首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
The mechanism by which Helminthosporium maydis race T toxin inhibits respiration dependent on NAD+-linked substrates in T cytoplasm corn mitochondria was investigated. The toxin did not cause leakage of the soluble matrix enzyme malate dehydrogenase from the mitochondria or inhibit malate dehydrogenase or isocitrate dehydrogenase directly. The toxin did increase the permeability of the inner membranes of T cytoplasm, but not N cytoplasm, mitochondria to NAD+. Added NAD+ partially or fully restored toxin-inhibited electron transport in T cytoplasm mitochondria. Thiamin pyrophosphate had a similar effect when malate was the substrate. It was concluded that the inhibition of respiration of NAD+-linked substrates by the toxin is due to depletion of the intramitochondrial pool of NAD+ and other coenzymes.  相似文献   

2.
Holden MJ  Sze H 《Plant physiology》1989,91(4):1296-1302
The effect of Helminthosporium maydis race T toxin on electron transport in susceptible cytoplasmic male-sterile Texas corn (Zea mays L.) mitochondria was investigated, using dichlorophenol indophenol and ferricyanide as electron acceptors. Succinate-dependent electron transport was stimulated by the toxin, consistent with the well described increase in membrane permeability induced by the toxin. Malate-dependent electron transport was inhibited. This inhibition of electron transport increased as a function of time of exposure to the toxin. Mitochondria from normal-fertile (N) corn were not affected by the toxin. Both the inhibition of electron transport and the increase in ion permeability, such as dissipation of membrane potential and Ca2+ gradients, induced by the toxin in T corn was prevented by N,N′-dicyclohexylcarbodiimide, a hydrophobic carbodiimide. A water-soluble carbodiimide, 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide, was ineffective in preventing dissipation of membrane potential by the toxin. These results suggest that the various toxin actions are mediated via interaction of the toxin with one target site, most probably a 13 kilodalton polypeptide unique to T mitochondria. N,N′-dicyclohexylcarbodiimide may confer protection by modifying an amino acid residue in a hydrophobic portion of the target site.  相似文献   

3.
A toxin preparation from Helminthosporium maydis Race T containing several closely related molecules with apparently identical biological activities was highly active against mitochondria and protoplasts from Texas male-sterile (T) cytoplasm corn (T mitochondria and T protoplasts, respectively) but had no effect on their male-fertile (N) cytoplasm counterparts. The toxin preparation caused multiple changes in isolated T mitochondria, including uncoupling of oxidative phosphorylation, stimulation of succinate and NADH respiration, inhibition of malate respiration, increased swelling, loss of matrix density, and unfolding of the inner membrane. Only 6 to 7 nanograms toxin per milligram mitochondrial protein (1.8 nanogram per milliliter) were required to fully uncouple oxidative phosphorylation and to completely inhibit malate respiration in isolated T mitochondria. Similar low concentrations of toxin caused collapse of T protoplasts after several days of culture. Severe ultrastructural damage to mitochondria in T protoplasts was observed within 20 minutes; no changes in other cellular components were observed at this time. These observations on the cytoplasmic specificity, multiple effects, and high activity of the toxin at the mitochondrial and cellular levels highlight its biological significance and potential usefulness in determining the molecular basis of southern corn leaf blight disease.  相似文献   

4.
The effect of a toxin extract of Helminthosporium maydis, race T on K+ (86Rb) uptake by excised root segments of normal (N) and Texas cytoplasmic male-sterile (T) versions of corn inbred W64A was investigated. The uptake of K+ was inhibited in both N and T roots by the toxin. This was true for both basal (freshly excised) and augmented (pretreated with aeration) K+ uptake. Augmented uptake was more toxin-sensitive than basal uptake (irrespective of cytoplasm type), and the augmented uptake in T roots was seven to eight times more toxin-sensitive than in N roots.  相似文献   

