Stomatal responses to changes in vapour pressure difference between leaf and air

We observed that stomata of Gossypium hirsutum, Glycine max and Xanthium strumarium respond to a change in vapour pressure difference between leaf and air at ambient partial pressures of CO₂ and below the CO₂ compensation point. Our report is at variance with a recent report (J. A. Bunce 1997, Plant, Cell and Environment 20, pp. 131–135) that stomatal sensitivity of leaves to a change in vapour pressure difference between leaf and air was eliminated when gas exchange measurements were made at near-zero carbon dioxide partial pressures (0–5 Pa).     

Identification and pathogenicity of Rhizoctonia species isolated from bean and soybean plants in Samsun,Turkey

A total of 434 isolates of Rhizoctonia belonging to 10 anastomosis groups were obtained from the roots and rhizosphere soils of bean and soybean plants grown in Samsun, Turkey. AG-4 was found to be the most common group on bean and soybean plants and AG-5, AG-6, binucleate AG-A, AG-B and R. zeae were other groups isolated from the both plant species. AG-1, AG-7 and AG-K from bean and AG-E from soybean were other groups obtained in the study. The pathogenicity tests on bean and soybean seedlings showed that the highest disease severities were caused by AG-4 isolates, whereas AG-1 and AG-6 isolates were moderately pathogenic. Binucleate Rhizoctonia AG-B isolates were also moderately pathogenic, while other binucleate Rhizoctonia were found to be weakly pathogenic. Rhizoctonia zeae isolates caused moderate disease symptoms on bean, but soybean plants were slightly affected by this group of isolates. This is the first reported observation of R. solani AG-6 and AG-7 and binucleate Rhizoctonia AG-B on bean, and R. solani AG-5 and AG-6 and binucleate Rhizoctonia AG-A, AG-B and AG-E on soybean, in Turkey.     

Effect of Pressure on the Release of Radioactive Glycine and γ-Aminobutyric Acid from Spinal Cord Synaptosomes

Exposure to high hydrostatic pressure produces neurological changes referred to as the high-pressure nervous syndrome (HPNS). Manifestations of HPNS include tremor, EEG changes, and convulsions. These symptoms suggest an alteration in synaptic transmission, particularly with inhibitory neural pathways. Because spinal cord transmission has been implicated in HPNS, this study investigated inhibitory neurotransmitter function in the cord at high pressure. Guinea pig spinal cord synaptosome preparations were used to study the effect of compression to 67.7 atmospheres absolute on [3H]glycine and [3H]gamma-aminobutyric acid ([3H]GABA) release. Pressure was found to exert a significant suppressive effect on the depolarization-induced calcium-dependent release of glycine and GABA by these spinal cord presynaptic nerve terminals. This study suggests that decreased tonic inhibitory regulation at the level of the spinal cord contributes to the hyperexcitability observed in animals with compression to high pressure.     

大豆fad基因反义表达载体构建及转化烟草研究

使用PCR方法从大豆基因组DNA中扩增出大豆油酸脱饱和酶基因fad2-1,连接到pMD18-T载体中,转化大肠杆菌JM109菌株.测序后,用DNAstar软件进行同源性比对.然后将正确的序列反向克隆到表达载体pBt,并转化农杆菌菌株LBA4404,经双酶切鉴定和PCR扩增检测,获得具有该基因反向序列的农杆菌工程菌,转化...     

Potassium channel activators decrease endogenous glutamate release from rat cerebellar slices

Summary The effects of the sulphonylurea activators of ATP-sensitive potassium channels (K⁺ _ATP), cromakalim and pinacidil, on the evoked-release of endogenous glutamate from superfused slices of rat cerebellum was examined. K⁺-stimulated release was Ca²⁺-dependent, whereas tetrapentylammonium (TPeA)-evoked release occurred both in the presence and absence of Ca²⁺, but was significantly greater in Ca²⁺-free medium. The Ca²⁺-dependent TPeA and K⁺-evoked release of glutamate was inhibited by both cromakalim and pinacidil in a concentration-dependent fashion. However, although cromakalim markedly reduced Ca²⁺-independent TPeA-evoked release, pinacidil was ineffective. In addition, the vehicle for cromakalim, ethanol, markedly potentiated both Ca²⁺-dependent and -independent TPeA-evoked release, but not K⁺-evoked release. Despite a high concentration of sulphonylurea binding sites and a dense glutamatergic innervation, the concentrations of K⁺ _ATP channel activators required to inhibit stimulus-evoked release from the cerebellum are higher than those reported to inhibit glutamate release or reduce neuronal activity in other parts of the CNS.     

