The bread-making functionalities of two Aspergillus niger endoxylanases are strongly dictated by their inhibitor sensitivities

A recent approach based on affinity chromatography with immobilised endoxylanase inhibitors was used to isolate two endoxylanases (EC 3.2.1.8) with different bread-making functionalities from an Aspergillus niger fermentation broth. TAXI (Triticum aestivum endoxylanase inhibitor) affinity chromatography yielded a TAXI- and XIP (endoxylanase inhibiting protein)-sensitive family 11 endoxylanase (24 kDa, pI 3.5) XIP affinity chromatography subsequently yielded a family 10 endoxylanase (36 kDa), only inhibited by XIP. While the first enzyme improves bread volume, the latter enzyme has no effect on bread quality whatsoever. The bread-making positive endoxylanase rather selectively hydrolyses water-unextractable arabinoxylan in an in vitro screening method, still performs/is active during bread-making and produces soluble arabinoxylan of high (> 11.2 x 10(4) Da) and low molecular mass (less than or equal to 11.2 x 10(4) Da). In contrast, the bread-making neutral endoxylanase in the in vitro assay displays a bias for water-extractable arabinoxylan and is immediately and almost completely inhibited during the early stages of bread-making. The results show that the functionalities of the purified A. niger endoxylanases in wheat bread-making are strongly dictated by their sensitivities towards wheat endoxylanase inhibitors. (C) 2004 Elsevier Inc. All rights reserved.status: publishe

Milling performance of north European hull-less barleys and characterization of resultant millstreams

Four hull-less barley samples were milled on a Buhler MLU 202 laboratory mill and individual and combined milling fractions were characterized. The best milling performance was obtained when the samples were conditioned to 14.3% moisture. Yields were 37-48% for straight-run flour, 47-56% for shorts, and 5-8% for bran. The beta-glucan contents of the straight-run white flours were 1.6-2.1%, of which approximate to49% was water-extractable. The arabinoxylan contents were 1.2-1.5%, of which approximate to17% was water-extractable. Shorts and bran fractions contained more beta-glucan (4.2-5.8% and 3.0-4.7%, respectively) and arabinoxylan (6.1-7.7% and 8.1-11.8%, respectively) than the white flours. For those fractions, beta-glucan extractability was high (58.5 and 52.3%, respectively), whereas arabinoxylan extractability was very low (approximate to6.5 and 2.0%, respectively). The straight-run white flours had low alpha-amylase, beta-glucanase, and endoxylanase activities. The highest alpha-amylase activity was found in the shorts fractions and the highest beta-glucanase and endoxylanase activities were generally found in the bran fractions. Endoxylanase inhibitor activities were low in the white flours and highest in the shorts fractions. High flavanoid, tocopherol, and tocotrienol contents were found in bran and shorts fractions