5.
Helminthosporium maydis race T (HMT) toxin caused a reduction in the steady-state ATP levels when leaf mesophyll protoplasts isolated from maize containing Texas male-sterile (T) but not male-fertile (N) cytoplasm were incubated in the dark. At a toxin concentration 10 times the mean effectived dose for inhibition of root growth, the ATP levels began to fall in 30 to 90 seconds, fell by 50% in about 4 minutes, and reached 23% of the original levels in 100 minutes. This is faster than any previously observed response of whole cells or tissues to HMT toxin. In protoplasts incubated in the light, ATP levels were 25% higher than in the dark and were either unaffected or only slightly diminished by toxin. 3-(3,4-Dichlorophenyl)-1, 1-dimethylurea (DCMU), an inhibitor of photosynthetic electron transport, overcame the effect of light on both toxin-treated and control protoplasts. Oligomycin, an inhibitor of mitochondrial ATP synthesis, mimicked the effects of toxin in the dark, in the light, and in the light plus DCMU, but it was not specific for T cytoplasm. During the first 24 hours of culture, ATP levels in control protoplasts increased in both the light and dark. In the dark, ATP was not detectable after 24-hour incubation in the presence of toxin, whereas in the light a substantial amount of ATP remained. Our results are compatible with the hypothesis that mitochondria in vivo are inhibited by HMT toxin. Other responses of cells and tissues to toxin can be explained in terms of reduced ATP levels.  相似文献   

6.
Pham HN  Gregory P 《Plant physiology》1980,65(6):1173-1175
Helminthosporium maydis Race T toxin caused the expected changes in freshly isolated mitochondria from T cytoplasm corn, namely complete uncoupling of oxidative phosphorylation, pronounced stimulation of succinate and NADH respiration, complete inhibition of malate respiration, and increased mitochondrial swelling. In contrast, identical toxin treatments of the mitochondria after 12 hours aging on ice resulted in partial uncoupling, much lower stimulation of succinate and NADH respiration, no inhibition of malate respiration, and no mitochondrial swelling. Almost all of the toxin sensitivity was lost by 6 hours aging. At this stage, the mitochondria were 208× and 66× less sensitive to toxin-induced changes in coupling of malate respiration and state 4 malate respiration rates, respectively. Loss of toxin sensitivity did not occur when the mitochondria were aged under nitrogen or in the presence of 5 millimolar dithiothreitol. This suggested that the aging effect was due to oxidation, possibly of sulfhydryl groups in one or more mitochondrial membrane proteins.  相似文献   

7.
High yields of mesophyll protoplasts were obtained from leaves of corn (Zea mays L., inbred W64A). Many protoplasts survived a week in the dark in a simple osmoticum. Culture filtrate from Helminthosporium maydis race T at dilutions of 1:10,000 to 1:20,000 destroyed protoplasts with Texas male-sterile (T) cytoplasm. Substantial damage to protoplasts with nonmale-sterile (N) cytoplasm occurred only at a 1:20 dilution. High concentrations of partially purified H. maydis race T (HMT) toxin (32.5-130 μg dry weight/ml) did not reduce survival of protoplasts with N cytoplasm or C or S male-sterile cytoplasms after 6 days of exposure. Protoplasts with T or TRf (fertility restored) cytoplasm collapsed within 1 to 3 days after treatment with 0.13 μg of HMT toxin/ml, which was one-fifth the level causing 50% inhibition of T cytoplasm seedling root growth. Protoplasts with T cytoplasm which were washed after 30 minutes or more of exposure to HMT toxin also collapsed within a few days. Cultured W64A T protoplasts and freshly isolated protoplasts from inbreds C103 and Mo17 with T cytoplasm were less sensitive to HMT toxin than freshly isolated W64A T protoplasts. Toxin-treated protoplasts survived longer in the light than in the dark. The sensitivity and specificity of the system described will facilitate physiological, ultrastructural, and genetic studies of toxin action.  相似文献   

