| Literature DB >> 33552898 |
Henna Mustila1, Amit Kugler1, Karin Stensjö1.
Abstract
Cyanobacteria can be utilized as a platform for direct phototrophic conversion of CO2 to produce several types of carbon-neutral biofuels. One promising compound to be produced photobiologically in cyanobacteria is isobutene. As a volatile compound, isobutene will quickly escape the cells without building up to toxic levels in growth medium or get caught in the membranes. Unlike liquid biofuels, gaseous isobutene may be collected from the headspace and thus avoid the costly extraction of a chemical from culture medium or from cells. Here we investigate a putative synthetic pathway for isobutene production suitable for a photoautotrophic host. First, we expressed α-ketoisocaproate dioxygenase from Rattus norvegicus (RnKICD) in Escherichia coli. We discovered isobutene formation with the purified RnKICD with the rate of 104.6 ± 9 ng (mg protein)-1 min-1 using α-ketoisocaproate as a substrate. We further demonstrate isobutene production in the cyanobacterium Synechocystis sp. PCC 6803 by introducing the RnKICD enzyme. Synechocystis strain heterologously expressing the RnKICD produced 91 ng l-1 OD750 -1 h-1. Thus, we demonstrate a novel sustainable platform for cyanobacterial production of an important building block chemical, isobutene. These results indicate that RnKICD can be used to further optimize the synthetic isobutene pathway by protein and metabolic engineering efforts.Entities:
Keywords: Cyanobacteria; HDC, High density cultivation; HMB, β-hydroxy-β-methylbutyrate; HPP, 4-hydroxyphenylpyruvate; Isobutene production; KIC, α-ketoisocaproate; KICD, α-ketoisocaproate dioxygenase; M3K, Mevalonate-3-kinase; Metabolic engineering; Mevalonate-3-kinase; OD750, Optical density at 750 nm; Synechocystis; α-ketoisocaproate dioxygenase
Year: 2021 PMID: 33552898 PMCID: PMC7856465 DOI: 10.1016/j.mec.2021.e00163
Source DB: PubMed Journal: Metab Eng Commun ISSN: 2214-0301