Characterization of a type of β‐bend ribbon spiral generated by the repeating (Xaa–Yaa–Aib–Pro) motif: The solution structure of harzianin HC IX,a 14‐residue peptaibol forming voltage‐dependent ion channels

The three‐dimensional solution structure of harzianin HC IX, a peptaibol antibiotic isolated from the fungus Trichoderma harzianum, was determined using CD, homonuclear, and heteronuclear two‐dimensional nmr spectroscopy combined with molecular modeling. This 14‐residue peptide, Ac Aib¹ Asn² Leu³ Aib⁴ Pro⁵ Ala⁶ Ile⁷ Aib⁸ Pro⁹ Iva¹⁰ Leu¹¹ Aib¹² Pro¹³ Leuol¹⁴ (Aib, α‐aminoisobutyric acid; Iva, isovaline; Leuol, leucinol), is a main representative of a short‐sequence peptaibol class characterized by an acetylated N‐terminus, a C‐terminal amino alcohol, and the presence of three Aib‐L ‐Pro motifs at positions 4–5, 8–9, and 12–13, separated by two dipeptide units. In spite of a lower number of residues, compared to the 18/20‐residue peptaibols such as alamethicin, harzianin HC IX exhibits remarkable membrane‐perturbing properties. It interacts with phospholipid bilayers, increasing their permeability and forming voltage‐gated ion channels through a mechanism slightly differing from that proposed for alamethicin. Sequence‐specific ¹H‐ and ¹³C‐nmr assignments and conformational nmr parameters (³J_NHCαH coupling constants, quantitative nuclear Overhauser enhancement data, temperature coefficients of amide and carbonyl groups, NH–ND exchange rates) were obtained in methanol solution. Sixty structures were calculated based on 98 interproton distance restraints and 6 Φ dihedral angle restraints, using high temperature restrained molecular dynamics and energy minimization. Thirty‐seven out of the sixty generated structures were consistent with the nmr data and were convergent. The peptide backbone consists in a ribbon of overlapping β‐turns twisted into a continuous spiral from Asn² to Leuol¹⁴ and forming a 26 Å long helix‐like structure. This structure is slightly amphipathic, with the three Aib–Pro motifs aligned on the less hydrophobic face of the spiral where the Asn² side chain is also present, while the more hydrophobic bulky side chains of leucines, isoleucine, isovaline, and leucinol are located on the concave side. The repetitive (Xaa–Yaa–Aib–Pro) tetrapeptide subunit, making up the peptide sequence, is characterized by four sets of (Φ,Ψ) torsional angles, with the following mean values: Φ_i = −90°, Ψ_i = −27°; Φ_i+1 = −98°, Ψ_i+1 = −17°; Φ_i+2 = −49°, Ψ_i+2 = −50°; Φ_i+3 = −78°, Ψ_i+3 = +3°. We term this particular structure, specifically occurring in the case of (Xaa–Yaa–Aib–Pro)_n sequences, the (Xaa–Yaa–Aib–Pro)‐β‐bend ribbon spiral. It is stabilized by 4 → 1 intramolecular hydrogen bonds and differs from both the canonical 3₁₀‐helix made of a succession of type III β‐turns and from the β‐bend ribbon spiral that has been described in the case of (Aib–Pro)n peptide segments. © 1999 John Wiley & Sons, Inc. Biopoly 50: 71–85, 1999     

Antimicrobial peptides and plant disease control

Several diseases caused by viruses, bacteria and fungi affect plant crops, resulting in losses and decreasing the quality and safety of agricultural products. Plant disease control relies mainly on chemical pesticides that are currently subject to strong restrictions and regulatory requirements. Antimicrobial peptides are interesting compounds in plant health because there is a need for new products in plant protection that fit into the new regulations. Living organisms secrete a wide range of antimicrobial peptides produced through ribosomal (defensins and small bacteriocins) or non-ribosomal synthesis (peptaibols, cyclopeptides and pseudopeptides). Several antimicrobial peptides are the basis for the design of new synthetic analogues, have been expressed in transgenic plants to confer disease protection or are secreted by microorganisms that are active ingredients of commercial biopesticides.     

Sequence diversity of the peptaibol antibiotic suzukacillin-A from the mold Trichoderma viride.

