Enhanced bioproduction of poly-3-hydroxybutyrate from wheat straw lignocellulosic hydrolysates

•Wheat straw hydrolysates were successfully upgraded to poly-3-hydroxybutyrate.•Feeding strategy for multiple carbon source consumption successfully implemented.•High cell density cultivations generated outstanding P(3HB) productivities. Polyhydroxyalkanoates (PHAs) are bioplastics that can replace...

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Published inNew biotechnology Vol. 31; no. 1; pp. 104 - 113
Main Authors Cesário, M. Teresa, Raposo, Rodrigo S., de Almeida, M. Catarina M.D., van Keulen, Frederik, Ferreira, Bruno S., da Fonseca, M. Manuela R.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 25.01.2014
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Summary:•Wheat straw hydrolysates were successfully upgraded to poly-3-hydroxybutyrate.•Feeding strategy for multiple carbon source consumption successfully implemented.•High cell density cultivations generated outstanding P(3HB) productivities. Polyhydroxyalkanoates (PHAs) are bioplastics that can replace conventional petroleum-derived products in various applications. One of the major barriers for their widespread introduction in the market is the higher production costs compared with their petrochemical counterparts. In this work, a process was successfully implemented with high productivity based on wheat straw, a cheap and readily available agricultural residue, as raw material. The strain Burkholderia sacchari DSM 17165 which is able to metabolise glucose, xylose and arabinose, the main sugars present in wheat straw hydrolysates (WSHs), was used. Results in shake flask showed that B. sacchari cells accumulated about 70%gpoly(3-hydroxybutyrate)(P(3HB))/g cell dry weight (CDW) with a yield of polymer on sugars (YP/S) of 0.18g/g when grown on a mixture of commercial C6 and C5 sugars (control), while these values reached about 60%gP(3HB)/g CDW and 0.19g/g, respectively, when WSHs were used as carbon source. In fed-batch cultures carried out in 2L stirred-tank reactors (STRs) on WSH, a maximum polymer concentration of 105g/L was reached after 61hours of cultivation corresponding to an accumulation of 72% of CDW. Polymer yield and productivity were 0.22gP(3HB)/g total sugar consumed and 1.6g/Lhour, respectively. The selected feeding strategy successfully overcame the carbon catabolite repression (CCR) phenomenon observed with sugar mixtures containing hexoses and pentoses. This is the first work describing fed-batch cultivations aiming at PHA production using real lignocellulosic hydrolysates. Additionally, the P(3HB) volumetric productivities attained are by far the highest ever achieved on agricultural waste hydrolysates.
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ISSN:1871-6784
1876-4347
DOI:10.1016/j.nbt.2013.10.004