Abstract
Microorganisms are proficient synthesizers of natural product molecules that are often bioactive and a source of various antibiotics and other pharmaceutical agents. The demand for new bioactive molecules is ever-increasing due to the emergence of new diseases, novel pathogens, and drug-resistant microbes. It is imperative to extend our search for molecules with novel bioactivities from unique and unexplored niches. Since the discovery of microbial Taxol (1), from a fungus inhabiting the tissues of Taxus brevifolia, endophytes, the microbes living within the plant tissues in mutualistic associations, have become an important source for the discovery of bioactive molecules. Since the endophytic associations are plant-specific, each plant forms a unique niche for the accumulation of a specific set of microbial species. The endophytes also pass through various stages of evolution within the plant system to evolve their natural product arsenal. Consequently, numerous plants are being analysed for the isolation and characterization of their endophytes for bioactive molecules and enzymes. Here, we report the progress of research and the current status of endophyte biology and biochemistry for the production of bioactive natural products.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Ahmad T, Arora P, Nalli Y, Ali A, Riyaz-Ul-Hassan S (2020) Antibacterial potential of juglomycin isolated from Streptomyces achromogenes, an endophyte of Crocus sativus Linn. J Appl Microbiol 128(5):1366–1377
Arnison PG, Bibb MJ, Bierbaum G, Bowers AA, Bugni TS, Bulaj G, Camarero JA, Campopiano DJ, Challis GL, Clardy J (2013) Ribosomally synthesized and post-translationally modified peptide natural products: overview and recommendations for a universal nomenclature. Nat Prod Rep 30(1):108–160
Arora P, Wani ZA, Nalli Y, Ali A, Riyaz-Ul-Hassan S (2016) Antimicrobial potential of thiodiketopiperazine derivatives produced by Phoma sp., an endophyte of Glycyrrhiza glabra Linn. Microb Ecol 72(4):802–812
Bara R, Aly AH, Wray V, Lin W, Proksch P, Debbab A (2013) Talaromins a and B, new cyclic peptides from the endophytic fungus Talaromyces wortmannii. Tetrahedr Lett 54(13):1686–1689
Bashir A, Ahmad T, Farooq S, Lone WI, Manzoor MM, Nalli Y et al (2022) A secondary metabolite of Cercospora sp., associated with Rosa damascena mill., inhibits proliferation, biofilm production, ergosterol synthesis and other virulence factors in Candida albicans. Microb Ecol 85(4):1276–1287
Bentley SD, Chater KF, Tarraga AMC et al (2002) Complete genome sequence of the model actinomycete Streptomyces coelicolor A3 (2). Nature 417:141–147
Berdy J (2012) Thoughts and facts about antibiotics: where we are now and where we are heading. J Antibiot 65:385–395
Bhagat J, Kaur A, Chadha BS (2016) Single step purification of asparaginase from endophytic bacteria pseudomonas oryzihabitans exhibiting high potential to reduce acrylamide in processed potato chips. Food Bioprod Process 99:222–230
Bode HB, Bethe B, Hofs R, Zeeck A (2002) Big effects from small changes; possible ways to explore nature’s chemical diversity. Chembiochem 3:619–627
Bok JW, Hoffmeister D, Maggio-Hal LA, Murillo R, Glasner JD, Keller NP (2006) Genomics mining for Aspergillus natural products. Chem Biol 13(1):31–37
Canova SP, Petta T, Reyes LF, Zucchi TD, Moraes LA, Melo IS (2010) Characterization of lipopeptides from Paenibacillus sp.(iirac30) suppressing Rhizoctonia solani. World J Microbiol Biotechnol 26(12):2241–2247
Castillo UF, Strobel GA, Ford EJ, Hess WM, Porter H, Jensen JB, Albert H, Robison R, Condron MAM, Teplow DB, Stevens D, Yaver D (2002) Munumbicins, wide-spectrum antibiotics produced by Streptomyces NRRL 30562, endophytic on Kennedia nigriscans. Microbiology 148(9):2675–2685