From the culture broth of the mold Trichoderma viride, strain 63 C-I, the polypeptide antibiotic suzukacillin (SZ) was isolated. A peptide mixture named SZ-A was obtained by crystallization from crude SZ. Individual peptides from SZ-A were isolated by semipreparative HPLC and sequences were determined by HPLC-ESI-MS. The data confirm a general sequence of SZ-A published previously and in addition establish the individual sequences of 15 acetylated eicosa peptides with C-terminal alcohols. The major peptide SZ-A4 (21% of all peptides) shows the sequence:Ac-Aib-Ala-Aib-Ala-Aib-Ala(6)-Gln-Aib-Lx(9)-Aib-Gly-Aib(12)-Aib-Pro-Vx(15)-Aib-Vx(17)-Gln-Gln-Fol. Amino acid exchanges of the peptaibol are located in position 6 (Ala/Aib), 9 (Vx/Lx), 12 (Aib/Lx), 17 (Aib/Vx) and possibly at position15 (Val/Iva) (uncommon abbreviations: Aib (alpha-aminoisobutyric acid); Iva (D-isovaline); Lx (L-leucine or L-isoleucine); Vx (L-valine or D-isovaline); Fol (L-phenylalaninol)).     

Chemical synthesis of15N-labeled analogues of zervamicin IIB

Analogues of 16-membered peptide antibiotic zervamicin IIB with the Gln³ and Gln¹¹ residues¹⁵N-labeled at the Cα-atoms were synthesized by coupling the antibiotic segments (1–4), (5–9), and (10–16). In turn, these were prepared by a stepwise chain elongation in solution starting from theirC-termini using benzotriazol-1-yloxy-tris(dimethylamino)phosphonium hexafluorophosphate (BOP) as an activating agent. The sterically hindered 2-aminoisobutyric acid was introduced by the BOP-dimethylaminopyridine system with the preactivation of the carboxyl component. The segment condensation was performed with the use of the 6-trifluoromethylbenzotriazol-1-yloxy-tris(pyrrolidino)phosphonium hexafluorophosphate activating reagent. The homogeneity of the resulting zervamicin analogues was confirmed by HPLC, and their structures were proved by NMR spectroscopy and FAB mass spectrometry.     

Clonostachys rosea BAFC3874 as a Sclerotinia sclerotiorum antagonist: mechanisms involved and potential as a biocontrol agent

Aims: To establish the modes of action of the antagonistic fungal strain Clonostachys rosea BAFC3874 isolated from suppressive soils against Sclerotinia sclerotiorum and to determine its potential as a biocontrol agent. Methods and Results: The antagonistic activity of C. rosea BAFC3874 was determined in vitro by dual cultures. The strain effectively antagonized S. sclerotiorum in pot‐grown lettuce and soybean plants. Antifungal activity assays of C. rosea BAFC3874 grown in culture established that the strain produced antifungal compounds against S. sclerotiorum associated with secondary metabolism. High mycelial growth inhibition coincided with sclerotia production inhibition. The C. rosea strain produced a microheterogeneous mixture of peptides belonging to the peptaibiotic family. Moreover, mycoparasitism activity was observed in the dual culture. Conclusions: Clonostachys rosea strain BAFC3874 was proved to be an effective antagonist against the aggressive soil‐borne pathogen S. sclerotiorum in greenhouse experiments. The main mechanisms involve peptaibiotic metabolite production and mycoparasitism activity. Significance and Impact of the Study: Clonostachys rosea BAFC3874 may be a good fungal biological control agent against S. sclerotiorum. In addition, we were also able to isolate and identify peptaibols, an unusual family of compounds in this genus of fungi.     

Identification and Biological Activities of Long‐Chain Peptaibols Produced by a Marine‐Derived Strain of Trichoderma longibrachiatum

Six long‐chain peptaibols, 1  –  6 , were identified from agar cultures of a marine‐derived Trichoderma longibrachiatum Rifai strain (MMS151) isolated from blue mussels. The structure elucidation was carried out using electrospray ionization ion trap mass spectrometry (ESI‐IT‐MS) and GC/EI‐MS. The long‐chain peptaibols exhibited the general building scheme Ac‐Aib‐Ala‐Aib‐Ala‐Aib‐XXX‐Gln‐Aib‐Vxx‐Aib‐Gly‐XXX‐Aib‐Pro‐Vxx‐Aib‐XXX‐Gln‐Gln‐Pheol and were similar or identical to recurrent 20‐residue peptaibols produced by Trichoderma spp. Three new sequences were identified and were called longibrachins A‐0, A‐II‐a, and A‐IV‐b. The isolated peptaibols were assayed for cytotoxic, antibacterial, and antifungal activities, and acute toxicity on Dipteran larvae.     