8.
Treatment of mitochondria isolated from Texas male sterile cytoplasmcorn (T mitochondria) with high concentrations of dicyclohexylcarbodiimide(DCCD) (140 nmol DCCD mg–1 mitochondrial protein) completelyand immediately inhibited T mitochondrial swelling by Helminthosporiummaydis Race T toxin (HmT toxin). In order to obtain a specificinteraction between DCCD and the ATPase complex T mitochondriawere incubated with lower DCCD concentrations (1–5 nmolDCCD mg–1 mitochondrial protein) for up to 8 h at 4 °C.After 8 h incubation in the presence of 3.75 nmol DCCD mg–1mitochondrial protein, toxin-induced swelling was decreasedby 69%. Specificity of DCCD action upon the ATPase complex wasconfirmed by (1) SDS gel electrophoresis and fluorographic analysesof proteins from [14C]-DCCD-treated T mitochondria and immunoprecipitatesand (2) physiological experiments showing that DCCD exertednone of its other documented effects. These data suggest thatHmT toxin interacts with the ATPase complex of T mitochondriaeither at or near the DCCD-binding protein within the membranesector of the complex. Key words: Zea mays L., Helminthosporium maydis, Mitochondria  相似文献   

9.
Holden MJ  Sze H 《Plant physiology》1987,84(3):670-676
We have tested directly the effect of Helminthosporium maydis T (Hmt) toxin and various analogs on the membrane potential formed in mitochondria isolated from a Texas (T) cytoplasmic male-sterile and a normal (N) corn. ATP, malate or succinate generated a membrane potential (negative inside) as monitored by the absorbance change of a cationic dye, safranine. The relative membrane potential (Δψ) could also be detected indirectly as 45Ca2+ uptake. Hmt toxin added to T mitochondria dissipated the steady state Δψ similar to addition of a protonophore, carbonyl cyanide m-chlorophenylhydrazone (CCCP). Toxin analogs (Cpd XIII: C41H68O12 and Cpd IV: C25H44O6), reduced native toxin (RT2C: C41H84O13) and Pm toxin (band A: C33H60O8, produced by the fungus, Phyllosticta maydis) were effective in dissipating Δψ and decreasing Ca2+ uptake with the following order: Pm (100) » HmT (23-30) > Cpd XIII (11-25) » RT2C (0-4−1.8) > Cpd IV (0.2−1.0). In contrast, the toxins and analogs had no effect on Δψ formed in N mitochondria. The striking similarities of the HmT toxin (band 1: C41H68O13) and Cpd XIII on T mitochondrial activities provide strong evidence supporting the correctness of the polyketol structure assigned to the native toxin. Since the Δψ in energized mitochondria is caused mainly by the electrogenic extrusion of H+, the results support the idea that HmT toxin increases membrane permeability of T mitochondria to H+. The host specificity of the toxin suggests that an interaction with unique target site(s) on the inner mitochondrial membrane of T corn causes H+ leakage.  相似文献   

10.
Kimber A  Sze H 《Plant physiology》1984,74(4):804-809
The effects of purified Helminthosporium maydis T (HmT) toxin on active Ca2+ transport into isolated mitochondria and microsomal vesicles were compared for a susceptible (T) and a resistant (N) strain of corn (Zea mays). ATP, malate, NADH, or succinate could drive 45Ca2+ transport into mitochondria of corn roots. Ca2+ uptake was dependent on the proton electrochemical gradient generated by the redox substrates or the reversible ATP synthetase, as oligomycin inhibited ATP-driven Ca2+ uptake while KCN inhibited transport driven by the redox substrates. Purified native HmT toxin completely inhibited Ca2+ transport into T mitochondria at 5 to 10 nanograms per milliliter while transport into N mitochondria was decreased slightly by 100 nanograms per milliliter toxin. Malate-driven Ca2+ transport in T mitochondria was frequently more inhibited by 5 nanograms per milliliter toxin than succinate or ATP-driven Ca2+ uptake. However, ATP-dependent Ca2+ uptake into microsomal vesicles from either N or T corn was not inhibited by 100 nanograms per milliliter toxin. Similarly, toxin had no effect on proton gradient formation ([14C]methylamine accumulation) in microsomal vesicles. These results show that mitochondrial and not microsomal membrane is a primary site of HmT toxin action. HmT toxin may inhibit formation of or dissipate the electrochemical proton gradient generated by substrate-driven electron transport or the mitochondrial ATPase, after interacting with a component(s) of the mitochondrial membrane in susceptible corn.  相似文献   

