Difference between revisions of "Part:BBa K5443002:Experience"
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===Applications of BBa_K5443002=== | ===Applications of BBa_K5443002=== | ||
− | We showed that the Sam5 C3H enzyme was functional in <i>E. coli</i> as part of a vanillin biosynthetic pathway, as evidenced by production of caffeate (see LC-MS data from one clone pMQ3C-11, Fig. 1). Further evidence for functional expression of Sam5 was seen from production of a brown melanin-type dye as a side-reaction (see Fig. 2); we believe this indicates that Sam5 is acting on tyrosine (to make L-DOPA, which polymerises) in addition to our intended reaction on p-coumarate to make caffeate. | + | We showed that the Sam5 C3H enzyme was functional in <i>E. coli</i> as part of a vanillin biosynthetic pathway, as evidenced by production of caffeate (see LC-MS data from one clone pMQ3C-11, Fig. 1). Further evidence for functional expression of Sam5 was seen from production of a brown melanin-type dye as a side-reaction (see Fig. 2); we believe this indicates that Sam5 is acting on tyrosine (to make L-DOPA, which polymerises) in addition to our intended reaction on p-coumarate to make caffeate (caffeic acid). |
Latest revision as of 13:51, 2 October 2024
Applications of BBa_K5443002
We showed that the Sam5 C3H enzyme was functional in E. coli as part of a vanillin biosynthetic pathway, as evidenced by production of caffeate (see LC-MS data from one clone pMQ3C-11, Fig. 1). Further evidence for functional expression of Sam5 was seen from production of a brown melanin-type dye as a side-reaction (see Fig. 2); we believe this indicates that Sam5 is acting on tyrosine (to make L-DOPA, which polymerises) in addition to our intended reaction on p-coumarate to make caffeate (caffeic acid).
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