TY - JOUR
T1 - Augmented production of poly-β-d-mannuronate and its acetylated forms by Pseudomonas
AU - Veeranagouda, Yaligara
AU - Basavaraja, Chitragara
AU - Bae, Hyun Sook
AU - Liu, Kwang Hyeon
AU - Lee, Kyoung
PY - 2011/1
Y1 - 2011/1
N2 - Poly-β-d-mannuronate (PM) and its derivatives have potential to be used in pharmaceutical applications. A spontaneous mutant (E1) of Pseudomonas alkylphenolia KL28 produced large amounts of a highly viscous polymer consisting of repetitive units of β-d-mannuronic acid with acetylation at the 2nd and/or 3rd carbon (AcPM). The alg gene cluster (18,275 bp with 12 ORFs) is essential for the production of AcPM and has been sequenced. Mutations in the E1 strain were found in both the mucA (resulting in a truncated protein) and the algG (non-synonymous amino acid substitution in the conserved epimerase domain of mannuronan C-5-epimerase) genes. Disruption of algI (acetylase) resulted in the production of a de-acetylated polymer, PM. The molecular weight (viscosity) and the AcPM production level were influenced by the addition of NaCl into the culture media. Under optimized flask culture conditions, 8-14 g/L of AcPM with different viscosities could be produced. In addition, some rheological properties of the high molecular weight AcPM produced by the E1 mutant were better suited for pharmaceutical use than commercial alginate. In conclusion, P. alkylphenolia E1 and its algI mutant may be suitable candidates for mass production of AcPM and PM, respectively.
AB - Poly-β-d-mannuronate (PM) and its derivatives have potential to be used in pharmaceutical applications. A spontaneous mutant (E1) of Pseudomonas alkylphenolia KL28 produced large amounts of a highly viscous polymer consisting of repetitive units of β-d-mannuronic acid with acetylation at the 2nd and/or 3rd carbon (AcPM). The alg gene cluster (18,275 bp with 12 ORFs) is essential for the production of AcPM and has been sequenced. Mutations in the E1 strain were found in both the mucA (resulting in a truncated protein) and the algG (non-synonymous amino acid substitution in the conserved epimerase domain of mannuronan C-5-epimerase) genes. Disruption of algI (acetylase) resulted in the production of a de-acetylated polymer, PM. The molecular weight (viscosity) and the AcPM production level were influenced by the addition of NaCl into the culture media. Under optimized flask culture conditions, 8-14 g/L of AcPM with different viscosities could be produced. In addition, some rheological properties of the high molecular weight AcPM produced by the E1 mutant were better suited for pharmaceutical use than commercial alginate. In conclusion, P. alkylphenolia E1 and its algI mutant may be suitable candidates for mass production of AcPM and PM, respectively.
KW - alg gene
KW - Alginate
KW - Poly-β-d-mannuronate
KW - Polymannan
KW - Polymannuronate
KW - Pseudomonas
UR - http://www.scopus.com/inward/record.url?scp=78650234498&partnerID=8YFLogxK
U2 - 10.1016/j.procbio.2010.09.009
DO - 10.1016/j.procbio.2010.09.009
M3 - Article
AN - SCOPUS:78650234498
SN - 1359-5113
VL - 46
SP - 328
EP - 334
JO - Process Biochemistry
JF - Process Biochemistry
IS - 1
ER -