Diversity and Taxonomy of Endophytic Xylariaceous Fungi from Medicinal Plants of Dendrobium (Orchidaceae)

Dendrobium spp. are traditional Chinese medicinal plants, and the main effective ingredients (polysaccharides and alkaloids) have pharmacologic effects on gastritis infection, cancer, and anti-aging. Previously, we confirmed endophytic xylariaceous fungi as the dominant fungi in several Dendrobium species of tropical regions from China. In the present study, the diversity, taxonomy, and distribution of culturable endophytic xylariaceous fungi associated with seven medicinal species of Dendrobium (Orchidaceae) were investigated. Among the 961 endophytes newly isolated, 217 xylariaceous fungi (morphotaxa) were identified using morphological and molecular methods. The phylogenetic tree constructed using nuclear ribosomal internal transcribed spacer (ITS), large subunit of ribosomal DNA (LSU), and beta-tubulin sequences divided these anamorphic xylariaceous isolates into at least 18 operational taxonomic units (OTUs). The diversity of the endophytic xylariaceous fungi in these seven Dendrobium species was estimated using Shannon and evenness indices, with the results indicating that the dominant Xylariaceae taxa in each Dendrobium species were greatly different, though common xylariaceous fungi were found in several Dendrobium species. These findings implied that different host plants in the same habitats exhibit a preference and selectivity for their fungal partners. Using culture-dependent approaches, these xylariaceous isolates may be important sources for the future screening of new natural products and drug discovery.     

The potential saprotrophic capacity of foliar endophytic fungi from Quercus gambelii

Endophytic fungi occur in living tissues of terrestrial plants. Many of these fungi are primarily biotrophic, but the trophic range of endophytic fungi as a group may not be fully appreciated. In this study, our goals were (1) for the Class 3 foliar endophytic fungi isolated from Quercus gambelii, determine their potential saprotrophic capacity, which we define as the difference in growth rate in culture on Quercus gambelii leaf litter medium and control medium lacking leaf litter and (2) quantify sources of variation among isolates of these endophytic fungi in potential saprotrophic capacity, including variation due to microsite within host trees (leaves receiving full sun vs. shade) and variation within and among fungal genera. We found that 48 of the 49 tested endophytic fungal isolates have significant potential saprotrophic capacity. Contrary to expectation, the amount of solar radiation available to the leaf from which the fungi were isolated had no significant impact on potential saprotrophic capacity and there was more variability in potential saprotrophic capacity among isolates within a genus than among genera. Our results suggest that some Class 3 endophytic fungi may have the potential to function as saprotrophic fungi within plant litter, but this remains to be seen for these Quercus gambelii isolates under more natural circumstances.     

Biodiversity of endophytic fungi in different leaf ages of Calotropis procera and their antimicrobial activity

Calotropis procera has many important medicinal properties with proven pharmacological potential. Some of these properties may be mediated by its fungal endophytes. This study analyzed, for the first time, the community of endophytic fungi of C. procera outside its region of origin. A total of 156 fungal isolates distributed across 19 taxa were obtained from 468 fragments of C. procera leaves at different stages of maturation. The rate of endophyte colonization increased with the leaf age/development. The dominant species of endophytic fungi of C. procera introduced in Northeast Brazil were different from those found in studies on the same species and other species of the same genus in native regions. The dominant endophyte was Phaeoramularia calotropidis (63.5 %), followed by Guignardia bidwellii (21.1 %). Six isolates of endophytic fungi showed antimicrobial activity against human pathogenic micro-organisms and one plant pathogenic fungus. The antibacterial activity was more intense than the antifungal activity. The endophytic Curvularia pallescens (URM 6048) stood out inhibited Gram-positive bacteria, Staphylococcus aureus, Streptococcus pyogenes, the plant pathogenic fungus Colletotrichum dematium. Ecological and biotechnological aspects of endophytic mycota are discussed.     

