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Fructan biosynthesis in Lolium perenne: appraisal of soluble and insoluble enzymatic pathways

Published online by Cambridge University Press:  01 January 1999

D. GUERRAND
Affiliation:
Laboratoire de Physiologie et Biochimie Végétales, UA INRA, IRBA, Université, 14032 Caen Cedex, France
J. C. AVICE
Affiliation:
Laboratoire de Physiologie et Biochimie Végétales, UA INRA, IRBA, Université, 14032 Caen Cedex, France
N. PAVIS
Affiliation:
Laboratoire de Physiologie et Biochimie Végétales, UA INRA, IRBA, Université, 14032 Caen Cedex, France
M. P. PRUD'HOMME
Affiliation:
Laboratoire de Physiologie et Biochimie Végétales, UA INRA, IRBA, Université, 14032 Caen Cedex, France
J. BOUCAUD
Affiliation:
Laboratoire de Physiologie et Biochimie Végétales, UA INRA, IRBA, Université, 14032 Caen Cedex, France
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Abstract

Previous work on Lolium perenne showed that sucrose[ratio ]sucrose fructosyltransferase (SST) activity did not increase concomitantly with fructan synthesis in regrowing leaves or in mature leaf blades of plants that have been subjected to carbohydrate-accumulating conditions. This was contrary to the pattern of SST activity in roots and stubble. To obtain further insight into the fructan synthesizing activities and to explain this discrepancy, total fructosyltransferase activity (FT) was assayed by increasing the sucrose and the soluble enzyme concentrations and was compared to sedimentable phlein sucrase activity (PS) throughout the regrowth period following defoliation in leaves, stubble and roots. Before analysis on 2-month-old plants, PS activity was characterized in dark-grown coleoptiles, using [U-14C]sucrose. PS activity had a pH optimum of 6.0 and produced 1-kestose in addition to high molecular weight fructans with a mean DP of 9. In 2-month-old plants, sedimentable PS and FT soluble reactions contained an initial sucrose concentration of 160 mM and 400 mM and proteins equivalent to 1.4 and 2.1 g f. wt of tissue, respectively. In stubble and roots, the FT preparation catalysed the synthesis of large fructans, and the overall pattern resembled the native fructans when separated by anion exchange HPLC. In regrowing leaves, the FT preparation produced low-DP fructans relatively more than in vivo but synthesized the high-DP fructan characteristic of the tissue. Moreover, FT activity did not remain at a low level like SST activity but increased from day 5 after defoliation when fructans began to accumulate. PS activity formed very few low- DP fructans and 1-kestose was the main product. Trisaccharides generated by PS activity represented 2–5% of the total trisaccharide synthesis. High-DP fructans were detectable only when the products of the reaction were concentrated 100 times. Results are discussed with respect to the relative contribution of FT and PS activities for the synthesis of 1-kestose and fructans in roots, stubble and leaves of Lolium perenne.

Type
Research Article
Copyright
Trustees of New Phytologist 1999

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