Castillo U, HarperJK SGA, Sears J, Alesi K, Ford E, Lin J, Hunter M, Maranta M, Ge H (2003) Kakadumycins, novel antibiotics from Streptomyces sp. NRRL 30566, an endophyte of Grevillea pteridifolia. FEMS Microbiol Lett 224(2):183–190
Chen YM, Yang YH, Li XN, Zou C, Zhao PJ (2015) Diterpenoids from the endophytic fungus Botryosphaeria sp. P483 of the Chinese herbal medicine Huperzia serrata. Molecules 20(9):16924–16932
Chen HY, Liu TK, Shi Q, Yang QL (2019) Sesquiterpenoids and diterpenes with antimicrobial activity from Leptosphaeria sp. Xl026, an endophytic fungus in Panax notoginseng. Fitoterapia 137:104243
Chen C, Ye G, Tang J, Li J, Liu W, Wu L, Long Y (2022) New polyketides from mangrove endophytic fungus Penicillium sp. BJR-P2 and their anti-inflammatory activity. Mar Drugs 20(9):583
Chomcheon P, Wiyakrutta S, Aree T, Sriubolmas N, Ngamrojanavanich N, Mahidol C, Ruchirawat S, Kittakoop P (2010) Curvularides A–E: antifungal hybrid peptide–polyketides from the endophytic fungus Curvularia geniculata. Chemistry 16(36):11178–11185
Corre C, Challis GL (2009) New natural product biosynthetic chemistry discovered by genome mining. Nat Prod Rep 26:977–986
Crawford JM, Townsend CA (2010) New insights into the formation of fungal aromatic polyketides. Nat Rev Microbiol 8(12):879–889
Cui Y, Yi D, Bai X, Sun B, Zhao Y, Zhang Y (2012) Ginkgolide B produced endophytic fungus (Fusarium oxysporum) isolated from Ginkgo biloba. Fitoterapia 83(5):913–920
Deshmukh SK, Mishra PD, Kulkarni-Almeida A, Verekar S, Sahoo MR, Periyasamy G, Goswami H, Khanna A, Balakrishnan A, Vishwakarma R (2009) Anti-inflammatory and anticancer activity of ergoflavin isolated from an endophytic fungus. Chem Biodivers 6(5):784–789
Deshmukh SK, Dufossé L, Chhipa H, Saxena S, Mahajan GB, Gupta MK (2022) Fungal endophytes: a potential source of antibacterial compounds. J Fungi 8(2):164
Devari S, Jaglan S, Kumar M, Deshidi R, Guru S, Bhushan S, Kushwaha M, Gupta AP, Gandhi SG, Sharma JP (2014) Capsaicin production by Alternaria alternata, an endophytic fungus from Capsicum annum; LC–ESI–MS/MS analysis. Phytochemistry 98:183–189
Dissanayake RK, Ratnaweera PB, Williams DE, Wijayarathne CD, Wijesundera RL, Andersen RJ, de Silva ED (2016) Antimicrobial activities of endophytic fungi of the Sri Lankan aquatic plant Nymphaea nouchali and chaetoglobosin a and C, produced by the endophytic fungus Chaetomium globosum. Mycology 7(1):1–8
Ebrahim W, Kjer J, El Amrani M, Wray V, Lin W, Ebel R, Lai D, Proksch P (2012) Pullularins E & F, two new peptides from the endophytic fungus Bionectria ochroleuca isolated from the mangrove plant Sonneratia caseolaris. Mar Drugs 10(5):1081–1091
Elias LLM, Fortkamp D, Sartori SB, Ferreira MC, Gomes LC, Azevedo JL, Montoya QV, Rodrigues A, Ferreira AG, Lira SP (2018) The potential of compounds isolated from Xylaria spp. as antifungal agents against anthracnose. Braz J Microbiol 49:840–847
Ezra D, Castillo UF, Strobel GA, Hess WM, Porter H, Jensen JB, Condron MA, Teplow DB, Sears J, Maranta M (2004) Coronamycins, peptide antibiotics produced by a verticillate Streptomyces sp. (MSU-2110) endophytic on Monstera sp. Microbiology 150(4):785–793
de FelÃcio R, Pavão GB, de Oliveira ALL, Erbert C, Conti R, Pupo MT, Furtado NA, Ferreira EG, Costa-Lotufo LV, Young MCM (2015) Antibacterial, antifungal and cytotoxic activities exhibited by endophytic fungi from the brazilian marine red alga Bostrychia tenella (ceramiales). Rev Bras Farmacogn Rev 25(6):641–650
Fischbach MA, Walsh CT (2006) Assembly–line enzymology for polyketide and non-ribosomal peptide antibiotics: logic, machinery, and mechanisms. Chem Rev 106:3468–3496