Sequences of stilboflavin C: towards the peptaibiome of the filamentous fungus Stilbella (= Trichoderma) flavipes

Filamentous fungi of the genus Stilbella are recognized as an abundant source of naturally occurring α‐aminoisobutyric acid‐containing peptides. The culture broth of Stilbella (Trichoderma) flavipes CBS 146.81 yielded a mixture of peptides named stilboflavins (SF), and these were isolated and separated by preparative TLC into groups named SF‐A, SF‐B, and SF‐C. Although all three of these groups resolved as single spots on thin‐layer chromatograms, HPLC analysis revealed that each of the groups represents very microheterogeneous mixtures of closely related peptides. Here, we report on the sequence analysis of SF‐C peptides, formerly isolated by preparative TLC. HPLC coupled to QqTOF‐ESI‐HRMS provided the sequences of 10 16‐residue peptides and five 19‐residue peptides, all of which were N‐terminally acetylated. In contrast to the previously described SF‐A and SF‐B peptaibols, SF‐C peptaibols contain Ser‐Alaol or Ser‐Leuol, which are rarely found as C‐termini, and repetitive Leu‐Aib‐Gly sequences, which have not been detected in peptaibols before. Taking the previously determined sequences of SF‐A and SF‐B into account, the entirety of peptides produced by S. flavipes (the ‘peptaibiome’) approaches or exceeds 100 non‐ribosomally biosynthesized peptaibiotics. Copyright © 2016 European Peptide Society and John Wiley & Sons, Ltd.     

炭团木霉中非核糖体多肽基因NRPS1的功能研究

[目的] 木霉属真菌是应用最为广泛和潜力最大的生防真菌,其产生的典型化合物哌珀霉素（peptaibols）类抗生素在生物防治中发挥重要作用。本研究采用基因组挖掘技术（genome mining）发现炭团木霉（Trichoderma hypoxylon）的潜在哌珀霉素生物合成基因簇及对病原菌的防治作用。[方法] 生物信息学分析预测合成哌珀霉素的基因簇,利用Quick-change技术构建基因骨架敲除盒,通过PEG介导的原生质体转化方法获得敲除突变株,通过平板对峙法和菌丝生长毒力实验验证该基因簇对炭团木霉生物活性的影响。[结果] 基因挖掘鉴定一个非核糖体多肽合成酶（nonribosomal peptide synthetases,NRPS）可能合成哌珀霉素类抗生素,命名为NRPS1,对该基因进行部分敲除,成功获得3株NRPS1缺失突变株。对峙实验表明,突变株对寄生曲霉（Aspergillus parasiticus）、尖孢镰刀菌（Fusarium oxysporum）、黑白轮枝菌（Verticillium alboatrum）等9株植物病原真菌的抑制作用与野生株相比显著下降,且突变株的粗提物的抑菌活性明显弱于野生型。[结论] NRPS1是一个潜在的哌珀霉素合成基因,该基因在宿主与病原真菌对抗过程中起关键作用,该研究为炭团木霉哌珀霉素结构解析及生物防治机理研究奠定了基础。     

木霉菌抗菌活肽peptaibols合成调控机制研究进展

木霉菌Trichoderma spp.是广泛存在于土壤环境的丝状真菌,能够产生丰富的次生代谢物,具有抑制病原菌和促植物生长等功效,在农业和医药领域有广泛应用.Peptaibols是一类由非核糖体肽合成酶(non-ribosomal peptide synthetase,NRPS)合成的富含α-氨基异丁酸(Aib)的线性...     

Peptaibols from two unidentified fungi of the order Hypocreales with cytotoxic,antibiotic, and anthelmintic activities

As part of an ongoing investigation of filamentous fungi for anticancer leads, an active culture was identified from the Mycosynthetix library (MSX 70741, of the order Hypocreales, Ascomycota). The fungal extract exhibited cytotoxic activity against the H460 (human nonsmall cell lung carcinoma) cell line, and bioactivity‐directed fractionation yielded peptaibols 1–12 and harzianums A (13) and B (14). Structure elucidation of 1–12 was facilitated by high‐resolution MS/MS using higher‐energy collisional dissociation and by high field NMR (950 MHz). The absolute configuration was determined by Marfey's analysis of the individual amino acids; the time required for such analysis was decreased via the development of a 10‐min ultra performance liquid chromatography method. The isolated peptaibols (1–12), along with three other peptaibols isolated and elucidated from a different fungus (MSX 57715) of the same order (15–17), were examined for activity in a suite of biological assays, including those for cytotoxic, antibacterial, and anthelmintic activities. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.