67 package (http://evolution.genetics.washington.edu/phylip.html). The final tree was edited using dendroscope 2 (Huson et al., 2007). The A3 and A7 motifs of the NRPS adenylation domain are highly conserved and suitable for degenerate primer design (Tanaka et al., 2005; Wei et al., 2005; Johnson et al., 2007). A pair of degenerate primers was designed based on these sequences (Table S1). They amplified a 271-bp fragment from the genomic DNA of strain 1630 and an 858-bp fragment from strain DSM 1153. The primers
targeting the KS domain of the PKS coding genes developed by Keller et al. (1995) amplified a 498-bp fragment from strain 1630 and a 760-bp fragment from strain DSM 1153. The 271-bp fragment was located on a 3.8-kb open reading frame designated as nrps1 (Fig. 1a). This sequence turned out to be on the T domain, whereas the expected fragment of 671 bp on the A domain was only weakly amplified under this website our PCR conditions. The putative 138 kD NRPS1 protein
showed 32% similarity to LPS2, a subunit of the ergopeptine synthetase enzyme complex in Claviceps purpurea (Correia et al., 2003), and 30% similarity to LpsB for ergovaline biosynthesis in Neotyphodium lolii (Fleetwood et al., 2007). The completely different genetic contexts surrounding nrps1 compared with the genes of these ergot alkaloid synthetases reemphasizes that NRPS1 most likely produces a molecule unrelated to ergot alkaloids (Fig. 1b). Cordyceps militaris belongs to the same Clavicipitaceae family as Claviceps purpurea and N. lolii, but C. militaris strain Enzalutamide concentration ATCC 26848 does not produce any ergopeptines, and a gene encoding
LPS1, another protein in ergopeptine biosynthesis, was not detected in strain ATCC 26848 (Panaccione et al., 2001). The 858-bp fragment was located on a 6.9-kb NRPS coding gene in the strain DSM 1153 genome (Fig. 2a). The gene was named etplP for epipolythiodioxopiperazine (ETP)-like peptide synthetase because many of its surrounding genes showed similarities to genes in the ETP biosynthetic pathway in Leptosphaeria maculans and Aspergillus Resminostat fumigatus (Fig. 2b). ETP biosynthetic gene clusters are common in Ascomycetes (Patron et al., 2007; Fox & Howlett, 2008) and at least 14 different ETPs from 15 different producing organisms have been predicted (Gardiner et al., 2005). EtplP showed 41% sequence homology to SirP, which is involved in sirodesmin PL production in L. maculans (Gardiner et al., 2004), and 28% homology to GliP, which is involved in gliotoxin production in A. fumigatus (Gardiner & Howlett, 2005). The 498-bp fragment from strain 1630 was on a 7.5-kb PKS coding gene that showed homology to two genes involved in lovastatin biosynthesis in Aspergillus terreus, i.e. lovB [encoding the lovastatin nonaketide synthetase (LNKS)] and lovF [encoding the lovastatin diketide synthetase (LDKS)] (Hendrickson et al., 1999; Kennedy et al., 1999) (Fig. 3a).