNF- and IFN- in splenocytes from G_i2–/– mice compared with wild-type (WT) mice. Also, LPS-induced TNF- was increased in splenocytes from G_i1/3–/– mice. In contrast to splenocytes, LPS-, SA-, and GBS-induced TNF-, IL-10, and thromboxane B₂ (TxB₂) production was decreased in M harvested from G_i2–/– mice. Also, LPS-induced production of IL-10 and TxB₂ was decreased in M from G_i1/3–/– mice. In subsequent in vivo studies, TNF- levels after LPS challenge were significantly greater in G_i2–/– mice than in WT mice. Also, myeloperoxidase activity, a marker of tissue neutrophil infiltration, was significantly increased in the gut and lung of LPS-treated G_i2–/– mice compared with WT mice. These data suggest that G_i proteins differentially regulate murine TLR-mediated inflammatory cytokine production in a cell-specific manner in response to both LPS and gram-positive microbial stimuli. G_i protein-deficient mice; endotoxin; group B streptococci; Staphylococcus aureus; Toll-like receptors     

Metabolic Changes in Axes of Germinating Vigna unguiculata Seeds as Related to Effects of Removal of Cotyledons

[¹⁴C]-Labeled amino acids and sucrose were fed to Vigna unguiculataseeds through cut-ends of cotyledons, and incorporations ofradioactivity into trichloroacetic acid- and 80% ethanol-insolublefractions of axes, respectively, were followed during 48 h ofthe post-imbibition development. The results of these studies,together with determinations of changes in dry weight and proteincontents after the onset of imbibition, indicated that the reservematerials stored in cotyledons were available for active growthof axes only after 12 h of post-imbibition. However, pulse-labelingexperiments, where [³H]-labeled leucine and uridine were feddirectly to axes attached to or detached from cotyledons, indicatedthat synthesis of protein and RNA in both axes was very pronouncedeven at earlier stages (2–8 h) of post-imbibition. Albuminand globulin proteins of axes disappeared most rapidly duringthe 6–12 h period of post-imbibition. Cycloheximide, -amanitinand cordycepin added to imbibing axes inhibited the degradationof major globulin proteins, whereas the inhibitors had littleeffect on the degradation of major albumin proteins. Both proteolyticand amylolytic activities were found to occur in embryonic axesof ‘dry’ seeds, and increased to higher levels asthe germination proceeded. Axes at early stages of germinationmay degrade the self-sustained reserve proteins and utilizethem for the synthesis of new proteins. (Received June 11, 1983; Accepted August 16, 1983)     

Role of ethylene in chlorophyll degradation in radish cotyledons

The effect of age of radish seedlings on changes in chlorophyll concentration caused by ethylene was examined. Ethylene was produced at 2–4 nl g^–1 h^–1 following excision of cotyledons from 5-to 20-day-old seedlings. The youngest cotyledons maintained this rate, whereas ethylene synthesis declined by as much as 80% during a 24-h period in older cotyledons. The youngest cotyledons continued to accumulate chlorophyll in the dark, but after 7 days cotyledons lost chlorophyll and the proportion of chlorophyll lost increased with age. Ethylene promoted, and norbornadiene inhibited, this loss of chlorophyll; in combined treatments the effects of ethylene and norbornadiene were competitive. The maximal rate of chlorophyll loss occurred in 1l L^–1 ethylene; extrapolation of the response to concentration indicated that half-maximum loss would occur at 0.005–0.01 l L^–1 ethylene. In cotyledons from 20-day-old seedlings, chlorophyll degradation occurred mainly after 24 h from excision and transfer to the dark. Chlorophyll degradation during 48 h in the dark was affected by norbornadiene or ethylene applied from 0–24 h or from 24–48 h.     