Natural products of Alternaria sp., an endophytic fungus isolated from Salvadora persica from Saudi Arabia

This study is to evaluate the potential of endophytic fungi of Salvadora persica for the production of bioactive compounds against pathogenic bacteria and fungi. Forty-two fungal isolates were obtained from 135 young and old stem and 125 root segments. Those 42 isolates representing ten fungi include: Trichoderma sp. (the most common), two species of Alternaria, Rhizopus arrhizus and 6 sterile mycelia. The ten fungi were grown in liquid culture and their crude extracts were tested against pathogenic bacteria and fungi. Nine crude extracts gave positive reactions against pathogenic bacteria of which Alternaria sp. (A8) was chosen further study. The fungal isolate was growing as sterile mycelium and was identified by phylogenetic analyses based on LSU rDNA sequence data and it might represent undescribed species of Alternaria. Sixty-two bioactive chemical compounds were identified from the ethyl acetate crude extracts of Alternaria sp., of which the following were recorded as major compounds in the active sub-fractions. These compounds showed strong antibacterial activity in combination.     

盐角草内生真菌分离鉴定及抑制水产腐败细菌菌株的筛选

盐角草是一种耐盐植物,有重要的食用、药用价值.为研究盐角草的内生真菌及其活性次生代谢产物的多样性,该文对采集于广西北部湾沿海盐角草的内生真菌进行分离纯化,采用RAPD对内生真菌多样性进行分析,采用ITS基因序列对内生真菌进行鉴定,并对内生真菌提取物抑制等3种水产腐败细菌的活性进行筛选.结果表明:(1)从北部湾盐角草植物...     

Assessment of diversity,distribution and antibacterial activity of endophytic fungi isolated from a medicinal plant <Emphasis Type="Italic">Adenocalymma alliaceum</Emphasis> Miers

A study was conducted for isolation, identification and antibacterial potential of fungal endophytes of Adenocalymma alliaceum Miers., (Bignoniaceae), a medicinal shrub vine plant which has long history for its usages in curing various disorders. A total of 149 isolates of endophytic fungi representing 17 fungal taxa were obtained from 270 segments (90 from each stem, leaf and petiole) of this plant. Hyphomycetes (77.85%) were the most prevalent, followed by Ascomycetes (8.05%) and Coelomycetes (4.03%) respectively. A considerable amount of fungal isolates was kept under (10.07%) Mycelia-Sterilia (MS). Leaf harboured maximum colonization of endophytic fungi (72.22%) which was greater than stem (67.78%) and petiole (25.54%). The Jc similarity index was maximum (0.619) between stem vs leaf followed by leaf vs petiole (0.571) and stem vs petiole (0.428). The dominant endophytic fungi were Alternaria alternata, Aspergillus niger, Stenella agalis, Fusarium oxysporum, Curvularia lunata and Fusarium roseum. Among twelve endophytic fungi tested for antibacterial activity, crude extracts of nine endophytic fungi (75%), showed antibacterial potential against one or more clinical human pathogens. Alternaria alternata, Curvularia lunata, Penicillium sp. and Chaetomium globosum exhibited significant antibacterial activity against 4 of 5 tested pathogens, showing broad spectrum activity. This investigation explains the value of sampling from different tissues of a host plant for the greater species diversity, and additionally, the antibacterial screening of some endophytic fungi from this specific medicinal plant may represent a unique source for many of the useful antibacterial compounds.     