The feedback mechanism of nitrate inhibition of nitrogenase activity in soybean may involve asparagine and/or products of its metabolism

A feedback mechanism which involves sensing of change in phloem N concentration has been proposed to control nodulation and dinitrogen fixation in the presence of external combined N. Whether this control is in response to a change in total N or in some specific signal compound(s) is not known. In the present study we reevaluated the hypothesis that control of nodulation and N₂ fixation involves sensing of change in tissue N composition and attempted to identify potential signal molecule(s) involved. Two soybean (Glycine max [L.] Merr.) genotypes (Williams 82 and NOD1-3) differing in nodule number and tolerance to nitrate were germinated in sand trays. Seven-day-old seedlings were inoculated with a solution of Bradyrhizobium japonicum and grown for 28 days in growth chambers, using a hydroponic system with limited N supply to promote nodulation. Half of 28-day-old plants were treated with 15 mM NO₃^?, then control and treated plants were sampled at the onset of nitrogenase inhibition (24 h following NO₃^?, treatment) for evaluation of nitrogenase activity and tissue concentration of total N and of each individual free amino acid. Phenylisothiocyanate-(PITC) amino acid derivatives were separated and quantified using HPLC. The decline in nitrogenase activity following the short-term nitrate treatment was associated with a dramatic asparagine concentration increase in the shoot and an increase in nodule aspartate and glutamate in both genotypes. Asparagine concentration in the shoot increased 35 times from a barely detectable level of 95 to 3 327 nmol g^?1 fresh weight in Williams 82, and more than tripled from 509 to 1 753 nmol g^?1 fresh weight in NOD1-3. Increase in levels of free Asn and in total free amino acids in the shoot following the short-term nitrate treatment was more pronounced in Williams 82 than in its partially nitrate-tolerant mutant NOD1-3. These results indicate that the feedback control of nodule activity may involve sensing changes in shoot asparagine levels and/or products of its metabolism (aspartate and glutamate) in the nodule. These results also indicate that partial-nitrate tolerance of nodulation in the hypernodulated NOD1-3 mutant is associated with a lesser change in tissue N following nitrate treatment.     

Polyamine synthesis in plants. Purification and properties of amidinotransferase from soybean (Glycine max) axes

Three-day-old soybean (Glycine max) seedlings were exposed to 0.4 M sorbitol solution for 4 h to induce amidinotransferase activity, with the corresponding enzyme being purified to homogeneity by chromatographic separation on DEAE-Sephacel, Sephacryl S-300 and L-arginine Sepharose 4B. The purified enzyme used L-arginine and L-glycine as the major donor/acceptor of the amidino group, respectively, with formation of guanidinoacetic acid and ornithine products being confirmed by ESI-MS. The enzyme is a tetrameric protein having a molecular mass of 240,000 Da, whose thiol group is needed for enzymatic activity. The K(M)s for arginine and glycine were 3.8 and 0.89 mM, respectively, with optimal temperature and pH being 37 degrees C and 9.5, respectively. The soybean amidinotransferase could be indirectly involved in nitrogen metabolism, as suggested by the observation that arginine:glycine amidinotransferase in soybean axes is indirectly involved in putrescine biosynthesis and displays feedback control at high levels of an endogenous regulator, putrescine.     

A 2,4-D-inducible glutathione S-transferase from soybean (Glycine max). Purification, characterisation and induction

Glutathione S-transferases (GSTs; EC 2.5.1.18) have recently been proposed to form one large group among the auxin-induced proteins. However. the properties and regulation of such auxin-responsive GSTs in the plant still await detailed investigation. In this study, a 2,4-dichloro-phenoxyacetic acid (2,4-D)-inducible GST isozyme from soybean ( Glycine max [L.] Merr. cv. Williams) was purified to near homogeneity by anion-exchange and affinity chromatography on S-hexylglutathione agarose. The native enzyme had a molecular mass of 49 kDa, as determined by gel filtration, and consisted of 26-kDa subunits. The purified GST conjugated glutathione to 1-chloro-2,4-dinitrobenzene and to the herbicide metolachlor, but not to the other GST substrates atrazine. fluorodifen or trans-cinnamic acid. The N-termmal amino acid sequence shared significant homology with the deduced polypeptide sequences of two 2,4-D-inducible genes from tobacco, par A and CNT107 . The levels of the 26-kDa GST subunit protein in soybean hypocotyls were analysed by immunoblotting. At micromolar concentrations, 2,4-D induced a transient increase in net accumulation of GST, whereas indole-3-acetic acid or I-naphthaleneacetic acid did not increase the GST levels. Known inhibitors of polar auxin transport, including 2.3.5-tri-iodobenzoic acid. N-I-naphthylphthalamic acid and analogues thereof, differed widely in their ability to elicit GST protein accumulation. It is concluded that the induction of soybean GST by 2,4-D and by some of the auxin transport inhibitors is not related to auxin activity or to changes in the endogenous auxin levels.     

