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Target Concepts:
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Query: EC:4.2.2.10 (
PNL
)
341
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new method for detecting enzymes produced by fungal spores during germination is described here. With this method, the production of enzymes such as protease, cellulase, or pectinase can be correlated with the extent of spore germination. Germination is studied in vitro on agar-based media containing protein, cellulose, or pectin. The spores are immobilized on a permeable membrane mounted on the substrate-containing medium. At various times after inoculation the membrane-bound spores are removed and the medium is stained. The extent of germination is assessed by microscopic examination of the spores and the presence of active hydrolytic enzymes is revealed by the staining. The staining methods are sensitive; detection limits are 1 X 10(-3) unit of cellulase; 2 X 10(-4) unit of protease; 3 X 10(-3) unit of
pectin lyase
; 3.5 units of polygalacturonase; 2 X 10(-3) unit of pectin methyl esterase. The method has been demonstrated by studying the production of enzymes by germinating conidia of Botrytis cinerea.
Cellulase
and protease were present before any spores germinated. Pectin lyase was first observed when at least 80% of the spores had germinated. Pectin methyl esterase and polygalacturonase were not produced by the spores.
...
PMID:Plate assay for determining the time of production of protease, cellulase, and pectinases by germinating fungal spores. 391 30
Germlings of Botrytis cinerea, an important fungal pathogen of plants, produce an extracellular matrix (ECM), or ensheathing film, that serves, in part, in their attachment (R. P. Doss, et al., Appl. Environ. Microbiol. 61:260-265, 1995). The composition of this film has been ascertained by using samples obtained by growing germlings on a glass surface, removing the fungal mycelium by vigorous washing, and collecting the tightly attached film by scraping the substratum with a razor blade. Slightly over half of the dry weight of the ECM was found to be carbohydrates (about 20%), proteins (about 28%), and lipids (about 6%). Hydrolysis of the carbohydrate portion of the ECM revealed that glucose was the most prominent monosaccharide present, comprising about 60% of the total monosaccharides. Also present were mannose (about 35%) and myo-inositol (about 5%). The proteinaceous fraction of the ECM was made up of a number of polypeptides separable by polyacrylamide gel electrophoresis. The lipid fraction of the ECM, analyzed by thin-layer chromatography, was made up of several simple lipid components, including free fatty acid, mono- and triacylglycerol, wax ester, fatty alcohol, and several unidentified components. No complex lipids were detected. Isolated ECM exhibited polygalacturonase and laccase activity and was able to catalyze the hydrolysis of p-nitrophenyl butyrate, a model substrate for assessing cutinase activity.
Cellulase
,
pectin lyase
, and pectin methyl esterase activities were noted with both heated and unheated ECM preparations. Proteinase activity was not detected.
...
PMID:Composition and enzymatic activity of the extracellular matrix secreted by germlings of botrytis cinerea. 992 60
Medicago sativa L. (alfalfa) root hairs respond to Nod factors [NodRm-IV(C16:2,S)] in a host-specific manner with depolarization and rapid ion fluxes. Protoplasts prepared from these cells using the cell wall-digesting enzymes
pectolyase
and cellulase do not, or to a rather small extent, respond to Nod factors. In an effort to understand this activity loss we analyzed the mode of action of both enzymes with respect to their effects on the root hairs as well as their interference with the Nod factor response. (i) In the presence of the enzymes, Nod factor at saturating concentrations neither depolarized the plasma membrane of root hairs nor caused ion fluxes. Even after removal of the enzymes, Nod factor responses were strongly refractory. (ii) After a lag-phase of 12-18 s,
pectolyase
depolarized the plasma membrane, alkalized the external space, acidified the cytosol and increased the cytosolic Ca(2+) activity. (iii)
Cellulase
, without a lag-phase, depolarized the plasma membrane, acidified the cytosol, but only marginally increased the cytosolic Ca(2+) activity. Unlike
pectolyase
, the cellulase response was only weakly refractory to a second addition. (iv) Neither enzyme increased the membrane conductance, but
pectolyase
inhibited the H(+)-pump. (v) Pectolyase shows all the signs of an elicitor, while cellulase yields a mixed response. (vi) Denatured enzymes yielded strong effects similar to those of untreated enzymes. We conclude that the effects shown do not originate from enzymatic activity, but from interactions of the proteins with cell wall or plasma membrane constituents. It is further concluded that these enzymes (
pectolyase
more so than cellulase) trigger defense-related signal pathways, which makes protoplasts prepared with such enzymes unsuitable for studies of symbiotic or defense-related signalling.
...
PMID:The mode of action of cell wall-degrading enzymes and their interference with Nod factor signalling in Medicago sativa root hairs. 1268 67
Cellulase
C(1), cellulase Cx, and xylanase were isolated and purified from a cellulase preparation of Trichoderma viride as enzymes effective in the isolation of protoplasts from oat leaves. Pectin lyase which is specific for methyl-galacturonide linkages was also found to be a useful enzyme for the isolation of protoplasts from the tissues. This suggested that pectic polysaccharides with a high degree of esterification may play an important role in cell walls of Gramineae. It was necessary to use the mixture of cellulase C(1), cellulase Cx, xylanase, and
pectin lyase
for the rapid isolation of protoplasts, while a small amount of protoplasts could be isolated from oat leaves by cellulase C(1) plus xylanase or cellulase C(1) plus
pectin lyase
. The mixture of four enzymes also was effective in the isolation of protoplasts from the leaves of wheat, barley, and corn.
...
PMID:Identification of enzymes that are effective for isolating protoplasts from grass leaves. 1666 59