云南元江干热河谷五种优势植物的内生真菌多样性

从蔓草虫豆（Atylosia scarabaeoides）、余甘子（Phyllanthus emblica）和黄花稔（Sida acuta）等5种云南元江干热河谷植物的525个组织块中,共分离得到内生真菌371株,内生真菌的分离频率在0.61～0.92之间,且所有植物叶内生真菌的分离频率都明显高于茎（P<0.05）。经形态学鉴定,内生真菌分属于拟茎点霉属（Phomopsis sp.）、离蠕孢属（Bipolaris sp.）和交链孢属（Alternaria sp.）等32个分类单元。拟茎点霉属为干热河谷植物优势内生真菌属,从所有被调查植物的茎叶中都分离得到该属真菌,且相对分离频率高达12.90%～50.54%。内生真菌群落组成的多样性和相似性分析结果表明,云南元江干热河谷植物内生真菌多样性偏低、宿主专一性较小。     

Chemical evaluation and antibacterial activity of novel bioactive compounds from endophytic fungi in Nelumbo nucifera

The objective of this study was to characterize an endophytic fungi producing-bioactive compound from the aquatic plant, Nelumbo nucifera. All parts of such plant were cleaned with surface sterilization technique and cultured on potato dextrose agar to isolate endophytic fungi. The identification was characterized by morphological and molecular technique. Fungal isolates were screened to discover antimicrobial activities by disc diffusion method against Methicillin-resistant Staphylococcus aureus DMST20651 (MRSA). MIC and MBC for those crude fungal extracts were determined. Finally, the chemical profile of crude extract was determined by gas chromatography and mass spectrometry. Six endophytic fungi were isolated from the surface-satirized parts of N. nucifera. Based on disc diffusion assay, the highest antibacterial activity against MRSA was isolate ST9.1 identified as Aspergillus cejpii. Results demonstrated that the ethyl acetate extraction had more active fractions with MIC of 2.5 mg/ml and MBC concentration of 50.0 mg/ml. The crude extracts were developed to identify the chemical constituents by gas chromatography and mass spectrometry. The major component of crude extract of endophytic fungi was 5-(1H-Indol-3-yl)-4,5-dihydro-[1,2,4]triazin-3-ylamine (C₁₁H₁₁N₅). Thus, the plant could be used in the treatment of infectious diseases caused by bacterial pathogen.     

Endophytic fungi from the root tubers of medicinal plant Stephania dielsiana and their antimicrobial activity

The adverse effects of chemical synthetic fungicides on agricultural fields and the environment are driving a need to search for safer and less environmentally harmful plant protectants to move toward more sustainable development of agriculture. The endophytic fungal community associated with the medicinal plant Stephania dielsiana, and its potential for providing antimicrobial secondary metabolites were investigated. A total of 26 isolates of endophytic fungi were obtained, and 21 isolates were identified and classified into eight different genera, including Briansuttonomyces, Glomerella, Pleosporales, Diaporthe, Phoma, Penicillium, Periconia and Colletotrichum, and the most frequent endophytic species obtained were Diaporthe phaseolorum, Penicillium sp., Periconia igniari and Colletotrichum sp. The ethyl acetate (EtOAc) extract of the endophytic fungus Diaporthe phaseolorum Stdif6 displayed the most significant antifungal activity against all tested phytopathogens, with EC₅₀ values ranging from 0.0138 to 0.3103 mg/mL. While the EtOAc extract of the endophytic fungus Penicillium sp. Stdif9 exhibited greater potential for antibacterial activity, with the minimum inhibitory concentration (MIC) values against seven bacteria ranging from 1.25 to 6 mg/mL. The remarkable antimicrobial activity of fungal endophytes suggests that fungal endophytes harbored inside the root tubers of S. dielsiana hold great promise as biocontrol agents against a broad spectrum of economically significant pathogens.     