Measurement of amino acid release from cultured cerebellar granule cells by an improved high performance liquid chromatography procedure

Endogenous amino acid release was examined in rat cerebellar primary cultures comprising more than 95% of glutamatergic granule cells. Eighteen amino acids were determined in the cell extracts and in the release fractions by high performance liquid chromatography, using precolumn derivatization witho-phthaldialdehyde and separation on a reverse-phase column using a multi-step gradient system of two solvents (0.1 M Na⁺acetate, pH 7.2/methanol: tetrahydrofuran, 97:3). The fluorimetric response was linear, at least in the range of 2–162 pmol, for all the amino acids analysed, with a detection limit of 1 pmole. We observed a good reproducibility in within-assay and between-assay coefficients of variation of the retention times and fluorescence yield. When cultured granule cells were exposed to the excitatory amino acid receptor agonist quisqualic acid (50 M), we observed a net increase in the release of glutamate (3 fold over the baseline) and a smaller increase in that of aspartate (2 fold) and taurine (1.6 fold). Other amino acids were not significantly affected. GABA levels were below detection limits, due to the minimal number of GABAergic neurons present in the cultures.     

The present status of higher plant bioassays for the detection of environmental mutagens

Higher plants provide valuable genetic assay systems for screening and monitoring environmental pollutants. They are now recognized as excellent indicators of cytogenetic and mutagenic effects of environmental chemicals and are applicable for the detection of environmental mutagens both indoor and outdoor. Comparisons between plant and nonplant genetic assay systems indicate that higher plant genetic assays have a high sensitivity (i.e. few false negatives). Two assays which are considered ideal for in situ monitoring and testing of airborne and aqueous mutagenic agents are the Tradescantia stamen hair assay for mutations and the Tradescantia micronucleus assay for chromosome aberrations. Both assays can be used for in vivo and in vitro testing. Other higher plant gentoxicity assys which have a large number of genetic markers and/or data base and are also highly suitable for testing for genotoxic agents include Arabidopsis thaliana, Allium cepa, Hordeum vulgare, Vicia faba, and Zea mays. Since higher plant systems are now recognized as excellent indicators of the cytotoxic, cytogenetic, and mutagenic effects of environmental chemicals and have unique advantages for in situ monitoring and screening it is recommended that higher plant systems be accepted by regulatory authorities as an alternative first-tier assay system for the detection of possible genetic damage resulting from pollution or the use of environmental chemicals. The results from higher platn genetic assays could meke a significant contribution in protecting the public from agents that can cause mutation and cancer. The advantages possessed by higher plant genetic assays, which are inexpensive and easy to handle, make them ideal for use by scientists in developing countries.     

The involvement of sodium and calcium ions in the release of amino acid neurotransmitters from mouse cortical slices elicited by hyperforin

Hyperforin is currently considered to be the major active antidepressant constituent of the medicinal herb St. John's wort (Hypericum perforatum L.). The mechanism of action however, is still largely unknown, although the involvement of sodium and calcium has been recently inferred. In the present study hyperforin (5 microM) significantly potentiated the release of endogenous aspartate and glutamate from mouse cortical slices when stimulated by veratridine or potassium. Hyperforin (5 microM) also stimulated the release of aspartate, glutamate, serine, glycine and GABA when perfused on its own. Perfusion of the sodium channel blocker, tetrodotoxin (TTX) inhibited the effect of hyperforin, whereas removal of extracellular calcium potentiated the effect. Our observations suggests that hyperforin increases the overflow of neurotransmitters from mouse cerebral cortex possibly through facilitating the entry of sodium into the neurone which leads to the release of calcium from intracellular stores.     

