Stereospecific Radical-Mediated B₁₂-Dependent Methyl Transfer by the Fosfomycin Biosynthesis Enzyme Fom3

Abstract: Fom3, the antepenultimate enzyme in the fosfomycin biosynthetic pathway in Streptomyces spp., is a class B cobalamin-dependent radical SAM methyltransferase that catalyzes methylation of (5'-cytidylyl)-2-hydroxyethylphosphonate (2-HEP-CMP) to form (5'-cytidylyl)-2-hydroxypropylphosphonate (2-HPP-CMP). Previously, the reaction of Fom3 with 2-HEP-CMP produced 2-HPP-CMP with mixed stereochemistry at C2. Mechanistic characterization has been challenging because of insoluble expression and poor cobalamin (B) incorp… Show more

“…Cobalamin-dependent rSAM enzymes that methylate unactivated carbon centers are biochemically intriguing, but technically demanding enzymes with barely utilized synthetic potential 48,49 . With more than 7000 members predicted from sequenced genes, they are involved in the biosynthesis of vitamins and many bioactive compounds including carbapenems, gentamicin, fosfomycin, novobiocins, moenomycins, thiostrepton, and bottromycins [50][51][52][53] . Most of the few characterized enzymes catalyze 1-2 C-methylations, and CysS was shown to install up to 3 C-methyl groups into cystobactamid 54 .…”

Genome mining- and synthetic biology-enabled production of hypermodified peptides

“…Cobalamin-dependent rSAM enzymes that methylate unactivated carbon centers are biochemically intriguing, but technically demanding enzymes with barely utilized synthetic potential 48,49 . With more than 7000 members predicted from sequenced genes, they are involved in the biosynthesis of vitamins and many bioactive compounds including carbapenems, gentamicin, fosfomycin, novobiocins, moenomycins, thiostrepton, and bottromycins [50][51][52][53] . Most of the few characterized enzymes catalyze 1-2 C-methylations, and CysS was shown to install up to 3 C-methyl groups into cystobactamid 54 .…”

Genome mining- and synthetic biology-enabled production of hypermodified peptides

“…Whereas many of these approaches rely on the manipulation of functional groups, certain enzymes, including members of the radical S -adenosylmethionine (SAM) family, can perform alkylation of sp 3 C–H bonds. This has been an especially versatile strategy for structural diversification, as seen by its essential role in the biosynthesis of structurally varied natural products and cofactors 4–6 . Known biological machineries for this transformation, however, are limited to enzymes that transfer a methyl group 5,6 or conjugate an activated radical acceptor substrate 4,7 to specific molecules, with methylation as a common mode for sp 3 C–alkyl installation by radical SAM enzymes (Fig.…”

Enzymatic assembly of carbon–carbon bonds via iron-catalysed sp3 C–H functionalization

“…[6,15] In Hby und HCor + brechen die inneren H-Atome jeweils die inhärente C 2 -Symmetrie des Corrin-Kerns,i mG egensatz zur Situation bei den regelmäßiger strukturierten Cobalt-Corrinen und den expandierten und symmetrischen Porphyrinen. [25] Ein ähnlicher Spannungsabbau ist mçglicherweise bei der heterolytischen Abstraktion der cobalt-gebundenen Methylgruppe von MeCbl durch Nukleophile in B 12abhängigen enzymatischen Methyltransfers abzuleiten, die unter Bildung von Co I -Cobalamin ablaufen. Der effektive Koordinationsradius in Hby (1.916 )i st somit nahe an der Länge der äquatorialen Co-N-Bindung in AdoCbl (1.897 ), [17] MeCbl (1.898 ) [18] und Cbl II (1.88 ).…”

“…[4c, 23] Dieselbe Art von Spannung aktiviert die cobalt-gebundene Methylgruppe von MeCbl zur Abstraktion durch Radikale [24] in B 12 -abhängigen Radikal-SAM-Enzymen. [25] Ein ähnlicher Spannungsabbau ist mçglicherweise bei der heterolytischen Abstraktion der cobalt-gebundenen Methylgruppe von MeCbl durch Nukleophile in B 12abhängigen enzymatischen Methyltransfers abzuleiten, die unter Bildung von Co I -Cobalamin ablaufen. [26] In der Adenosyl-Transferase ACAi st eine instabile vierfach koordinierte Form von Cbl II (Cbl II ACA) [20] das kritische Substrat für die Reduktion zur schwer erreichbaren vierfach koordinierten Co I -Spezies.S olchen essentiellen vierfach koordinierten Co II -u nd Co I -Formen, welche metabolisch schwer zu generieren sind, [25b,27] scheint der helikale Koordinationsraum des Corrin-Liganden speziell entgegenzukommen.…”

Die Hydrogenobyrsäure‐Struktur enthüllt den Corrin‐Liganden als entatisches Zustandsmodul zur Steigerung der Katalyseaktivität von B₁₂‐Cofaktoren