| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 6494111 | Metabolic Engineering | 2018 | 28 Pages |
Abstract
Thus, our study puts forward a viable alternative production platform for halogenated fine chemicals, eschewing reliance on fossil fuel resources and toxic chemicals. We further contend that in planta generation of halogenated indigoid precursors previously unknown to nature offers an extended view on and, indeed, pushes forward the established frontiers of biosynthetic capacity of plants.
Keywords
CaMVHMBCMIASpRNANOESYP450HSQCBFPNOSKBrHClESInuclear magnetic resonancem/znicotinamide adenine dinucleotide (reduced form)hydrochloric acidempty vectorNMRPsycheChloroplastnopaline synthasecytochrome P450 monooxygenaseendoplasmic reticulumMass spectrometryFerredoxinNADHMass-to-charge ratioheteronuclear multiple bond correlationHeteronuclear Single Quantum Correlationpolymerase chain reactionPCRdry weightcauliflower mosaic viruspotassium bromideBlue fluorescent proteinoptical densityhigh performance liquid chromatographyHPLCGlucosyltransferaseelectrospray ionization
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Bioengineering
Authors
Sabine Fräbel, Bastian Wagner, Markus Krischke, Volker Schmidts, Christina M. Thiele, Agata Staniek, Heribert Warzecha,