Transmitter release in hippocampal slices from rats with limbic seizures produced by systemic administration of kainic acid

The systemic injection of kainic acid (KA) has been shown to destroy neurons in the hippocampus and to induce limbic-type seizure activity. However, little is known on the neurochemical events that are associated with this convulsant effect. In the present work we studied the spontaneous and the K⁺-stimulated release of labeled -aminobutyric acid (GABA), glutamate, serotonin and dopamine, in hippocampal slices of KA-treated rats, at the moment of clinical seizures (2 h) and 72 h later. At the onset of convulsions we found a 40–45% decrease in the K⁺-stimulated release of GABA. The release of the other neurotransmitters was not significantly affected by KA treatment. After 72 h GABA release was still reduced by 30–40%. It is concluded that the epileptogenic effect of KA in the hippocampus is probably related to a diminished inhibitory GABAergic neurotransmission.     

Role of ammonium accumulation in bacteria-induced hypersensitive and compatible reactions of tobacco and cotton plants

Leaves of 12-week-old tobacco plants (Nicotiana tabacum L. cv. Samsun NN) were infiltrated with suspensions of Pseudomonas syringae pv, pisi (DSM 50291) to induce hypersensitive reaction (HR). Cotyledons of 2-week-old cotton plants (Gossypium hirsutum L. cv. Acala 442 and Coker BR) were infiltrated with Xanthomonas campestris pv. malvacearum (race 10) to induce the disease. In tobacco, HR-related increases in NH⁺₄ levels started within 2 h after infection and continued up to the time of tissue decay. Increase of NH⁺₄ and especially K⁺ efflux were detected in intercellular washing fluids (IWF). Antibiotics stopped and later reverted NH⁺₄ production and K⁺ efflux, but only if applied within 2 h after infection. When 10 mM NH⁺₄ was injected into leaves, it was rapidly consumed from the IWF, and also, although more slowly, within the leaf cells. The concomitant K⁺ efflux was strong but delayed, and most of the K⁺ was reabsorbed after 2 h. Bacterial cell multiplication in HR stopped before the appearance of HR symptoms and cell necrosis. In the compatible reaction in cotton cotyledons, both NH₊⁴accumulation and K⁺ efflux proceeded much more slowly than in the HR with tobacco, and bacteria continued to multiply until general cell necrosis occurred. The compatible reaction developed faster in constant darkness than in a light/dark rhythm. Bacterial enzymes produced NH⁺₄, mainly from proteins of host cells, in both light and darkness. Continuous light delayed the main peak of both NH⁺₄ production and K⁺ efflux. High CO₂ concentration inhibited both processes, thus indicating that photorespiration plays a role in enhancing the release of free ammonium during bacterial pathogenesis. This is supported by shifts in the pattern of amino acids. The results demonstrate the accelerating and aggravating effect of ammonium in pathogenesis and HR, though ammonium is not the primary agent.     

Taurine release modified by GABAergic agents in hippocampal slices from adult and developing mice

Summary. In order to characterize the possible regulation of taurine release by GABAergic terminals, the effects of several agonists and antagonists of GABA receptors on the basal and K⁺-stimulated release of [³H]taurine were investigated in hippocampal slices from adult (3-month-old) and developing (7-day-old) mice using a superfusion system. Taurine release was concentration-dependently potentiated by GABA, which effect was reduced by phaclofen, saclofen and (1,2,5,6-tetrahydropyridin-4-yl)methylphosphinic acid (TPMPA) at both ages, suggesting regulation by both GABA_B and GABA_C receptors. The involvement of GABA_A receptors could not be excluded since the antagonist bicuculline was able to affect both basal and K⁺-evoked taurine release. Furthermore, several GABA_B receptor effectors were able to inhibit K⁺-stimulated taurine release in the adults, while the GABA_C receptor agonists trans-4-aminocrotonic acid (TACA) and cis-4-aminocrotonic acid (CACA) potentiated this release. The potentiation of taurine release by agents acting on the three types of GABA receptors in both adult and developing hippocampus further indicates the involvement of transporters operating in an outward direction. This inference is corroborated by the moderate but significant inhibition of taurine uptake by the same compounds. Received June 28, 1999, Accepted August 31, 1999     

Influence of pipecolic acid on the release and uptake of [3H]GABA from brain slices of mouse cerebral cortex

