1989). Six of the major compounds (40−45) carry a C-terminal phenylalaninol (Pheol) residue, whereas three minor compounds (37−39) terminate in tyrosinol (Tyrol) − a residue that has not been described for peptaibiotics until only recently (Röhrich et al. 2013a). Another six major compounds (46−51) display an additional fragment ion 68.0628 ± 2.3 mDa at their C-terminus (Fig. 4). Thus, the p-OH group of their Tyrol residue is MDV3100 chemical structure hypothesised to be substituted by a prenyl or isoprenyl residue (C5H8,

for details see paragraph below). In contrast to this, major 19-residue peptaibols produced by the plate culture, compounds 40, 41, 43, 44, and two additional compounds, 52 and 53, voglmayrins-18 and -19, terminate in Pheol. HR-MS data clearly confirm the presence of additional

minor components carrying a C-terminal Tyrol or prenylated Tyrol residue, respectively. †, non-peptaibiotic metabolite(s); ‡, co-eluting peptaibiotics, not sequenced; Ħ, minor peptabiotics containing O-prenylated tyrosinol (Tyr(C5H8)ol), the selleckchem C-terminus of which could not be Selleckchem Capmatinib sequenced Table 8 Sequences of 18- and 19-residue peptaibiotics detected in the specimen of Hypocrea voglmayrii No. tR [min] [M + H]+   Residuea 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 35 30.2–31.1 1762.0125 Ac Aib Ala Aib Ala Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Glu Gln   36 31.6–32.0 1775.0433 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Gln   37 33.6–33.7 1924.1239 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Gln Tyrol

38 34.1–34.5 1911.1015 Ac Aib Ala Ala Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Glu Tyrol 39 Edoxaban 34.5–34.8 1925.1100 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Glu Tyrol 40 37.3–37.4 1880.1041 Ac Aib Ala Ala Aib Aib Gln Aib Aib Aib Ala Lxx Aib Pro Vxx Aib Vxx Gln Gln Pheol 41 37.7–37.9 1894.1197 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Aib Pro Vxx Aib Vxx Gln Gln Pheol 42 38.5–38.7 1881.0933 Ac Aib Ala Ala Aib Aib Gln Aib Aib Aib Ala Lxx Aib Pro Vxx Aib Vxx Gln Glu Pheol 43 39.5–39.7 1894.1218 Ac Aib Ala Ala Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Gln Pheol 44 39.9–40.1 1908.1391 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Gln Pheol 45 41.4–41.5 1909.1203 Ac Aib Ala Aib Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Vxx Gln Glu Pheol 46 42.8–43.0 1978.1743 Ac Vxx Ala Ala Aib Aib Gln Aib Aib Aib Ala Lxx Vxx Pro Vxx Aib Aib Gln Gln Tyr(C 5 H 8 )ol b 47 43.4–43.6 1978.