Ethylene accumulation in waterlogged Rumex plants promotes formation of adventitious roots

Accumulation of the gaseous plant hormone ethylene is very importantfor the induction of several responses of plants to flooding.However, little is known about the role of this gas in the formationof flooding-induced adventitious roots. Formation of adventitiousroots in Rumex species is an adaptation of these plants to floodedsoil conditions. The large air-spaces in these roots enablesdiffusion of gases between shoot and roots. Application of ethylene to non-flooded Rumex plants resultedin the formation of adventitious roots. In R. palustris Sm.shoot elongation and epinasty were also observed. The numberof roots in R. thyrsiflorus Fingerh. was much lower than inR. palustris, which corresponds with the inherent differencein root forming capacity between these two species. Ethyleneconcentrations of 1.5–2µI I_{– 1} induced a maximumnumber of roots in both species. Quantification of ethylene escaping from root systems of Rumexplants that were de-submerged after a 24 h submergence periodshowed that average ethylene concentrations in submerged rootsreached 1.8 and 9.1 µl I_–1 in R. palustris and R.thyrsiflorus, respectively. Inhibition of ethylene productionin R. palustris by L--(2-aminoethoxyvinyl)-glycine (AVG) or-aminobutyric acid (AIB) decreased the number of adventitiousroots induced by flooding, indicating that high ethylene concentrationsmay be a prerequisite for the flooding-induced formation ofadventitious roots in Rumex species. Key words: Adventitious roots, epinasty, ethylene, flooding, Rumex, shoot elongation     

Purification by Affinity Chromatography of {alpha}-Amylase--A Main Amylase in Cotyledons of Germinating Vigna mungo Seeds

In Vigna mungo cotyledons, the -amylase activity increased markedlyduring germination at 27°C in the dark, while the activityof other amylases was very low. The -amylase was purified from4-day-old cotyledons by affinity chromatography on epoxyactivatedSepharose 6B substituted with rß-cyclodextrin andby column chromatography on Bio-Gel P-200. Gel filtration andpolyacrylamide gel electrophoresis showed that the enzyme existsmostly as a monomer (43,000 daltons), but partially aggregatesto form dimer, trimer and further multimers. Ca²⁺ protectedthe -amylase against heat inactivation. Incubation of the enzymewith 5 mM EDTA or dialysis against 10 mM EDTA resulted in a50–90% loss of activity. The inactivation was partiallyreversed by the addition of Ca²⁺. Other properties, such asthe amino acid composition, K_m value, pH optimum and activationenergy were similar to those of other plant -amylases. (Received May 6, 1981; Accepted June 22, 1981)     

Comparative Studies of Acid Glycosidases from Three Legumes

The major isoenzymes of -mannosidase (EC 3.2.1.24 [EC] ) and ß-galactosidase(ECf 3.2.1.23 [EC] ) have been separated from cotyledons of gardenpea, Pisum sativum L. (Vicieae), chick pea, Cicer arietinumL. (Cicereae), and cowpea, Vigna unguiculata (L.) Walp. (Phaseoleae).Some of their properties have been determined, including pHoptima, K_m values for p-nitrophenyl glycosidc substrates, andthe effects of several inhibitors. Swainsonine, an indolizidinealkaloid, was the most effective inhibitor of mannosidase 1,with I₃₀ values of 5.6 x 10^–8 M (cowpea), 1x 10^–7M (chick pea) and 2.9 x 19^–7 M (pea). The most effectiveinhibitor of ß-galactosidase 2 from all sources wasD-galactonic acid-1,4-lactonwe (-lactone), with K_i values rangingbetween 3.0 and 3.9x 10^–3 M. An inhibitor of the E. coliß-galactosidose, p-aminophenyl thio-ß-D-galactopyranoside,did not inhibit any of the legume ß-galctosidases;rather it enhanced the activites of the enzymes from chick peaand cowpea cotyledons. Etiolated hull and seed tissues frompea pods developing in darkness contained similar acid glycosidaseactivities to normal green tissues, thus the chloroplast isan unlikely location for ß-galactosidase 2. The majorß-galactosidasesdetected with an indigogenic substrate (5-bromo-4-chloro-3-indoxyl-ß-D-galactopyranoside)following gel electrophoresis of extracts from pea hull, seedcoats and cotyledons appeared to be different from ß-galactosidase2. Acid glycosidase, cotyledon, isoenzyme, -lactone, legume, swainsonine     

A kinetic analysis of hyponastic growth and petiole elongation upon ethylene exposure in Rumex palustris

Background and Aims

Complete submergence is an important stress factor for many terrestrial plants, and a limited number of species have evolved mechanisms to deal with these conditions. Rumex palustris is one such species and manages to outgrow the water, and thus restore contact with the atmosphere, through upward leaf growth (hyponasty) followed by strongly enhanced petiole elongation. These responses are initiated by the gaseous plant hormone ethylene, which accumulates inside plants due to physical entrapment. This study aimed to investigate the kinetics of ethylene-induced leaf hyponasty and petiole elongation.

