Abstract
We investigated the expression and stability of enhanced green fluorescent protein (eGFP) under extreme conditions using two types of high-copy-number vectors and two types of anchoring motifs (CotB and C-terminally truncated ∆CotB spore coat proteins) for the development of a spore surface display system in Bacillus subtilis. The fused cotB-gfp and ΔcotB-gfp DNA fragments were cloned into the pUB19 (pUB110-derived) and pHY300PLK vectors. Four types of expression vectors were transformed into B. subtilis 168. The expression level of eGFP on the surface of spores prepared from B. subtilis transformants was measured by flow cytometry. When pUB19 vector was used, the activities of ∆CotB-eGFP and CotB-eGFP were 17.9 and 5.6 times higher than those of the pHY300PLK vector, respectively. In addition, the activity of pUB19-∆CotB-eGFP was 1.76 times higher than that of pUB19-CotB-eGFP. Overall, the activity of eGFP was more stable under extreme conditions (heat, pH, and protease challenges) when ∆CotB was used as an anchoring motif instead of CotB. Compared to the control groups, the activities of ΔCotB-eGFP and CotB-eGFP were maintained at 56% and 41% at 80 °C and 88% and 55% at pH 10, respectively. The activities of ΔCotB-eGFP and CotB-eGFP were maintained at 62% and 41%, respectively, when treated with 0.03 U of proteinase K. In addition, the activities were maintained at 77% and 36%, respectively, when treated with 5.5 U of trypsin.
Highlights
Spore surface display studies have been conducted to express proteins or peptides on the spore surface of spore-forming bacteria such as Bacillus subtilis [1, 2]
To investigate the stability of enhanced green fluorescent protein (eGFP) displayed on the spore surface under extreme conditions, the activity of eGFP was measured after treatment with heat, acidic or alkaline solutions, and proteases
Construction of recombinant plasmids pHY300PLK is known as a high-copy-number E. coli–B. subtilis shuttle vector used for studying the expression of the gene of interest [22, 23]. pUB110 is a broad-host-range plasmid originating from Staphylococcus aureus and can be replicated in B. subtilis at a copy number of 50–100 per cell [24]. pUB110-derived plasmids have been used for high-level production of various recombinant proteins in B. subtilis [25, 26]
Summary
Spore surface display studies have been conducted to express proteins or peptides on the spore surface of spore-forming bacteria such as Bacillus subtilis [1, 2]. We used the CotB and ΔCotB (249 amino acids) proteins as an anchoring motif and enhanced green fluorescent protein (eGFP, F64L/S65T) as a target protein to construct a foreign protein expression system using B. subtilis spores. To investigate the stability of eGFP displayed on the spore surface under extreme conditions, the activity of eGFP was measured after treatment with heat, acidic or alkaline solutions, and proteases.
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