芍药内生真菌的鉴定及产生活性次生代谢产物的评估

【目的】研究药用植物芍药(Paeonia lactiflora Pall.)内生真菌的种群多样性,同时对其可能存在的聚酮合酶(Polyketide synthase,PKS)和非核糖体多肽合成酶(Non-ribosomal peptide synthetase,NRPS)基因多样性进行评估,预测芍药内生真菌产生活性次生代谢产物的潜力。【方法】采用组织分离法获得芍药根部内生真菌菌株,结合形态学特征和ITS序列分析,进行鉴定;利用兼并性引物对内生真菌中存在的聚酮合酶(PKS)基因和非核糖体多肽合成酶(NRPS)基因进行PCR扩增及序列测定分析,构建系统发育树,明确芍药内真菌PKS基因序列和NRPS基因序列的系统进化地位。【结果】从芍药组织块中共分离得到105株内生分离物,去重复后获得52株内生真菌,菌株ITS基因序列信息显示,52株芍药内生真菌隶属于7目、13科、15属,其中小球腔菌属(Leptosphaeria)、土赤壳属(Ilyonectria)和镰孢属(Fusarium)为优势种群;从52株内生真菌中筛选获得13株含PKS基因片段的菌株,8株含NRPS基因片段的菌株,部分菌株功能基因的氨基酸序列与Gen Bank中已知化合物的合成序列具有一定的同源性,预示芍药根部内生真菌具有合成丰富多样的次生代谢产物的潜力。【结论】药用植物芍药根部具有丰富的内生真菌资源,且具有产生活性次生代谢产物的潜力,值得进一步开发研究和应用。     

白及内生真菌多样性研究

白及( Bletilla striata)是兰科地生型多年生植物,也是我国传统中药材之一。利用菌根技术进行白及的保护和人工栽培,需要获得白及可培养的内生真菌。该研究以广西野生的白及根和叶为材料,采用分离培养法分离内生真菌,并结合真菌形态特征,及其核糖体的转录间隔区( ITS)序列分析,确定内生真菌的分类地位。结果表明：从2株白及植物90块组织中分离获得37株内生真菌,鉴定为15个分类单元,由9个属组成,分属于2门4纲7目8科,包括锤舌菌纲( Leotiomycetes)、座囊菌纲( Dothideomycetes)和粪壳菌纲( Sordariomy-cetes),伞菌纲( Agaricomycetes)。从根中分离获得内生真菌12种,蜡壳菌属为优势属;从叶中分离获得内生真菌3种,刺盘孢属为优势属;刺盘孢菌属( Colletotrichum)和蜡壳菌属( Sebacina)真菌的相对多度值均达到20％;4株担子菌均分布于根中,叶组织中未有分布。根组织中内生真菌的多样性指数(H＝1.863)高于叶组织(1.098)。该研究结果及其所分离培养的担子菌类真菌,为更好地利用菌根技术进行白及等兰科植物资源的保护与可持续利用奠定了基础。     

Identification of Hortaea werneckii Isolated from Mangrove Plant Aegiceras comiculatum Based on Morphology and rDNA Sequences

Hortaea werneckii is a black yeast-like ascomycetous fungi associated with the human superficial infection tinea nigra, which commonly occurs in tropical and subtropical countries. Now, this fungus has been found in the halophilic environment all over the world and recognized as a new model organism in exploring the mechanisms of salt tolerance in eukaryotes. During a survey of endophytic fungi of mangrove forest at South China Sea, two isolates of H. werneckii were recovered from medicinal plant of Aegiceras comiculatum. The isolates were identified by morphological characters and phylogenetic analyses (e.g., ITS rDNA, LSU rDNA and translation elongation factor EF1α). Some physiological tests such as thermotolerance, acid tolerance (pH) and NaCl tolerance as well as pathogenicity test in vitro for the strains of Hortaea were performed. It is the first report that H. werneckii was isolated from medicinal plant of A. comiculatum in south sea of China as the endophytic fungi.     