Recently, pipecolic acid (PA) has been involved in the functioning of the GABAergic system. In the present work we have studied the effect of PA on GABA uptake and release in cerebral cortex slices. PA (100 M) was able to increase the release of [³H]GABA (90%) stimulated by mild depolarization with 15 mM potassium. If during the labeling of the tissue with [³H]GABA, -alanine was present, PA also enhanced the release (42%). However, when nipecotic acid was present instead -alanine, no stimulation of [³H]GABA release by potassium was observed neither in the control nor in the presence of PA. Spontaneous release was not affected by PA in any of the experimental conditions tested. In uptake experiments, only when -alanine was present in the medium PA significantly diminished the uptake (36%) of [³H]GABA. These results suggest that the effect of PA is mostly at the presynaptic level, inhibiting the neuronal GABA uptake and/or enhancing its release.     

Depolarizing and calcium-mobilizing stimuli fail to enhance synthesis and release of endocannabinoids from rat brain cerebral cortex slices

The concentrations of the endocannabinoids 2-arachidonoylglycerol (2-AG) and N-arachidonylethanolamine (anandamide) were examined in rat brain cerebral cortex slices and surrounding medium. Basal concentrations of endocannabinoids were similar to those identified previously in rat brain, with anandamide content being much lower (19 pmol/g) than that of 2-AG (7300 pmol/g). In contrast, basal concentrations in the surrounding medium were proportionally much lower for 2-arachidonoylglycerol (16 pmol/mL) compared to anandamide (0.6 pmol/mL). Incubation of slices with glutamate receptor agonists, depolarizing concentrations of KCl, or ionomycin failed to alter tissue concentrations of endocannabinoids, while endocannabinoids in the medium were unaltered by elevated KCl. Cyclohexyl carbamic acid 3'-carbamoyl-biphenyl-3-yl ester, an inhibitor of fatty acid amide hydrolase, significantly enhanced tissue concentrations of anandamide (and related N-acylethanolamines), without altering 2-AG, while evoking proportional elevations of anandamide in the medium. Removal of extracellular calcium ions failed to alter tissue concentrations of anandamide, but significantly reduced 2-AG in the tissue by 90% and levels in the medium to below the detection limit. Supplementation of the medium with 50 μM N-oleoylethanolamine only raised tissue concentrations of N-oleoylethanolamine in the presence of cyclohexyl carbamic acid 3'-carbamoyl-biphenyl-3-yl ester and failed to alter either tissue or medium anandamide or 2-AG concentrations. These results highlight the ongoing turnover of endocannabinoids, and the importance of calcium ions in maintaining 2-AG concentrations in this tissue.     

Effects of medium osmolarity on the release of amino acids from isolated cotyledons of developing pea seeds

The release of endogenous amino acids from isolated, immature pea (Pisum sativum L. cv. Marzia) cotyledons was investigated in relation to their developmental stage and the osmolarity of the bathing medium. The water potential of the cotyledons was about-1.1 MPa from which it could be inferred that the osmolarity of their apoplastic fluids will be approximately 450 mosmol·l^?1. The time course of amino-acid release conformed to an exponential function. Rate constants of the release were in the range 0.3 to 0.9 · h ^?1. No indication was found for increased permeability of the plasmamembrane for amino acids at low medium osmolarity. Rate constants were even 1.5-fold lower in 0 mM mannitol than in medium with 400 mM mannitol. This effect could be ascribed to reduced protein synthesis in hypotonic media. In the presence of 400 mM mannitol the release was nearly proportional to the total amino-acid pool of the cotyledons and ranged from 12% to 8% for the various developmental stages. Amino-acid release was stimulated by incubation in a hypotonic medium (< 400 mM mannitol), up to fourfold in a medium without mannitol where as much as 45% of the cotyledonary amino-acid content could be released. The extra aminoacid release induced by the hypotonic condition declined during development and eventually vanished completely. Release of amino acids into a medium with 400 mM mannitol was more selective than into a medium without mannitol. For instance, arginine was one of the main constituents of the cotyledonary amino-acid pool (19%) as well as of the released amino-acid mixture when the medium contained no mannitol (10%), whereas it was virtually absent when the medium contained 400 mM mannitol. As an overall interpretation of these results, it is proposed that the hypotonic condition greatly enhances the permeability of the tonoplast (not that of the plasmalemma) for amino acids so that the otherwise well-sequestered amino acids in the vacuole become available for release into the bathing medium.