Changes in Alfalfa Stem Conductance Induced by <i>Corynebacterium insidiosum</i> Toxin

Alfen, Neal K. Van; Turner, Neil C.

doi:10.1104/pp.55.3.559

Cited by 32 publications

(8 citation statements)

References 10 publications

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“…Other workers have not detected any physiological (175) or ultrastructural (184) evidence of membrane damage in either alfalfa cuttings treated with low concentrations of C. m. ssp. insidiosum "toxin" (175) or in infected alfalfa plants (37) or infected tomato plants (184). In the Van Alfen & Turner (175) study, as little as 2 p.g of toxin forced into the stem resulted in a marked (19%) decrease in water conductance, and 200 p.g/ml was effective in visible wilting.…”

Section: Pathogenicity Factorsmentioning

confidence: 95%

“…sepedonicum "toxin" per ml for 2 hr and for potato stems sampled 4 to 5 weeks after inoculation with the same organism (71). Other workers have not detected any physiological (175) or ultrastructural (184) evidence of membrane damage in either alfalfa cuttings treated with low concentrations of C. m. ssp. insidiosum "toxin" (175) or in infected alfalfa plants (37) or infected tomato plants (184).…”

Section: Pathogenicity Factorsmentioning

confidence: 95%

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The Plant Pathogenic Corynebacteria

Vidaver¹

1982

Annu. Rev. Microbiol.

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Section: Pathogenicity Factorsmentioning

confidence: 95%

Section: Pathogenicity Factorsmentioning

confidence: 95%

The Plant Pathogenic Corynebacteria

Vidaver¹

1982

Annu. Rev. Microbiol.

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“…Van Alfen and Turner showed that two of these large phytotoxins, produced respectively by Corynebacterium insidiosum (8) and Ceratocystis ulmi (9), act by interfering with water conduction in the plant's vascular system and not by any direct toxicity to plant cells. The decrease in vascular conductance through stems of the wilted cuttings caused by these macromolecules was not large.…”

mentioning

confidence: 99%

Susceptibility of Plants to Vascular Disruption by Macromolecules

Alfen

Allard-Turner²

1979

Plant Physiol.

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The xylem of alfalfa (Medicago sativa L.) was found to be susceptible to vascular obstruction by picomole quantities of dextrans. Not all parts of the xylem were equally susceptible to this plugging. The quantity ofdextran of 2 x 10' molecular weight required to stop vascular flow was 8 picomoles in petiole junctions and OA picomole in leaflet veins. Vascular Macromolecules in a plant's xylem are known to induce wilting (5). If large amounts of a big molecule enter the xylem, plugging will occur. Plant pathologists, however, have identified many macromolecules that induce wilt in plant cuttings within 2 h at concentrations as low as 50 ug/ml (6). It has been assumed that molecules in such low concentrations could not be merely plugging the vascular system and, as a result, they were classed as phytotoxins.Van Alfen and Turner showed that two of these large phytotoxins, produced respectively by Corynebacterium insidiosum (8) and Ceratocystis ulmi (9), act by interfering with water conduction in the plant's vascular system and not by any direct toxicity to plant cells. The decrease in vascular conductance through stems of the wilted cuttings caused by these macromolecules was not large.The flow of liquid through stems was reduced to about 20%o of its normal value (9). Such a reduction in liquid flow conductance is not sufficient to cause wilt (2). There was no question that the macromolecules had a significant effect on vascular conductance and it was assumed that their greatest effect on conductance was in locations other than in the stems.The work reported in this paper was initiated to determine if different components of a plant's vascular system differ in susceptibility to plugging by small amounts of macromolecules. MATERIALS AND METHODSNine-month-old DuPuits variety of alfalfa (Medicago sativa L.) grown in the greenhouse from seed was used in these studies.Vascular conductance of stems and petioles as well as the petiole junction was determined using previously described methods (9). To determine conductance of the vascular system to dextran solutions, the conductance of water through the system was first determined. This was followed by the dextran solution. As a 'Supported in part by National Science Foundation Grant PCM 77-08388.2 Joumal paper 2306, Utah Agricultural Experiment Station.control, the conductance of water followed by water rather than a dextran solution was determined. All dextran conductance data could then be expressed as a percentage of the conductance of water through the same section of the vascular system. The solutions used in these studies were prepared by dissolving dextrans obtained from Pharmacia Fine Chemicals in distilled H20. The water had previously been filtered through a 0.45-,um diameter filter (Millipore Corp.) and then degassed. The dextrans were normally used at a concentration of 800 ,ug/ml.Conductance of water through alfalfa leaflets could not be determined using a volumetric method so a gravimetric method was employed. Cuts were made about one-fourth of th...