Impact of environmental variables on the isolation,diversity and antibacterial activity of endophytic fungal communities from Madhuca indica Gmel. at different locations in India

A total of 1,897 isolates of endophytic fungi from Madhuca indica Gmel., representing 40 morphologically distinct fungal taxa were obtained from 2,700 segments of stem, bark and leaf from three different locations (Loc 1, Loc 2 and Loc 3) in Uttar Pradesh, India. Out of 40 taxa, 28 were identified microscopically and the remaining 12 by molecular methods. Coelomycetes (62.41 %) were the most prevalent fungal group followed by hyphomycetes (28.89 %) and ascomycetes (8.70 %). Colonisation frequency (CF) was greater in stem (82.55 %) than in leaf (65.00 %) and bark (63.22 %). Due to the dominance of a few taxa, species richness and Shannon and Simpson diversity indices were lower in stem than in leaf and bark at each location. Interestingly, less rainfall and lower temperatures disfavoured the overall colonisation of fungal endophytes at Loc 2. The stem samples from all locations were very similar in their endophytic composition, whereas bark and leaf samples showed differences. The dominant endophytic fungi isolated were Phomopsis sp. 1 (9.185 %), and Colletotrichum gloeosporioides (7.00 %). Principal component analysis showed 55 % tissue specificity with 51.08 % maximum variance. Antibacterial activity revealed that 58.33 % endophytic fungi were active against at least one or more bacterial pathogens, whereas the crude extract of five endophytic fungi inhibited the growth of five or more than five (50 %) of the pathogens tested. This report illustrates the value of having an adequate sample size from different tissues and different locations for species and chemical diversity in search of novel natural products.     

Diversity and biocontrol potential of endophytic fungi in Brassica napus

This study was conducted to isolate endophytic fungi from oilseed rape (Brassica napus), to identify the fungal endophytes based on morphology and ITS (ITS1-5.8S rDNA-ITS2) sequences, and to evaluate their efficacy in suppression of the plant pathogenic fungi Sclerotinia sclerotiorum and Botrytis cinerea. Selected endophytic fungal isolates were further tested for promoting growth of oilseed rape in potting experiments. A total of 97 endophytic fungal isolates were obtained from roots (35), stems (49) and leaves (13) of B. napus. Forty fungal species were identified and most species (80%) belong to Ascomycota. The species composition is highly diversified with Simpson’s diversity index reaching 0.959. Alternaria alternata is the dominant species accounting for 12.4% of the isolates. Twenty-four isolates exhibited antifungal activity against S. sclerotiorum in dual cultures on potato dextrose agar forming inhibition zones of 3–17 mm in width. The culture filtrates of Aspergillus flavipes CanS-34A, Chaetomium globosum CanS-73, Clonostachys rosea CanS-43 and Leptosphaeria biglobosa CanS-51 in potato dextrose broth exhibited consistent and effective suppression of oilseed rape leaf blight caused by S. sclerotiorum. Fusarium oxysporum CanR-46 was detected capable of production of volatile organic compounds highly inhibitory to S. sclerotiorum and B. cinerea. Moreover, A. alternata CanL-18, Fusarium tricinctum CanR-70 and CanR-71r, and L. biglobosa CanS-51 exhibited growth-promoting effects on oilseed rape. These results suggest that B. napus harbors diversified endophytic fungi, from which potential biocontrol agents against S. sclerotiorum and B. cinerea, and for promoting growth of B. napus can be screened.     

The diversity, antimicrobial and anticancer activity of endophytic fungi associated with the medicinal plant Stryphnodendron adstringens (Mart.) Coville (Fabaceae) from the Brazilian savannah

The diversity and biological activities of the endophytic fungi associated with the Brazilian medicinal plant Stryphnodendron adstringens were studied. A total of 320 fungal isolates were obtained, and 66 phylotypes comprising 25 genera were identified. The fungal community of S. adstringens displayed high richness, diversity and low dominance indices. The most abundant phylotypes were closely related to Diaporthe phaseolorum, Guignardia camelliae, and Preussia pseudominima. Sixteen fungal extracts displayed biological activities when screened against bacteria, fungi, cancer cell lines, and amastigote forms of Leishmania amazonensis. The extract of phylotype Nigrospora cf. oryzae exhibited a selective antifungal activity and inhibited the growth of Candida albicans and Cladosporium sphaerospermum. The extracts of Diaporthe cf. phaseolorum and Xylaria sp. phylotypes displayed anticancer activities. Our results indicate that the endophytes associate with this medicinal plant may be a source for novel drugs.     

