61168-06-7Relevant articles and documents
Hapalindole/Ambiguine Biogenesis Is Mediated by a Cope Rearrangement, C-C Bond-Forming Cascade
Li, Shasha,Lowell, Andrew N.,Yu, Fengan,Raveh, Avi,Newmister, Sean A.,Bair, Nathan,Schaub, Jeffrey M.,Williams, Robert M.,Sherman, David H.
, p. 15366 - 15369 (2015)
Hapalindoles are bioactive indole alkaloids with fascinating polycyclic ring systems whose biosynthetic assembly mechanism has remained unknown since their initial discovery in the 1980s. In this study, we describe the fam gene cluster from the cyanobacterium Fischerella ambigua UTEX 1903 encoding hapalindole and ambiguine biosynthesis along with the characterization of two aromatic prenyltransferases, FamD1 and FamD2, and a previously undescribed cyclase, FamC1. These studies demonstrate that FamD2 and FamC1 act in concert to form the tetracyclic core ring system of the hapalindoles from cis-indole isonitrile and geranyl pyrophosphate through a presumed biosynthetic Cope rearrangement and subsequent 6-exo-trig cyclization/electrophilic aromatic substitution reaction.
Biocatalysts from cyanobacterial hapalindole pathway afford antivirulent isonitriles against MRSA
Bunn, Brittney M,Xu, Mizhi,Webb, Chase M,Viswanathan, Rajesh
, (2021/04/26)
Abstract: The emergence of resistance to frontline antibiotics has called for novel strategies to combat serious pathogenic infections. Methicillin-resistant Staphylococcus aureus [MRSA] is one such pathogen. As opposed to traditional antibiotics, bacteriostatic anti-virulent agents disarm MRSA, without exerting pressure, that cause resistance. Herein, we employed a thermophilic Thermotoga maritima tryptophan synthase (TmTrpB1) enzyme followed by an isonitrile synthase and Fe(II)-α-ketoglutarate-dependent oxygenase, in sequence as biocatalysts to produce antivirulent indole vinyl isonitriles. We report on conversion of simple derivatives of indoles to their C3-vinyl isonitriles, as the enzymes employed here demonstrated broader substrate tolerance. In toto, eight distinct L-Tryptophan derived α-amino acids (7) were converted to their bioactive vinyl isonitriles (3) by action of an isonitrile synthase (WelI1) and an Fe(II)-α-ketoglutarate-dependent oxygenase (WelI3) yielding structural variants possessing antivirulence against MRSA. These indole vinyl isonitriles at 10 μg/mL are effective as antivirulent compounds against MRSA, as evidenced through analysis of rabbit blood hemolysis assay. Based on a homology modelling exercise, of enzyme-substrate complexes, we deduced potential three dimensional alignments of active sites and glean mechanistic insights into the substrate tolerance of the Fe(II)-α-ketoglutarate-dependent oxygenase. Graphic abstract: [Figure not available: see fulltext.]
Synthesis of Vinyl Isocyanides and Development of a Convertible Isonitrile
Spallarossa, Martina,Wang, Qian,Riva, Renata,Zhu, Jieping
supporting information, p. 1622 - 1625 (2016/05/02)
The reaction of isocyanomethylenetriphenylphosphorane, generated in situ from the corresponding phosphonium salt, with a diverse set of aldehydes afforded vinyl isocyanides in good to high yields. Excellent E-selectivity was observed for aliphatic aldehydes and 2,6-disubstituted aromatic aldehydes, whereas Z-olefins were formed predominantly with ortho-substituted aryl aldehydes. (Z)-1-Bromo-2-(2-isocyanovinyl)benzene (5l) was found to be a truly universal isonitrile since, after Ugi reaction, the resulting secondary amide unit (RNHCO-) is convertible under both acidic and basic conditions. The application of 5l in the synthesis of polyheterocycles is also illustrated.