Fleischmann RD, Adams MD, White O, Clayton RA, Kirkness EF, Kerlavage AR, Bult CJ, Tomb JF, Dougherty BA, Merrick JM, McKenney K (1995) Whole genome random sequencing and assembly of Haemophilus influenza Rd. Science 28:269. (5223)
Gandji K, Chadare F, Idohou R, Salako V, Assogbadjo A, Kakaï RG (2018) Status and utilization of Moringa oleifera lam: a review. Afr Crop Sci J 26(1):137–156
Gao SS, Li XM, Li CS, Proksch P, Wang BG (2011) Penicisteroids a and B, antifungal and cytotoxic polyoxygenated steroids from the marine alga-derived endophytic fungus Penicillium chrysogenum QEN-24S. Bioorgan Med Chem Lett 21(10):2894–2897
Guo B, Li H, Zhang L (1998) Isolation of an fungus producting vinblastine. J Yunnan Univ (Nat Sci) 20(3):214–215
Howitz KT, Sinclair DA (2008) Xenohormesis: sensing the chemical cues of other species. Cell 133(3):387–391
Hu Z, Tao Y, Tao X, Su Q, Cai J, Qin C, Ding W, Li C (2019) Sesquiterpenes with phytopathogenic fungi inhibitory activities from fungus Trichoderma virens from Litchi chinensis sonn. J Agric food Chem 67(38):10646–10652
Huang H, She Z, Lin Y, Vrijmoed L, Lin W (2007) Cyclic peptides from an endophytic fungus obtained from a mangrove leaf (Kandelia candel). J Nat Prod 70(11):1696–1699
Huang S, Chen H, Li W, Zhu X, Ding W, Li C (2016) Bioactive chaetoglobosins from the mangrove endophytic fungus Penicillium chrysogenum. Mar Drug 14(10):172
Ikeda H, Ishikawa J, Hanamoto A, Shinose M, Kikuchi H, Shiba T, Sakaki Y, Hattori M, Ōmura S (2003) Complete genome sequence and comparative analysis of the industrial microorganism Streptomyces avermitilis. Nat Biotechnol 21(5):526–531
Isaka M, Jaturapat A, Rukseree K, Danwisetkanjana K, Tanticharoen M, Thebtaranonth Y (2001) Phomoxanthones a and B, novel xanthone dimers from the endophytic fungus Phomopsis species. J Nat Prod 64(8):1015–1018
Isaka M, Palasarn S, Tobwor P, Boonruangprapa T, Tasanathai K (2012) Bioactive anthraquinone dimers from the leafhopper pathogenic fungus Torrubiella sp. bcc 28517. J Antibiot 65(11):571–574
Jones CB, Clements MK, Wasi S, Daoud SS (1997) Sensitivity to Camptothecin of human breast carcinoma and normal endothelial cells. Cancer Chemother Pharmacol 40:475–483
Ju Z, Wang J, Pan S (2009) Isolation and preliminary identification of the endophytic fungi which produce hupzine a from four species in hupziaceae and determination of Huperzine a by HPLC. Fudan Univ J Med Sci 4:017
Keller NP (2019) Fungal secondary metabolism: regulation, function and drug discovery. Nat Rev Microbiol 17:167–180
Keller NP, Turner G, Bennett JW (2005) Fungal secondary metabolism-from biochemistry to genomics. Nat Rev Microbiol 3:937–947
Kharwar RN, Verma VC, Kumar A, Gond SK, Harper JK, Hess WM, Lobkovosky E, Ma C, Ren Y, Strobel GA (2009) Javanicin, an antibacterial naphthaquinone from an endophytic fungus of neem, Chloridium sp. Curr Microbiol 58:233–238
Kour A, Shawl AS, Rehman S, Sultan P, Qazi PH, Suden P, Khajuria RK, Verma V (2008) Isolation and identification of an endophytic strain of Fusarium oxysporum producing podophyllotoxin from Juniperus recurva. World J Microbiol Biotechnol 24:1115–1121
Kumar M, Qadri M, Sharma PR, Kumar A, Andotra SS, Kaur T, Kapoor K, Gupta VK, Kant R, Hamid A, Johri S (2013) Tubulin inhibitors from an endophytic fungus isolated from Cedrus deodara. J Nat Prod 76(2):194–199
Kumar S, Nalli Y, Qadri M, Riyaz-Ul-Hassan S, Satti NK, Gupta V, Bhushan S, Ali A (2017) Isolation of three new metabolites and intervention of diazomethane led to separation of compound 1 & 2 from an endophytic fungus, Cryptosporiopsis sp depicting cytotoxic activity. Med Chem Res 26(11):2900–2908