11.
Holden MJ  Sze H 《Plant physiology》1984,75(1):235-237
Though Helminthosporium maydis race T (HmT) toxin decreased active Ca(2+) uptake into mitochondria isolated from susceptible (T) but not resistant (N) corn (Kimber, Sze, 1984 Plant Physiol 74: 804-809 the mode of toxin action is not understood. This study shows that HmT toxin or A23187 (a Ca(2+) ionophore) dissipated a Ca(2+) gradient in T mitochondria. However, HmT toxin had no effect on Ca(2+) gradients in N mitochondria or microsomal vesicles from T or N corn. The results suggest that HmT toxin increased membrane permeability to Ca(2+) in mitochondria of T corn specifically.  相似文献   

12.
A chemical test reported by Karr et al. (Plant Physiol. 55:727) to assay for host-specific toxin produced by Helminthosporium maydis race T was evaluated. Preparations from culture filtrates of both race T isolates, containing host-specific toxin, and similar preparations from race O isolates, containing no detectable host-specific toxin, gave positive reactions in the chemical assay. Also, preparations containing active or inactive toxin gave equal responses in this test. The procedure does not provide a reliable method for assaying H. maydis race T toxin.  相似文献   

13.
Payne G  Kono Y  Daly JM 《Plant physiology》1980,65(5):785-791
NADH or succinate oxidation and malate oxidation were differentially affected in mitochondria from both susceptible and resistant corn by a purified and chemically characterized preparation of host-specific toxin from Bipolaris (Helminthosporium) maydis, race T. NADH and succinate oxidation by susceptible T corn mitochondria were stimulated 50 to 200% with apparent uncoupling from the cytochrome chain at approximately 10(-9)m toxin (5 to 20 ng/ml). Significant inhibition of malate oxidation was observed at slightly higher toxin concentrations, but oxidation was still coupled to ADP utilization. Inhibition of malate oxidation also was observed in N corn (resistant) and soybean mitochondria at approximately 1,000-fold greater concentrations, but stimulation of NADH and succinate oxidation was not found at any toxin concentration tested.A fully acetylated toxin derivative at approximately 1 microgram per milliliter also caused stimulation of NADH or succinate oxidation in T corn mitochondria, but not those of N corn or soybean mitochondria at 100 micrograms per milliliter. Malate oxidation was inhibited to the same extent by toxin acetate with mitochondria from T corn, N corn, and soybean. The blocking of hydroxyl groups in race T toxin by acetyl functions eliminated selectivity toward malate oxidation only. The data suggest that inhibition of malate oxidation is either a separate or secondary effect of selective action of toxin on T corn mitochondria, perhaps by interference with transport in or out of the matrix. Sensitivity of T, but not N, corn mitochondria to purified toxin decays within minutes after pellets are suspended in aqueous osmotica, with no obvious change in mitochondrial integrity. The action of race T toxin seems to involve a labile process, such as ion gradient(s), or an unstable structural conformation of T corn mitochondria.  相似文献   

14.
Diano M 《Plant physiology》1982,69(5):1217-1221
The mitochondrial polypeptides from maize lines susceptible and resistant to Helminthosporium maydis were studied by single- and two-dimensional gel electrophoresis. Approximately 120 polypeptides were detected by two-dimensional gel electrophoresis. However, it was not possible to detect qualitative differences between the mitochondrial polypeptides of the two inbreds. These observations are discussed with reference to the putative mechanism of action of the pathotoxin.  相似文献   

15.
Mitochondria isolated from Texas cytoplasmically male sterile (Tms) and normal (N) versions of corn (Zea mays L.) exhibit differential sensitivity to toxin(s) produced by Helminthosporium maydis race T, the causal organism of southern corn leaf blight. Malate dehydrogenase was inhibited by toxin(s) in intact Tms mitochondria but was unaffected in N mitochondria. Removal or rupture of the outer mitochondrial membrane resulted in retention of sensitivity of malate dehy-drogenase in Tms mitochondria to toxin(s), and induction of a sensitive response in normally toxin-insensitive N mitochondria. This suggests that a permeability difference in the respective outer membranes of N and Tms mitochondria may affect the passage of toxin(s) to a mitochondrial site of action. Mitochondrial bioassays indicate that more toxin was bound by Tms mitochondria than by N mitochondria; the greatest toxin binding was associated with the inner membrane of Tms mitochondria.  相似文献   