Methods

Leaf hyponasty and petiole elongation was studied using a computerized digital camera set-up followed by image analyses. Linear variable displacement transducers were used for fine resolution monitoring and measurement of petiole growth rates.

Key Results

We show that submergence-induced hyponastic growth and petiole elongation in R. palustris can be mimicked by exposing plants to ethylene. The petiole elongation response to ethylene is shown to depend on the initial angle of the petiole. When petiole angles were artificially kept at 0°, rather than the natural angle of 35°, ethylene could not induce enhanced petiole elongation. This is very similar to submergence studies and confirms the idea that there are endogenous, angle-dependent signals that influence the petiole elongation response to ethylene.

Conclusions

Our data suggest that submergence and ethylene-induced hyponastic growth and enhanced petiole elongation responses in R. palustris are largely similar. However, there are some differences that may relate to the complexity of the submergence treatment as compared with an ethylene treatment.     

Effect of the Osmotic Environment on the Balance between Uptake and Release of Sucrose and Amino Acids by the Seed Coat and Cotyledons of Developing Seeds of Pisum sativum

Excised seed-coat halves and cotyledons of developing seedsof Pisum sativum L. were incubated in a bathing medium (pH 5·5),in order to measure the release or uptake of sucrose and aminoacids. Net efflux of sucrose and amino acids was reduced bya 250 mol m ^–3 mannitol solution and a 400 mol m ^–3solution, in comparison with a 100 mol m^–3 control. Thiseffect could not be observed in the case of the amino acid analogue-aminoisobutyric acid (AIB). Net uptake of labelled sucroseor valine by cotyledons and seed coats was enhanced by a highosmolality of the bathing medium. The data on AIB and the datafrom uptake experiments support the view that net efflux ofassimilates is reduced by a high solute concentration in theapoplast (e.g. 400 mol m^–3 mannitol), via a stimulationof carrier-mediated sucrose and amino acid uptake into cotyledonaryand seed coat tissues. In experiments with attached empty ovulesof pea in a very early stage of development, sugar release fromthe seed coat was enhanced by a low osmolality of the apoplastsolution (e.g. 100 mol m^–3 mannitol, in comparison witha 400 mol m ^–3 control). This paradoxical effect may beobserved when the stimulatory effect on net assimilate effluxfrom seed coat tissues is exceeding the inhibitory effect onassimilate import into the seed coat. Key words: Seed development, turgor-sensitive transport, assimilate transport     

Frond and flower production in Lemna gibba G 3 in presence of respiratory inhibitors

Effects of respiratory inhibitors on frond and flower productionin light culture of a long-day duckweed, Lemna gibba G 3, wereinvestigated. The inhibitors examined could be divided into3 groups based on their specific actions: (A) 2,4-Dinitrophenol(10^–6M), arsenate (10^–4M), malonate (10^–2M),o-phenanthroline (10^–6M), ,'-dipyridyl (10^–5M) andazide (10^–6M) inhibited flower production by suppressingthe rate of flower production without affecting the inductionperiod. Frond production, however, was promoted by these reagents.Effective time of application came one day after the end ofthe induction period. (B) Iodoacetate (10^–6M) and fluoride(10^–4M) inhibited both flower production and, less significantly,frond production. Reduced rate of flower production was responsiblefor the inhibition of flowering. Effective time of applicationpreceded by one day that of A group inhibitors. (C) Salicylaldoxime(10^–6M), diethyldithiocarbamate (10^–6M) and 8-hydroxyquinoline(10^–7M) enhanced flower production by reducing the lengthof the induction period, and simultaneously slightly inhibitedfrond production. Effective time of application was the latterhalf of the induction period. The implications of these findingsare discussed with special reference to the component processesinvolved in photoperiodic induction of flowering in duckweed. (Received March 27, 1969; )     

The Labelling of Malic and Citric Acids of Pea Leaves and Cotyledons of Germinating Peas by 14CO2 in the Dark

Leaflets of green pea plants and cotyledons of germinating peaswere kept in the dark in air containing ¹⁴CO₂. The malate extractedwas labelled to 35–40 per cent in the C-1 position andthe citric acid was labelled to 70–75 per cent in theC-6 position. This showed that two carboxylations, at least,were involved in both tissues, i.e. probably of a three-carbonacid to form malate, and of -oxoglutarate to form isocitrate.     

