The mechanisms by which tumbling and abrasion alter enzyme formation in malting grain
M. T. Smith,Dennis E. Briggs +1 more
TLDR
After applications of gibberellic acid tumbled, impacted and abraded grains formed α-amylase faster than untreated controls as discussed by the authors, and apical abrasion was not essential to achieve this enhanced response.Abstract:
After applications of gibberellic acid tumbled, impacted and abraded grains formed α-amylase faster than untreated controls. Apparently apical abrasion was not essential to achieve this enhanced response. The testae of treated grains appeared to be intact, and excluded externally applied gibberellic acid except at the base of the grains, where it normally gains entry. Essentially normal patterns of modification were observed in all grain samples, however treated. Tumbling and abrasion sometimes stimulate enzyme production in the absence of externally supplied gibberellic acid. It is deduced that these treatments do not alter the pattern of gibberellin penetration into grain.
Physical treatments cause limited embryo-damage and create fissures in and between the grain's surface layers. The treatments appear to exert their beneficial effects on enzyme production by allowing better access of oxygen in the air to the living grain tissues. Normally the oxygen supply limits enzyme formation. Surface populations of microbes sometimes limit oxygen levels in grain and repress enzyme formation.read more
Citations
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On the relative role of the scutellum and aleurone in the production of hydrolases during germination of barley
TL;DR: It is concluded that the scutellum alone is capable of producing and mediating up to 50% of germination specific hydrolases in a commercial European malts barley, germinating at the conventional European malting temperature of 15°C.
Journal ArticleDOI
Microbes and grain germination
Peter J. Doran,Dennis E. Briggs +1 more
TL;DR: It was shown that sprays of dilute sulphuric acid favoured grain germination by acting on the outer layers of the grain, and gibberellic acid was shown to exert its germination-stimulating effects and sodium hydroxide its inhibitory effects on the internal tissues.
Journal ArticleDOI
Patterns of modification in malting barley
Dennis E. Briggs,J. Macdonald +1 more
TL;DR: The modified regions of the starch endosperms of malted grains were fragile and, in thin sections, the cell walls in these regions did not stain readily with Congo Red or Trypan Blue, although scanning electron microscopy demonstrated some cell-wall material remained.
Journal ArticleDOI
Malt Modification — A Century Of Evolving Views
TL;DR: The ideas that Brown and his collaborators developed in the 1890s regarding the origins of the enzymes which catalyse the modification of the endosperm of germinating barley and how modification progresses through the grain are summarized, then the stages by which understanding has been enhanced are noted.
Journal ArticleDOI
Influence of Enzyme Distribution on Endosperm Breakdown (Modification) during Malting1
TL;DR: In this article, the development of endosperm-degrading enzymes and their patterns of release from aleurone to the starchy endo-sperm were studied in mainly Klages barley.
References
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Journal ArticleDOI
Specific photometric determination of ethyl alcohol based on an enzymatic reaction
Theodor Bücher,Helmut Redetzki +1 more
Journal ArticleDOI
MODIFIED ASSAY FOR α-AMYLASE IN GERMINATING BARLEY
TL;DR: In this paper, the activity of α-amylase is defined as the reciprocal of the time taken by a heat-treated malt extract to reduce the iodine-colouring capacity of a solution of soluble starch to half its initial value, under standardized conditions.
Journal ArticleDOI
ORIGIN AND DISTRIBUTION OF α‐AMYLASE IN MALT
TL;DR: Various metabolic poisons and amino acid analogues decreased the levels of α-amylase found while depressing the amount of radio-activity incorporated from labelled amino acids, suggesting that de novo protein synthesis is involved in the production ofα-Amylase by the embryo as in the earlier findings with aleurone layer.
Journal ArticleDOI
Enzyme formation, cellular breakdown and the distribution of gibberellins in the endosperm of barley.
TL;DR: The results indicate that gibberellins are released generally from the scutellum and induce hydrolytic enzymes equally on the dorsal and ventral sides of the grain.