16.
17.
Methomyl and Helminthosporium maydis race T toxin block oxidative phosphorylation in mitochondria isolated from maize plants with Texas male sterile cytoplasm (T) but not in mitochondria isolated from those with Normal cytoplasm (N) (Bednarski, Izawa, Scheffer 1977 Plant Physiol 59: 540-545). Moreover, they have been reported to cause specific swelling in T mitochondria (Miller, Koeppe 1971 Science 173: 67-69; Koeppe, Cox, Malone 1978 Science 201: 1227-1229). We could not detect, by direct volume measurements, any change induced by these compounds in the mitochondrial matrix space. We show here that the proton motive force, which in maize mitochondria is composed of a large transmembrane potential and of a low transmembrane pH difference, is absent in T mitochondria incubated in the presence of methomyl or of Helminthosporium maydis race T toxin, while it is unchanged in N mitochondria. Methomyl and Helminthosporium maydis race T toxin induce, independently of the collapse of the proton motive force, a release of the cofactors NAD and coenzyme A from the mitochondrial matrix space. In particular, we show that NAD is transported in maize mitochondria, and that this transport, which is not dependent on the proton motive force, is inhibited by methomyl or Helminthosporium maydis race T toxin.  相似文献   

18.
Basal K+ uptake in the root midzone region (cm 2 + 3 + 4) of N and T cytoplasmic versions of each of four maize inbreds was equally sensitive to the toxin(s) of Helminthosporium maydis, race T. Basal K+ uptake in the root apex (0-1 cm) and augmented K+ uptake in the root midzone were more toxin-sensitive in inbreds W64A(T) and Mo17(T) than in inbreds W64A(N) and Mo17(N). This differential response of N and T cytoplasms to toxins was not found for corresponding cytoplasms of inbreds WF9 and B37.  相似文献   

19.
It previously had been proposed that the host-selective toxin of Helminthosporium maydis race T consists of a series of unusual linear (C35 to C45)polyketols, of equal toxicity on a weight or molar (10−8−10−9) basis. Previous laboratory synthesis of T-toxin analogs was limited to shorter (C15 to C26) versions which possessed the requisite specificity for susceptible corn (Zea mays) but were less toxic on a weight or molar (10−6−10−7) basis. In the present study, a C41 analog with four β-ketol units spaced by CH2 bridges as in native toxin has been synthesized. On a weight or molar basis, it is as effective as native toxin or its purified components in stimulating NADH oxidation of mitochondria from susceptible corn, thus providing firm evidence for the correctness of the proposed structures of T-toxin. Additional support derives from the observation that C24 and C26 analogs with -(CH2)4- and -(CH2)6- bridges between ketol groups are not as effective in stimulating NADH oxidation as are C23 and C25 analogs with the -(CH2)3- and -(CH2)5- bridges of native T-toxin.

It was calculated that a single molecule of the C41 analog is at least 300 times more effective in stimulating mitochondrial oxidation than a molecule of the C23 or C25 analogs. This emphasizes the importance of chain length for toxicity, perhaps through perturbation of membrane functions of mitochondria and/or chloroplasts.

  相似文献   

20.
Helminthosporium maydis, race T, produces four host-specific toxins in culture. These have been designated toxins I, II, III, and IV. A method for isolation and purification of the four toxins is presented, and the criteria of purity of preparations of toxins I, II, and III are given. Toxins I and II are chemically similar and yield the same molecular ion when subjected to mass spectrometry, while toxin III appears to be a glycoside of a compound related to toxins I and II. Toxins I, II, and III can be biologically derived from 14C-mevalonic acid or 14C-acetate, permitting preparation of 14C-labeled toxins. Some chemical, spectral, and chromatographic properties of toxins I, II, and III are presented, and these data are discussed relative to the possible structure of the three compounds. In addition, four host-specific toxins have been isolated from corn infected with H. maydis (race T). These toxins are recovered in the same fractions as toxins I, II, III, and IV using the isolation procedure described here. Three of the toxins isolated from infected corn cannot be distinguished from toxins I, II, and III on the basis of infrared spectra or chromatographic mobility.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号