In vivo Studies on the Occurrence of Stored mRNA in Embryonic Axes of Vigna unguiculata Seeds

-Amanitin and cordycepin at various concentrations were testedfor their inhibitory effect on the fresh weight increase ofVigna unguiculata embryonic axes after the onset of imbibitionand on the incorporation rate of ³H-labeled leucine into proteinin axes of the 36–38 h stage. -Amanitin at 0.5–5µ/Kg/ml clearly exerted an inhibitory effect on both thefresh weight increase and the protein synthesis. This drug at1 µg/ml, however, showed no significant effect on theprotein synthesis at an early stage of imbibition (4 h), whereascycloheximide was a very potent inhibitor. By experiments inwhich ‘dry’ axes were allowed to imbibe 3H-lebeledadenosine solution for 4 and 12 h in the presence of -amanitin,it was found that poly A⁺RNA was newly synthesized to some extentin axes as early as 4 h after the onset of imbibition and thatthe drug effectively inhibited the poly A⁺RNA synthesis. Theresults may indicate the occurrence of stored mRNA in embryonicaxes of V. unguiculata seeds. (Received June 11, 1983; Accepted August 16, 1983)     

Glycosidases from Cotyledons of Pisum sativum L.

-Mannosidase and ß-N-acetylglucosaminidase were purifiedfrom extracts of cotyledons of germinating Pisum sativum L.A 13-fold purification of a-mannosidase free from ß-N-acetylglucosaminidaseactivity was achieved by precipitation in ammonium sulphate,column chromatography on DEAE-cellulose, and treatment with2 M pyridine. ß-N-Acetylglucosaminidase was purified200-fold by the use of (NH₄)₂SO₄, and chromatography on ConcanavalinA¹-Sepharose and Sephacryl-200. This preparation showed no measurablecontamination by -mannosidase activity. Both glycosidases appearto be glycoproteins and demonstrate optimal activity at pH valuesof 4.0–4.5. Both glycosidases appear to have very similarmolecular weights, with -mannosidase being slightly larger thanß-N-acetylglucosaminidase. An extensive search forthe activity of aspartylglycosylamine amido hydrolase in peacotyledons proved unsuccessful.     

Ethylene and Ethane Production in 2,4-D Treated and Salt Treated Tobacco Tissue Cultures

Gas chromatography was used to measure ethylene (ethene) andethane production by tobacco (Nicotiana tabacum cv. Wisconsinno. 38) callus tissues grown on media containing inorganic saltsaccording to Murashige and Skoog (1962), sucrose, myo-inositol,thiamine-HCl kinetic according to Linsmaier and Skoog (1965),and either 2,4-dichiorophenoxyacetic acid (2,4-D) in the range0–100 mgl^–1 or 2 mgl^–1 indoi-3-ylacetic acidplus NaCl in the range 0–200 Meq l^–1. Ethylene productionrates were high (> 500 nl h^–1 g^1– fresh weight)initially in all treatments. Subsequently, ethylene productiondeclined in rapidly growing cultures but remained high in moderatelyand severely 2,4-D (> 0·5 mgl^–1) stressed andin severely NaCl (150 Meql^–1) stressed cultures. Highinitial rates of ethane production (> 200 nl h^–1 g^–1fresh weight) were obtained under conditions of severe stresscaused by 2,4-D or NaCl but not in control or moderately inhibitedcultures. With further incubation ethane production declinedin the severely stressed cultures. It is concluded that ethyleneproduction can be used as an index of moderate 2,4-D stressand severe NaCl stress by virtue of the high persisting ratesof ethylene production in stressed cultures. Ethane productioncan be used as an early index of severe stress caused by either2,4-D or NaCl in vitro. Nicotiana tabacum L., tobacco, ethylene, ethenen, ethane, 2,4-dichlorophenoxyacetic acid, auxin, stress, callus tissue     

Dexamethasone treatment causes resistance to insulin-stimulated cellular potassium uptake in the rat

