EurekaMag.com logo
+ Site Statistics
References:
52,725,316
Abstracts:
28,411,598
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on Google+Follow on Google+
Follow on LinkedInFollow on LinkedIn

+ Translate

Ferulic acid esterase production by Streptomyces sp






Bioresource Technology 98(1): 211-213

Ferulic acid esterase production by Streptomyces sp

Studies were carried out on ferulic acid esterase production using a culture of Streptomyces S10. In optimized condition, enzyme yield was 2.0 mU/ml in MBS medium, containing 1.5% de-starched wheat bran at 30 degrees C and initial pH 6.5 under agitated submerged culture.


Accession: 013039220

PMID: 16427274

DOI: 10.1016/j.biortech.2005.12.001



Related references

Ferreira, P.D.ez, N.G.tierrez, C.S.liveri, J.C.pa-Patino, J., 1999: Streptomyces avermitilis CECT 3339 produces a ferulic acid esterase able to release ferulic acid from sugar beet pulp soluble feruloylated oligosaccharides. Sugar beet pulp (SBP) is a waste product of the sugar industry which is rich in ferulic acid. Few ferulic acid esterases (FAEs) that are capable of releasing ferulic acid from SBP or from SBP soluble feruloylated oligosaccharides (SFO-SBP) have be...

Faulds, C.B.; Williamson, G., 1993: Release of ferulic acid from plant polysaccharides by ferulic acid esterase from Streptomyces olivochromogenes. Streptomyces olivochromogenes ferulic acid esterase released free ferulic acid from 0-[5-0-(trans-feruloyl)--l-arabinofuranosyl]-(1→3)-0--xylopyranosyl-(1→4)-d-xylopyranose (FAXX) prepared from wheat bran. The Km and Vmax of the reaction...

Kheder, F.; Delaunay, Séphane.; Abo-Chameh, G.; Paris, Cédric.; Muniglia, L.; Girardin, M., 2009: Production and biochemical characterization of a type B ferulic acid esterase from Streptomyces ambofaciens. For the first time, the presence of a ferulic acid esterase (FAE) was demonstrated in Streptomyces ambofaciens. This extracellular enzyme was produced on a range of lignocellulosic substrates. The maximal level of activity was detected in the pres...

Garcia, B.; Ball, A.; Rodriguez, J.P.rez-Leblic, M.; Arias, M.; Copa-Patino, J., 1998: Production and characterization of ferulic acid esterase activity in crude extracts by Streptomyces avermitilis CECT 3339. Streptomyces avermitilis CECT 3339 produces extracellular ferulic acid esterase (FAE) activity during growth on a range of lignocellulose substrates. Maximal levels of FAE activity were detected in culture filtrates from S. avermitilis CECT 3339 g...

Garcia, B.L.; Ball, A.S.; Rodriguez, J.; Perez Leblic, M.I.; Arias, M.E.; Copa Patino, J.L., 1998: Production and characterization of ferulic acid esterase activity in crude extracts by Streptomyces avermiltis CECT 3339. Streptomyces avermitilis CECT 3339 produces extracellular ferulic acid esterase (FAE) activity during growth on a range of lignocellulose substrates. Maximal levels of FAE activity were detected in culture filtrates from S. avermitilis CECT 3339 g...

Bartolome, B.; Faulds, C.B.; Kroon, P.A.; Waldron, K.; Gilbert, H.J.; Hazlewood, G.; Williamson, G., 1997: An Aspergillus niger esterase (ferulic acid esterase III) and a recombinant Pseudomonas fluorescens subsp. cellulosa esterase (XylD) release a 5-5' ferulic dehydrodimer (diferulic acid) from barley and wheat cell walls. Diferulate esters strengthen and cross-link primary plant cell walls and help to defend the plant from invading microbes. Phenolics also limit the degradation of plant cell walls by saprophytic microbes and by anaerobic microorganisms in the rumen...

Bartolomé, B.; Faulds, C.B.; Kroon, P.A.; Waldron, K.; Gilbert, H.J.; Hazlewood, G.; Williamson, G., 1997: An Aspergillus niger esterase (ferulic acid esterase III) and a recombinant Pseudomonas fluorescens subsp. cellulosa esterase (Xy1D) release a 5-5' ferulic dehydrodimer (diferulic acid) from barley and wheat cell walls. Diferulate esters strengthen and cross-link primary plant cell walls and help to defend the plant from invading microbes. Phenolics also limit the degradation of plant cell walls by saprophytic microbes and by anaerobic microorganisms in the rumen...

Garcia, B.L.; Ball, A.S.; Rodriguez, J.; Perez Leblic, M.I.; Arias, M.E.; Copa Patino, J.L., 1998: Induction of ferulic acid esterase and xylanase activities in Streptomyces avermitilis UAH30. Ferulic acid esterase activity (FAE) was detected, along with xylanase activity, in culture supernatants from Streptomyces avermitilis UAH30 grown in the presence of the lignocellulosic substrates, oat spelt xylan, wheat bran without starch and su...

Faulds, C.B.; Williamson, G., 1991: The purification and characterization of 4-hydroxy-3-methoxycinnamic (ferulic) acid esterase from Streptomyces olivochromogenes. A 4-hydroxy-3-methoxycinnamic acid (ferulic acid) esterase has been purified from the extracellular broth of cultures of Streptomyces olivochromogenes after growth on oat splet xylan. The purification procedure utilizes ion exchange on DEAE-BioGel...

McClendon, S.D.; Shin, H-Dong.; Chen, R.R., 2011: Novel bacterial ferulic acid esterase from Cellvibrio japonicus and its application in ferulic acid release and xylan hydrolysis. Recent genome sequencing of Cellvibrio japonicas revealed the presence of two highly homologous ferulic acid esterases (FAEs), encoded by fee1A and fee1B. In this work, the putative FAE, Fee1B, was successfully cloned and expressed in an E. coli s...