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“…In most of the work reported by other authors, purified bacterial polysaccharides (see Corey & Starr 1957) or artificially synthesized polymers were applied to elucidate the mechanisms of phytopathogenicity. The effects of polysaccharides on ornamental cut flowers, however, have rarely been studied (Hodgson et al 1949;Van Alfen & Turner 1975;Van Alfen & Allard-Turner 1979;Van Alfen et al 1983;de Stigter & Broekhuysen 1986;Neumann 1987). In the present work, molecular filtrates and retentates of supernatant fluids of pure cultures of several micro-organisms grown in an agitated sucrose-containing medium were used as a vase medium for cut roses cv.…”

mentioning

confidence: 87%

“…Thus, in addition to diverting xylem flow, xylem-borne polymers might directly induce senescence of leaf cells (Neumann 1987). The apparent absence of visible xylem blockage by plant polysaccharides reported by Van Alphen &Turner (1975) andNeumann (1987) suggests that complex hormonal regulation may affect polysaccharide concentrations in specific sections of the xylem system. To reveal the occurrence of this phenomenon, further research is needed (Halverson & Stacey 1986).…”

Section: Effects Of T H E I N F I L T R a T I O N Of M I C R O B I A mentioning

confidence: 98%

The effects of microbial exopolysaccharides (EPS) in vase water on the water relations and the vase life of Rosa cv. Sonia

Put

Klop

1990

Journal of Applied Bacteriology

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Pure cultures of five microbial species were used to test the formation of exopolysaccharides (EPS) when grown in agitated sucrose (5% w/v) containing liquid cultures. These test species were isolated from stems of freshly harvested cut flowers (Chrysanthemum, Gerbera and Rosa) or from the vase water of these flower cultivars. The partial conversion of sucrose into other saccharides was demonstrated by HPLC and colorimetric analysis. The final polymeric character of the newly formed saccharides was investigated. SEM preparations of xylem vessels of Rosa maintained in EPS‐containing vase water showed blockage, disorganization and injury of the vessel structure. EPS were shown not to pass the xylem pit membranes. Recovery from the first symptoms of disturbed water flow (wilting) due to EPS was possible in young flowers by cutting off the blocked part of the stem (15–20 cm. The higher the microbial conversion rate of sucrose into polysaccharides, the more disturbed were the water relations of the roses placed in the EPS‐containing fluid, as was demonstrated by the decrease of: (1) water conductivity of Rosa stem segments (ml/30 min); (2) water uptake (ml/d); (3) Rosa vase life (d); and (4) flower bud development. Bacterial EPS (presumably levans and dextrans) could be concentrated in the retentate by molecular filtration with a cut‐off level of 10000 Da. Filtrates did not cause Rosa xylem blockage and ‘bent‐neck’of the flower stems, but still may be toxic to roses. Two simple methods were also used for diagnostic investigations: (1) the beetroot tissue cube test to detect microbial products causing injury of the plant cell membranes, (2) the acid fuchsin test, to show the extent and location of Rosa xylem vessel occlusion.

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Changes in Alfalfa Stem Conductance Induced by Corynebacterium insidiosum Toxin

Cited by 32 publications

References 10 publications

The Plant Pathogenic Corynebacteria

The Plant Pathogenic Corynebacteria

Susceptibility of Plants to Vascular Disruption by Macromolecules

The effects of microbial exopolysaccharides (EPS) in vase water on the water relations and the vase life of Rosa cv. Sonia

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