Patients treated with glucocorticoids have elevated skeletal muscle ouabain binding sites. The major Na⁺-K⁺-ATPase (NKA) isoform proteins found in muscle, ₂ and ₁, are increased by 50% in rats treated for 14 days with the synthetic glucocorticoid dexamethasone (DEX). This study addressed whether the DEX-induced increase in the muscle NKA pool leads to increased insulin-stimulated cellular K⁺ uptake that could precipitate hypokalemia. Rats were treated with DEX or vehicle via osmotic minipumps at one of two doses: 0.02 mg·kg^–1·day^–1 for 14 days (low DEX; n = 5 pairs) or 0.1 mg·kg^–1·day^–1 for 7 days (high DEX; n = 6 pairs). Insulin was infused at a rate of 5 mU·kg^–1·min^–1 over 2.5 h in conscious rats. Insulin-stimulated cellular K⁺ and glucose uptake rates were assessed in vivo by measuring the exogenous K⁺ infusion () and glucose infusion (G_inf) rates needed to maintain constant plasma K⁺ and glucose concentrations during insulin infusion. DEX at both doses decreased insulin-stimulated glucose uptake as previously reported. G_inf (in mmol·kg^–1·h^–1) was 10.2 ± 0.6 in vehicle-treated rats, 5.8 ± 0.8 in low-DEX-treated rats, and 5.2 ± 0.6 in high-DEX-treated rats. High DEX treatment also reduced insulin-stimulated K⁺ uptake. (in mmol·kg^–1·h^–1) was 0.53 ± 0.08 in vehicle-treated rats, 0.49 ± 0.14 in low-DEX-treated rats, and 0.27 ± 0.08 in high-DEX-treated rats. DEX treatment did not alter urinary K⁺ excretion. NKA ₂-isoform levels in the low-DEX-treated group, measured by immunoblotting, were unchanged, but they increased by 38 ± 15% (soleus) and by 67 ± 3% (gastrocnemius) in the high-DEX treatment group. The NKA ₁-isoform level was unchanged. These results provide novel evidence for the insulin resistance of K⁺ clearance during chronic DEX treatment. Insulin-stimulated cellular K⁺ uptake was significantly depressed despite increased muscle sodium pump pool size. skeletal muscle; sodium pump; Na⁺-K⁺-ATPase     

The Association of Acid Hydrolase Activity with the Microsomal Fraction from Pea Cotyledons (Pisum sativum L.)

A fraction enriched in microsomal membranes was prepared fromdeveloping pea cotyledons by differential centrifugation andfound to contain 5-10% of the total extractable -mannosidase,-and ß-galactosidase, hexosaminidase, ß-glucosidaseand p-nitrophenylphosphatase (PNPase). Further purificationof this microsomal fraction on linear sucrose density gradientswith or without EDTA confirmed the association of the majorityof the glycosidase activity with ER membranes whereas PNPasewas associated with a different unidentified membrane componentfound at a density of 1:19 g cm^–3. The microsomal-associatedglycosidases were divided into luminal and membrane-bound fractions,the ratio being different for each individual glycosidase. PNPasewas entirely membranebound. Neither the membrane-bound glycosidasesnor PNPase could be released from the membranes by ionic treatment,changes in pH or competition with monosaccharide solutions.Chromatofocusing of the glycosidases from the microsomal fractionshowed that specific isozymes of -mannosidase and ß-galactosidasewere associated with the membranes and lumen respectively butthere was no consistent relations between these and the isozymespresent in the protein bodies. The significance of these observationswith regard to the intracellular targeting of newly synthesizedenzymes from their site of synthesis to specific organellesis discussed. Key words: Endoplasmic reticulum, Glycoproteins, Glycosidases, Lectin, Phosphatase, Protein transport     

Acclimation to low light intensity in photosynthesis and growth of Pseudo-nitzschia multiseris Hasle, a neurotoxigenic diatom

Pseudo-nitzschia multiseries, a neurotoxigenic diatom, was grownin batch culture at light intensities between 53 and 1100 µmolm^–2 s^–1. Cellular contents of carbon. nitrogen andchlorophyll a, and the relationship between photosynthesis andlight levels, were studied during exponential (day 4) and stationaryphases (day 12). In the stationary phase at low light, therewas an increase in cellular chlorophyll a and the initial slopeof P-I curves (^B), which permitted a photosynthetic assimilationof energy equivalent to that of cells grown at high light. Inpast incidents of domoic acid poisoning, this may have facilitateddomoic acid production at low light intensities.     

