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Query: EC:3.2.1.26 (
invertase
)
4,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previously, Man8-14GlcNAc oligosaccharides were isolated from highly purified Saccharomyces cerevisiae
invertase
and shown by one-dimensional 1H NMR spectroscopy and alpha 1,2-linkage-specific mannosidase digestion to constitute a homologous series of nearly homogeneous compounds, which appeared to define the intermediates in oligosaccharide core synthesis in yeast (Trimble, R.B. and Atkinson, P.H. (1986) J. Biol. Chem., 261, 9815-9824). To evaluate whether
invertase
oligosaccharides reflected global core processing of yeast glycans, the soluble glycoprotein pool of disrupted log-phase cells was digested with endo-beta-N-acetyl-glucosaminidase H and Man8-13GlcNAc were isolated by Bio-Gel P-4 chromatography. Although analysis of each size class by one-dimensional 400 MHz and two-dimensional 500 MHz phase-sensitive COSY 1H NMR spectroscopy revealed considerable structural heterogeneity in all but Man8GlcNAc, the major positional isomer in Man9-13GlcNAc (approximately 50%) was identical to that previously elucidated on
invertase
. The heterogeneity resided in four families of oligosaccharides: (i) Glc3Man9GlcNAc----Man8 GlcNAc trimming intermediates; (ii) alpha-mannosidase degradation products of the principal isomers; (iii) mannan elongation intermediates; (iv) core structures with the alpha 1,2-linked mannose usually removed by the processing alpha-mannosidase. The potential for the vacuolar alpha-mannosidase (
AMS1
gene product) to generate heterogeneity in vitro was confirmed by isolating oligosaccharides from
AMS1
and ams1 yeast strains in the presence of a Man13GlcNAc[3H]-ol marker (where GlcNAc[3H]-ol is N-acetylglucosamin [1-3H]itol). Degradation of the Man13GlcNAc[3H]-ol to Man9-12GlcNAc[3H]-ol occurred in the former, but not in the latter. A role for the vacuolar alpha-mannosidase in generating at least some heterogeneity in vivo was inferred from the 1H NMR spectrum of the
AMS1
Man11GlcNAc pool, which showed more structural isomerism than seen in the spectrum of a comparable ams1 Man11GlcNAc preparation. Thus, the principal biosynthetic pathway of inner core mannan in Saccharomyces is defined by the Man8-13GlcNAc oligosaccharides found on external
invertase
, while structural heterogeneity in these size classes results from precursor processing in the endoplasmic reticulum, core extension in the Golgi and metabolic degradation in the vacuole.
...
PMID:Structural heterogeneity in the Man8-13GlcNAc oligosaccharides from log-phase Saccharomyces yeast: a one- and two-dimensional 1H NMR spectroscopic study. 155 Sep 91
Light is a critical determinant of plant shape by controlling branching patterns and bud burst in many species. To gain insight into how light induces bud burst, we investigated whether its inductive effect in rose was related to gibberellin (GA) biosynthesis. In axillary buds of beheaded plants subject to light, the expression of two GA biosynthesis genes (RoGA20ox and RoGA3ox) was promptly and strongly induced, while that of a GA-catabolism genes (RoGA2ox) was reduced. By contrast, lower expression levels of these two GA biosynthesis genes were found in darkness, and correlated with a total inhibition of bud burst. This effect was dependent on both light intensity and quality. In in vitro cultured buds, the inductive effect of light on the growth of preformed leaves and
SAM
organogenic activity was inhibited by ancymidol and paclobutrazol, two effectors of GA biosynthesis. This effect was concentration-dependent, and negated by GA(3). However, GA(3) alone could not rescue bud burst in the dark. GA biosynthesis was also required for the expression and activity of a vacuolar
invertase
, and therefore for light-induced sugar metabolism within buds. These findings are evidence that GA biosynthesis contributes to the light effect on bud burst and lay the foundations of a better understanding of its exact role in plant branching.
...
PMID:Photocontrol of bud burst involves gibberellin biosynthesis in Rosa sp. 2274 85
