Abstract
The pit membrane (PM) is a primary cell wall barrier that separates adjacent xylem water conduits, limiting the spread of xylem-localized pathogens and air embolisms from one conduit to the next. This paper provides a characterization of the size of the pores in the PMs of grapevine (Vitis vinifera). The PM porosity (PMP) of stems infected with the bacterium Xylella fastidiosa was compared with the PMP of healthy stems. Stems were infused with pressurized water and flow rates were determined; gold particles of known size were introduced with the water to assist in determining the size of PM pores. The effect of introducing trans-1,2-diaminocyclohexane-N,N,N',N'-tetraacetic acid (CDTA), oligogalacturonides, and polygalacturonic acid into stems on water flux via the xylem was also measured. The possibility that cell wall-degrading enzymes could alter the pore sizes, thus facilitating the ability of X. fastidiosa to cross the PMs, was tested. Two cell wall-degrading enzymes likely to be produced by X. fastidiosa (polygalactuoronase and endo-1,4- beta -glucanase) were infused into stems, and particle passage tests were performed to check for changes in PMP. Scanning electron microscopy of control and enzyme-infused stem segments revealed that the combination of enzymes opened holes in PMs, probably explaining enzyme impacts on PMP and how a small X. fastidiosa population, introduced into grapevines by insect vectors, can multiply and spread throughout the vine and cause Pierce's disease.
Highlights
The pit membrane (PM) is a primary cell wall barrier that separates adjacent xylem water conduits, limiting the spread of xylem-localized pathogens and air embolisms from one conduit to the
X. fastidiosa is a rod-shaped bacterium with dimensions ranging from 250 to 500 3 1,000 to 4,000 nm (Mollenhauer and Hopkins, 1974), making them too large to pass freely through the majority of the PM pores that have been described in angiosperms
The recent detection of PG in the xylem sap of infected vines and less severe symptom development in transgenic grapevines expressing a pear (Pyrus communis) PG-inhibiting protein suggests that X. fastidiosa uses cell walldegrading enzymes to open up PM pores to facilitate vessel-to-vessel movement (Aguero et al, 2005)
Summary
The pit membrane (PM) is a primary cell wall barrier that separates adjacent xylem water conduits, limiting the spread of xylem-localized pathogens and air embolisms from one conduit to the next. The inconsistent changes in water flow rate observed in the stems upon the introduction of hydrolytic enzymes could be explained by the enzymatic release of polysaccharides or oligosaccharides from PMs, which may have two contrasting consequences for water movement within individual vessels.
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