Diverse non-mycorrhizal fungal endophytes inhabiting an epiphytic,medicinal orchid (<Emphasis Type="Italic">Dendrobium nobile</Emphasis>): estimation and characterization

Although the terrestrial and temperate orchids–fungal biology have been largely explored, knowledge of tropical epiphytic orchids–fungus relationships, especially on the ecological roles imparted by non-mycorrhizal fungal endophytes, is less known. Exploitation of the endophytic fungal mycobiota residing in epiphytic orchid plants may be of great importance to further elucidate the fungal ecology in this special habitat as well as developing new approaches for orchid conversations. The composition of fungal endophytes associated with leaves, stems and roots of an epiphytic orchid (Dendrobium nobile), a famous Chinese traditional medicinal plant, was investigated. Microscopic imaging, culture-dependant method and molecular phylogeny were used to estimate their entity and diversity. Totally, there were 172 isolates, at least 14 fungal genera and 33 different morphospecies recovered from 288 samples. Ascomycetes, coelomycetes and hyphomycetes were three major fungal groups. There were higher overall colonization and isolation rates of endophytic fungi from leaves than from other tissues. Guignardia mangiferae was the dominant fungal species within leaves; while the endophytic Xylariaceae were frequently observed in all plant tissues; Colletotrichum, Phomopsis and Fusarium were also frequently observed. Phylogenetic analysis based on ITS gene revealed the high diversity of Xylariacea fungi and relatively diverse of non-Xylariacea fungi. Some potentially promising beneficial fungi such as Clonostachys rosea and Trichoderma chlorosporum were found in roots. This is the first report concerning above-ground and below-ground endophytic fungi community of an epiphytic medicinal orchid, suggesting the ubiquitous distribution of non-mycorrhizal fungal endophytes in orchid plants together with heterogeneity and tissue specificity of the endophyte assemblage. Possible physiological functions played by these fungal endophytes and their potential applications are also discussed briefly. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

云南会泽铅锌矿废弃矿渣堆常见植物内生真菌多样性

从云南会泽铅锌矿废弃矿渣堆上的常见植物硬毛南芥(Arabis hirsuta)、毛萼香茶菜(Rabbosia eriocalyx)和倒挂刺(Rosa longicuspis)等6种植物的690个组织块中共分离得到内生真菌495株,内生真菌的分离频率在0.42—0.93之间,平均为0.72,所有植物茎内生真菌的分离频率都明显高于叶(P<0.05)。经形态学鉴定,内生真菌分属于茎点霉属(Phoma)、交链孢属(Alternaria)和派伦霉属(Peyronellaea)等20个分类单元,其中茎点霉属和派伦霉属为该废弃矿渣堆上常见植物的优势内生真菌属。6种植物内生真菌的多样性指数在1.05—2.29之间,与其它非重金属污染环境植物内生真菌的多样性指数相似,说明在重金属污染地区仍然存在多种重金属耐受的内生真菌种类。6种植物内生真菌的相似性系数(0.455—0.833)表明,会泽铅锌矿区植物内生真菌的宿主专一性较小。     

Molecular phylogeny,diversity, symbiosis and discover of bioactive compounds of endophytic fungi associated with the medicinal Amazonian plant Carapa guianensis Aublet (Meliaceae)