Protein Bodies from Buckwheat Seed Cotyledons: Isolation and Characteristics

Protein bodies were isolated from cotyledons of dry buckwheatseeds by homogenization in acetone with subsequent purificationin a 1.26 g cm^–3 to 1.53 g cm^–3 linear density gradientof a mixture of acetone with CCI₄. The purified fraction ofprotein bodies with globoids (PB I) had a buoyant density of1.48–1.51 g cm^–3 and was intact according to microscopicdata. Localization of hydrolytic enzymes and proteinase inhibitorsin the PB I fraction and in the fraction of the cytoplasm andmembrane material (CMM) was studied. It was shown that acidhydrolytic enzymes, such as aspartic proteinase, carboxypeptidase,acid phosphatase, -D-mannosidase and N-acetyl-ß-glucosaminidase,as well as chymotrypsin and trypsin inhibitors were predominantlylocalized in the PB I. BAPAase and SH-activated caseinase activitieswere equally distributed between the PB I and CMM fraction.The activities of leucine aminopeptidase and SH-independentcaseinase were noticeably predominant in the CMM fraction. Key words: Buckwheat, subcellular fractionation, protein bodies, hydrolases     

Cotyledonary mRNA Species and Germinability of Immature Vigna unguiculata Seeds

We have defined four stages in the development of cowpea seeds:I(9–11 days after flowering), II (13–15), HI (17–19)and IV (22–24). Poly A⁺ RNA fractions were prepared fromcotyledons of developing (stages I–IV) and germinating(0, 12, 24 and 48 h after imbibition) seeds. Poly A⁺ RNAs fromstages I–III exhibited high translation activities witha maximum at stage II, and the activity was markedly reducedat stage IV. In cotyledons of germinating seeds, the translationactivity was low until 12 h after the onset of imbibition butrose thereafter. Analysis of in vitro translation products withSDS-polyacrylamide gel electrophoresis and fluorography showedthat the abundant mRNA population underwent a distinct changebetween stages II and III of seed development. Since the mRNApopulation at stage III was very similar to that of stage IV(mature seeds), it appears that, as far as mRNA species areconcerned, the prerequisites for germination are fully availablein the developing seeds by stage III. This assumption was supportedby the fact that immature seeds at stage III exhibited highgermination rates and normal axial growth and produced -amylaseat levels similar to those produced by mature seeds. Severalpolypeptides which have been regarded as translation productsof stored mRNA (poly A⁺ RNA from dry seeds) were detected atearlier stages of germination. (Received September 29, 1988; Accepted January 25, 1989)     

The Effects of {delta}-Aminolevulinic Acid and Inhibitors of RNA and Protein Synthesis on Phytochrome Mediated Chlorophyll Accumulation in Sorghum bicolor

In 5-d-old etiolated seedlings of Sorghum bicolor, 12 h of darknessafter 5 min in red light eliminated a lag before the accumulationof chlorophylls in subsequent continuous white light. Increasingthe dark period to 24 h and 36 h, increased the rate of chlorophyllaccumulation in the later stages of greening. Exogenous -aminolevulinicacid neither completely removed the lag, nor increased the rateof chlorophyll accumulation. Cycloheximide (25 µg ml^–1)and 6-methyl purine (5.0 µg ml^–1), given continuouslyor only until the 12 h dark period following the red light irradiation,restored the lag and decreased the rate of chlorophyll accumulation.D-threo-chloramphenicol (400µg ml^–1) also decreasedthe rate of chlorophyll accumulation but did not restore thelag. Addition of these inhibitors even 12 h after red lightirradiation decreased the rate of chlorophyll accumulation.Rifampicin (Rifamycin SV, 400 µg ml^–1) did not havesuch effects. Key words: Chlorophylls, Phytochrome, -Aminolevulinic acid, Sorghum bicolor     

Ethylene and water stress

Culture of excised cotyledons in 6 × 10^-2 M sucrose reduces petiolar chlorophyll protein and RNA, inhibits CO₂ fixation and suppresses the development of root primordia. This syndrome is preceded by enhancement of ethylene production by sucrose, particularly in the light. Glucose also increases ethylene production and petiole senescence whereas 3-O-ethyl glucose does not.