Abstract / Description of output
Crude extracts of cauliflower florets had high xyloglucan endotransglucosylase (XET) activity, but this was largely lost after partial purification and de-salting. Activity was restored (promoted up to 40-fold) by any of a wide variety of inorganic and organic salts. Optimum concentrations for Na+, K+ and NH4+ salts were typically similar to300 mM. The chlorides of Ca2+, Mg2+, Al3+ and La3+ were optimally active at lower concentrations (e.g. 0.1 mM LaCl3), but became inhibitory at higher concentrations (e.g. 5 mM LaCl3). Some anionic polysaccharides at 0.04-0.2% w/v (e.g. gum arabic, pectin and hypochlorite-oxidised xyloglucan) promoted the XET activity of de-salted enzyme, especially if a sub-optimal concentration of NaCl was also present; others (e.g. homogalacturonan, 4-O-methyl-glucuronoxylan and alginate) were inhibitory. Similar ionic effects were noted on the XET activity of the Arabidopsis protein XTH24 (heterologously expressed by insect cells); in this case carboxymethylcellulose was also stimulatory. To look for endogenous modulators of XET activity, we prepared a cold-water extract of cauliflower florets; after boiling and centrifugation, the supernatant [boiled cauliflower preparation (BCP)] promoted the XET activity of de-salted cauliflower enzyme and of XTH24. About half the activator present in BCP was an ethanol-precipitable, anionic polymer of apparent M-r <5,000. After acid hydrolysis the polymer yielded much arabinose and galactose, and small amounts of galacturonic and glucuronic acids amino acids were also present. The polymer may thus contain arabinogalactan-proteins. We suggest that acidic polymers and/or other apoplastic ions are naturally occurring regulators of XET action in vivo, and may thus control cell wall assembly, loosening, and growth.
Original language | English |
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Pages (from-to) | 722-732 |
Number of pages | 11 |
Journal | Planta |
Volume | 219 |
Issue number | 4 |
DOIs | |
Publication status | Published - Aug 2004 |