We investigated the endophytic fungal community associated with the Amazonian medicinal plant Carapa guianensis and its potential for providing bioactive compounds. A total of 162 endophytic fungal isolates were obtained and identified by molecular methods. These isolates were classified into 35 different taxa in the genera Aspergilllus, Beltrania, Botryosphaeria, Colletotrichum, Diaporthe, Endomelanconiopsis, Fusarium, Guignardia, Pestalotiopsis, Phomopsis, Pilidiella, Trichoderma, and Xylaria. The most frequent colonisers recovered of C. guianensis were Colletotrichum sp. 1, Diaporthe cf. mayteni, and Pestalotiopsis sp. 1. The fungal community had a moderate richness but high diversity and evenness indices. Colletotrichum sp. and Pilidiella wangiensis displayed selective antibacterial activity; Diaporthe cf. mayteni and Endomelanconiopsis endophytica showed high activity against amastigote forms of Trypanosoma cruzi; and Colletrotrichum sp. Guignardia mangiferae, Pestalotiopsis sp., and Diaporthe melonis were able to inhibit yellow fever virus proliferation. Our results suggest that the plants living in the tropical forest, such as the Amazonian hotspot region, can live in symbiosis with hidden and underestimated rich communities of endophytic fungi, which deserve protocols and/or specific laws to keep its future conservation. The capability of these endophytic fungi to produce bioactive compounds may be part of their chemical defense and adaptive response to survive and colonizing the plant host in wild environment. Consequently, these fungal communities may provide a source of bioactive molecules, including those able to inhibit or control neglected tropical diseases.     

Isolation and characterization of endophytic huperzine A-producing fungi from Huperzia serrata

Huperzia serrata is a producer of huperzine A (HupA), a cholinesterase inhibitor (ChEI). Over 120 endophytic fungi were recovered from this plant and screened for Hup-A and nine were found. These nine represented seven different fungal genera with the most significant producer being Shiraia sp. A total of 127 endophytic fungi isolates obtained from the root, stem, and leaf segments of H. serrata were grouped into 19 genera based on their morphological traits and sequence analysis of the internal transcribed spacers (ITS1-5.8S-ITS2), indicating endophytic fungi in H. serrata are diverse and abundant. Aspergillus, Podospora, Penicillium, Colletotrichum, and Acremonium were the frequent genera, whereas the remaining genera were infrequent groups. Overall, 39 endophytic fungi isolates showed acetylcholinesterase (AChE) inhibition in vitro. Nine endophytic fungi isolates from seven distinct genera were capable of producing HupA verified by thin-layer chromatography and reverse-phase high-performance liquid chromatography (RP-HPLC). Among the HupA-producing fungi, the yield of HupA produced by the Shiraia sp. Slf14 was 327.8 μg/l in potato dextrose broth, and the fungal HupA was further validated by mass spectrometry (ESI-MS). The present study demonstrated that H. serrata was a fascinating fungal reservoir for producing HupA and other ChEIs.     

Psychrophilic endophytic fungi with biological activity inhabit Cupressaceae plant family

Psychrophilic microorganisms are cold-adapted organisms that have an optimum growth temperature below 15 °C, and often below 5 °C. Endophytic microorganisms live inside healthy plants and biosynthesize an array of secondary metabolites which confer major ecological benefits to their host. We provide information, for the first time, on an endophytic association between bioactive psychrophilic fungi and trees in Cupressaceae plant family living in temperate to cold, semi-arid habitats. We have recovered psychrophilic endophytic fungi (PEF) from healthy foliar tissues of Cupressus arizonica, Cupressus sempervirens and Thuja orientalis (Cupressaceae, Coniferales). In total, 23 such fungi were found out of 110 endophytic fungal isolates. They were identified as ascomycetous fungi, more specifically Phoma herbarum, Phoma sp. and Dothideomycetes spp., all from Dothideomycetes. The optimal growth temperature for all these 23 fungal isolates was 4 °C, and the PEF isolates were able to biosynthesize secondary metabolite at this temperature. Extracted metabolites from PEF showed significant antiproliferative/cytotoxic, antifungal and antibacterial effects against phytopathogenic fungi and bacteria. Of special interest was their antibacterial activity against the ice-nucleation active bacterium Pseudomonas syringae. Accordingly, we suggest that evergreen Cupressaceae plants may benefit from their psychrophilic endophytic fungi during cold stress. Whether such endosymbionts confer any ecological and evolutionary benefits to their host plants remains to be investigated in vivo.