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The influence of fermentation conditions on the exopolysaccharides and βglucan content of barley sourdough (CROSBI ID 676558)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Vrana Špoljarić, Ivna ; Voučko, Bojana ; Čukelj, Nikolina ; Drakula, Saša ; Novotni, Dubravka ; Ćurić, Duška The influence of fermentation conditions on the exopolysaccharides and βglucan content of barley sourdough. 2017

Podaci o odgovornosti

Vrana Špoljarić, Ivna ; Voučko, Bojana ; Čukelj, Nikolina ; Drakula, Saša ; Novotni, Dubravka ; Ćurić, Duška

engleski

The influence of fermentation conditions on the exopolysaccharides and βglucan content of barley sourdough

Barley is cereal rich in nonstarch polysaccharides, particularly βglucan (BG), however rarely used in bakery due to poorer technological and sensory properties of final products. Those properties can be improved by application of sourdough. Sixteen different barely sourdoughs were prepared with lactic acid bacteria (LAB) L.reuteri and W.cibaria with/without the addition of L.plantarum, xylanase and sucrose with the purpose of producing sourdough with higher concentration of exopolysaccharides (EPS) and βglucan (BG), which could improve the bread properties. Sucrose and L.plantarum positively affected the kinetics of acidification during sourdough fermentation and total acidity of sourdoughs, while LAB and sucrose interaction had positive effect on the maximum acidification rate. Sourdoughs fermented with L.reuteri showed higher acidity (14.3116.63 mL NaOH) than those fermented with W.cibaria (12.1615.85 mL NaOH). Fermentable coefficient (FQ) was significantly influenced by sucrose addition while six sourdoughs had an optimal FQ. Fermentation negatively affected total BG (79.7293.65% in regard to unfermented sourdough), but positively affected soluble BG (40.7275.88%) if compared to unfermented sourdough (19.28%). Xylanase (p꞊0, 039) and sucrose (p꞊0, 007) positively affected soluble BG while fermentation process increased the relative molecular weight (Mw) of soluble BG (111378 kDa; unfermented sourdough Mw=87 kDa). In all sourdough EPS was produced (1.4852.530 mg/g), but addition of sucrose (p˂0, 001) and L.plantarum (p˂0, 001) showed the most positive impact on the EPS synthesis. Mw of EPS in sourdoughs fermented with L.reuteri and W.cibaria was 254492 and 170280 kDa, respectively. Fermentation optimisation resulted in five sourdoughs with the most desirable characteristics: (1) L.reuteri, (2) L.reuteri + sucrose, (3) L.reuteri + sucrose + xylanase, (4) W.cibaria + sucrose, and (5) W.cibaria + sucrose + xylanase. Barely flour showed to be suitable for production of sourdough with higher concentration of EPS using selected LAB, and can be used for the production of dietary fibre enriched wheat bread with prolonged shelflife.

β-glucan, exopolysaccharides, barley sourdough

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Podaci o prilogu

0109

2017.

objavljeno

Podaci o matičnoj publikaciji

Podaci o skupu

31st EFFoST International Conference

poster

13.12.2017-16.12.2017

Sitges, Španjolska

Povezanost rada

Prehrambena tehnologija