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Regulation of α-galactosidase activity and the hydrolysis of galactomannan in the endosperm of the fenugreek (Trigonella foenum-graecum L.) seed (1985)

Spyropoulos, C. G. ; Reid, J. S. G.

Springer

Planta 166 (1985), S. 271-275

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ISSN: 1432-2048

Keywords: Endosperm ; Galactomannan ; α-Galactosidase ; Germination (seed) ; Seed germination ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract When endosperms were isolated from fenugreek seeds 5 h after sowing and incubated in a small volume of water, the development of α-galactosidase activity and the breakdown of the galactomannan storage polysaccharide were both inhibited relative to control endosperms incubated in larger volumes. The inhibition could be relieved by pre-washing the endosperms, and reimposed by the wash-liquors. If the endosperms were isolated 24 h after sowing, no inhibition was observed. Removal of the embryonic axis from germinating fenugreek seeds and from germinated seedlings also inhibited the development of α-galactosidase activity and galactomannan breakdown in the endosperms; the inhibition was more pronounced the earlier the axis was removed. Axis excision 5 h after sowing caused a delay in the onset of galactomannan breakdown and of the appearance of α-galactosidase activity in the endosperms. It also led to a decrease in the rates of galactomannan breakdown and α-galactosidase production. Axis excision 24 h after sowing caused only a slowing of the rates of galactomannan breakdown and α-galactosidase increase. The inhibition caused by axis removal at 5 h could be relieved partially by gibberellin (10-4 M), benzyladenine (10-5 M), mixtures of these and by the herbicide SAN 9789 [4-chloro-5-(methylamine)-2-(α,α,α-trifluoro-m-tolyl)-3-(2H)-pyridazinone]. These substances had no effect on the inhibition caused by axis-removal at 24 h. Excision of the cotyledons at 5 h-leaving the separated axis and the endosperm-also caused inhibition of galactomannan breakdown and α-galactosidase development. The results are consistent with the presence in the fenugreek seed endosperm of diffusible inhibitors of galactomannan mobilisation which are removed or inactivated during normal germination and early seedling development. They are also consistent with a role for the seedling axis in the control of galactomannan breakdown in the endosperm. Initially the axis appears to have a regulatory function (via gibberellins and/or cytokinins?) in determining the onset of α-galactosidase production in the endosperm. Thereafter its continued presence is necessary to ensure maximal rates of α-galactosidase production and galactomannan hydrolysis. The role of the axis may be initially to counteract the endogenous inhibitors in the endosperm and then to act as a sink for the galactomannan breakdown products released in the endosperm and taken up by the cotyledons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00397359

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Water stress and galactomannan breakdown in germinated fenugreek seeds. Stress affects the production and the activities in vivo of galactomannan-hydrolysing enzymes (1988)

Spyropoulos, Caroline G. ; Reid, J. S. Grant

Springer

Planta 174 (1988), S. 473-478

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ISSN: 1432-2048

Keywords: Endosperm (galactomannan breakdown) ; Galactomannan breakdown ; Seed (water stress) ; Trigonella ; Water stress (seed)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Imposition of water stress on germinated fenugreek (Trigonella foenum-graecum L.) seeds and isolated fenugreek endosperms after the beginning of galactomannan mobilisation caused a reduction in the rate of breakdown of the polysaccharide relative to unstressed controls. The activities, measured in vitro, of the three hydrolytic enzymes involved in the breakdown process (α-d-galactosidase, EC 3.2.1.22;endo-β-d-mannanase, EC 3.2.1.78;exo-β-d-mannanase, EC 3.2.1.25) were not decreased. Although there was some accumulation of galactomannan-hydrolysis products in endosperms under stress, there was no clear correlation between sugar levels and the inhibition of galactomannan breakdown. When water stress was applied to fenugreek seeds after germination but before the beginning of galactomannan hydrolysis, both galactomannan breakdown and the development of the hydrolytic enzyme activities were inhibited. Washing of newly germinated seeds for 2 h in water prior to the imposition of stress gave partial relief of the inhibition of galactomannan mobilisation, partial recovery ofendo-β-d-mannanase levels, and full recovery of α-d-galactosidase levels. It is argued: 1) that water stress after germination but before the beginning of galactomannan hydrolysis inhibits the production of hydrolytic enzymes in the endosperm, probably via decreased removal at lowered water content of diffusible inhibitory substances; and 2) that water stress after the beginning of galactomannan hydrolysis decreases the rate of galactomannan breakdown in vivo principally via decreased diffusion at lowered water content of enzymes from the aleurone layer through the storage tissue of the endosperm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00634475

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Biosynthesis of legume-seed galactomannans in vitro (1989)

Edwards, Mary ; Bulpin, Paul V. ; Dea, Iain C. M. ; [et al.]

Springer

Planta 178 (1989), S. 41-51

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ISSN: 1432-2048

Keywords: Cyamopsis ; Endosperm ; Galacto-mannan biosynthesis ; Galactosyltransferase ; Mannosyltransferase ; Polysaccharide biosynthesis ; Seed development ; Trigonella

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Particulate enzyme preparations were isolated from developing fenugreek (Trigonella foenum-graecum L.) and guar (Cyamopsis tetragonoloba [L.] Taub.) seed endosperms during the period of galactomannan deposition in vivo. These preparations catalysed the formation of polysacharide products from guanosine 5′-diphosphate (GDP)-mannose, from uridine 5′-diphosphate (UDP)-galactose and from mixtures of the two nucleotides. The products were analysed by solubility, by complete acid hydrolysis, and by selective enzymatic cleavage using pure enzymes of known specificity. With GDP-[U-14C]-d-mannose as substrate and a divalent metal cation (Mg+2, Mn+2, or Ca+2) a highly efficient transfer of labelled d-mannosyl residues was obtained to give a product identified as linear (1→4)-β-linked d-mannan. No transfer of galactosyl residues was obtained when GDP-[U-14C]-d-galactose was the only substrate, although very low and variable amounts of an unidentified product which released labelled glucose on acid hydrolysis were formed. In the presence of UDP-galactose, GDP-mannose and Mn+2 ions, products were formed which have been characterised as galactomanans — a linear (1→4)-β-d-mannan backbone carrying d-galactopyranosyl substituents linked (1→6)-α to mannose. The degree of galactose substitution of the d-mannan backbone was manipulated in vitro by varying GDP-mannose concentrations at constant (saturating) UDP-galactose levels. The transfer of d-galactosyl residues from UDP-galactose to galactomannan was absolutely dependent upon the simultaneous transfer of D-mannosyl residues from GDP-mannose. d-Mannan sequences pre-formed in situ using the mannosyltransferase in the absence of UDP-galactose could not become galactose-substituted in a subsequent incubation either with UDP-galactose alone or with UDP-galactose plus GDP-mannose A model for the interaction of GDP-mannose mannosyltransferase and UDP-galactose galactosyltransferase in galactomannan biosynthesis is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392525

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