Team:Saarland/4 step

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The hyaluronan synthase catalyses the synthesis of hyaluronic acid by consumption of the endogenous synthesised precursor molecules UDP-GlcUA and UDP-GlcNAc. The biochemical pathways for their production were already identified in streptococci of group A and C. Hence it was possible to identify genes that could have a beneficial effect on the concentration of these precursor molecules for high yield hyaluronic acid production in <i>B. megaterium</i>  
The hyaluronan synthase catalyses the synthesis of hyaluronic acid by consumption of the endogenous synthesised precursor molecules UDP-GlcUA and UDP-GlcNAc. The biochemical pathways for their production were already identified in streptococci of group A and C. Hence it was possible to identify genes that could have a beneficial effect on the concentration of these precursor molecules for high yield hyaluronic acid production in <i>B. megaterium</i>  
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Eventually eight relevant pathway genes, including <i>UDP-Glc</i>DH, <i>glk</i>, <i>pgm</i>B, <i>gta</i>B, <i>pgi, glm</i>S,<i> glm</i>M and <i>gca</i>D, were chosen for the approach of pathway engineering. The sequences of these genes originate from MegaBac v9 database and were used for primer design and amplification of genomic DNA of <i>B. megaterium.</i> Restriction sites not only at the 5` end but also at the 3` end were added for subsequent cloning into the pSB1C3 plasmid (table 1). <br>
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Eventually eight relevant pathway genes, including <i>UDP-Glc</i>DH, <i>glk</i>, <i>pgm</i>B, <i>gta</i>B, <i>pgi, glm</i>S,<i> glm</i>M and <i>gca</i>D, were chosen for the approach of pathway engineering. The sequences of these genes originate from MegaBac v9 database and were used for primer design and amplification of genomic DNA of <i>B. megaterium.</i> Restriction sites not only at the 5` end but also at the 3` end were added for subsequent cloning into the pSB1C3 plasmid (table 1). <br>
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Revision as of 11:23, 15 October 2014


4. Build an army of clone warriors


Design and synthesis of hyaluronic acid coding has2 gene

The initial step of our project was the artificial synthesis of the has2 gene sequence coding for the hyaluronic acid synthase of the naked mole rat. The sequence was taken from the freely accessible genome database “UCSC genome browser”, whereby the sequence data was gained by shot-gun-sequencing (Kim et al., 2011). The gene sequence was adapted to the altered codon usage in Bacillus megaterium with JCat (Grote et al., 2005). Additionally the open reading frame (ORF) of the has2 gene was modified so that prokaryotic ribosomal binding site (RBS), rho-independent transcription termination as well as restriction enzymes that are also part of the multiple cloning site (MCS) of the target plasmid pSMF2.1 were excluded. For the upcoming cloning process of the has2 gene the nucleotide sequence was terminally modified with the restriction sites MluⅠ (5`end) und SacⅠ(3`end). Moreover a </i>B. megaterium</i> specific RBS was added downstream the MluⅠrestriction site for efficient protein expression. We paid attention to the fact that amino acid sequence did not change. Subsequently the 1693 bp long modified gene sequence has2 (fig. 1) was handed over to Eurofins who performed the gene synthesis and the cloning into the standard delivery plasmid pexK4 plasmid (Eurofins).



Genomic amplification of genes that may optimise the hyaluronic acid production

The hyaluronan synthase catalyses the synthesis of hyaluronic acid by consumption of the endogenous synthesised precursor molecules UDP-GlcUA and UDP-GlcNAc. The biochemical pathways for their production were already identified in streptococci of group A and C. Hence it was possible to identify genes that could have a beneficial effect on the concentration of these precursor molecules for high yield hyaluronic acid production in B. megaterium Eventually eight relevant pathway genes, including UDP-GlcDH, glk, pgmB, gtaB, pgi, glmS, glmM and gcaD, were chosen for the approach of pathway engineering. The sequences of these genes originate from MegaBac v9 database and were used for primer design and amplification of genomic DNA of B. megaterium. Restriction sites not only at the 5` end but also at the 3` end were added for subsequent cloning into the pSB1C3 plasmid (table 1).

Table 1: Overview of the BioBrick length and BioBrick restriction sites
Gene Name Gene Size (bp) 5` Restriction Site 3` Restriction Site
UDP-GlcDH 1382 SacSph
glk 969 EcoRPst
pgmB 707 EcoRSpe
gtaB 888 EcoRPst
pgi 1350 XbaPst
glmS 1800 XbaPst
glmM 1346 EcoRⅠ Pst
gcaD 1380 EcoRⅠ Pst




















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