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Evidence that thienamycin bios...
Čujuhandieđut
Deakstadieđáhus
Sádde šleađgaboasttain
Čálit
Doalvvo čujuhusa
Doalvun: RefWorks
Doalvun: EndNoteWeb
Doalvun: EndNote
Bissovaš liŋka
Evidence that thienamycin biosynthesis proceeds via C-5 epimerization: ThnE catalyzes the formation of (2S,5S)-trans-carboxymethylproline.
Bibliográfalaš dieđut
Váldodahkkit:
Hamed, R
,
Batchelar, E
,
Mecinović, J
,
Claridge, T
,
Schofield, C
Materiálatiipa:
Journal article
Giella:
English
Almmustuhtton:
2009
Oažžasuvvandieđut
Govvádus
Geahča maid
Bargiidšearbma
Geahča maid
Carboxymethylproline synthase catalysed syntheses of functionalised N-heterocycles.
Dahkki: Hamed, R, et al.
Almmustuhtton: (2010)
Structural and mechanistic studies on carboxymethylproline synthase (CarB), a unique member of the crotonase superfamily catalyzing the first step in carbapenem biosynthesis.
Dahkki: Sleeman, M, et al.
Almmustuhtton: (2005)
Thioester hydrolysis and C-C bond formation by carboxymethylproline synthase from the crotonase superfamily.
Dahkki: Batchelar, E, et al.
Almmustuhtton: (2008)
Stereoselective C-C bond formation catalysed by engineered carboxymethylproline synthases.
Dahkki: Hamed, R, et al.
Almmustuhtton: (2011)
Application of affinity adsorption in thienamycin fermentation /
Dahkki: 307099 Wang, Henry Y., et al.