Kumara PM, Zuehlke S, Priti V, Ramesha BT, Shweta S, Ravikanth G, Vasudeva R, Santhoshkumar TR, Spiteller M, Uma SR (2012) Fusarium proliferatum, an endophytic fungus from Dysoxylum binectariferum Hook.F, produces rohitukine, a chromane alkaloid possessing anti-cancer activity. Antonie Van Leeuwenhoek 101(2):323–329
Kusari S, Lamshöft M, Zühlke S, Spiteller M (2008) An endophytic fungus from Hypericum perforatum that produces hypericin. J Nat Prod 71(2):159–162
Kusari S, Zühlke S, Spiteller M (2009) An endophytic fungus from Camptotheca acuminata that produces camptothecin and analogues. J Nat Prod 72(1):2–7
Kusari S, Hertweck C, Spiteller M (2012) Chemical ecology of endophytic fungi: origins of secondary metabolites. Chem Biol 19:792–798
Kusari S, Singh S, Jayabaskaran C (2014) Biotechnological potential of plant-associated endophytic fungi: hope versus hype. Trends Biotechnol 32:297–303
Lai D, Brötz-Oesterhelt H, Müller WE, Wray V, Proksch P (2013) Bioactive polyketides and alkaloids from Penicillium citrinum, a fungal endophyte isolated from Ocimum tenuiflorum. Fitoterapia 91:100–106
Lee JC, Yang X, Schwartz M, Strobel G, Clardy J (1995) The relationship between an endangered north American tree and an endophytic fungus. Chem Biol 2(11):721–727
Li HJ, Lin YC, Yao JH, Vrijmoed L, Jones RG (2004) Two new metabolites from the mangrove endophytic fungus no. 2524. J Asian Nat Prod Res 6(3):185–191
Li HQ, Li XJ, Wang YL, Zhang Q, Zhang AL, Gao JM, Zhang XC (2011) Antifungal metabolites from Chaetomium globosum, an endophytic fungus in Ginkgo biloba. Biochem Syst Ecol 4(39):876–879
Li XJ, Zhang Q, Zhang AL, Gao JM (2012) Metabolites from Aspergillus fumigates, an endophytic fungus associated with Melia azedarach and their antifungal, antifeedant, and toxic activities. J Agric Food Chem 60(13):3424–3431
Li W, Yang X, Yang Y, Duang R, Chen G, Li X, Li Q, Qin Q, Li S, Zhao L (2016) Anti-phytopathogen, multi-target acetylcholinesterase inhibitory and antioxidant activities of metabolites from endophytic Chaetomium globosum. Nat Prod Res 30(22):2616–2619
Liberra K, Jansen R, Lindequist U (1998) Corollosporine, a new phthalide derivative from the marine fungus Corollospora maritima Werderm. 1069. Pharmazie 53(8):578–581
Liu H, Chen S, Liu W, Liu Y, Huang X, She Z (2016) Polyketides with immunosuppressive activities from mangrove endophytic fungus Penicillium sp. ZJ-SY2. Mar Drugs 14(12):217. https://doi.org/10.3390/md14120217
Luo X, Yang J, Chen F, Lin X, Chen C, Zhou X, Liu S, Liu Y (2018) Structurally diverse polyketides from the mangrove-derived fungus Diaporthe sp. Scsio 41011 with their anti-influenza A virus activities. Front Chem 6:282
Manganyi MC, Tchatchouang CDK, Regnier T, Bezuidenhout CC, Ateba CN (2019) Bioactive compound produced by endophytic fungi isolated from pelargonium sidoides against selected bacteria of clinical importance. Mycobiology 47(3):335–339
Marfori EC, Bamba T, Kajiyama SI, Fukusaki EI, Kobayashi A (2002) Biosynthetic studies of the tetramic acid antibiotic trichosetin. Tetrahedron 58(33):6655–6658
Ming Q, Han T, Li W, Zhang Q, Zhang H, Zheng C, Huang F, Rahman K, Qin L (2012) Tanshinone IIa and tanshinone I production by Trichoderma atroviride D16, an endophytic fungus in salvia miltiorrhiza. Phytomedicine 19(3–4):330–333
Mou QL, Yang SX, Xiang T, Liu WW, Yang J, Guo LP et al (2021) New cytochalasan alkaloids and cyclobutane dimer from an endophytic fungus Cytospora chrysosperma in Hippophae rhamnoides and their antimicrobial activities. Tetrahedron Lett 87:153207
Mousa WK, Raizada MN (2013) The diversity of anti-microbial secondary metabolites produced by fungal endophytes: an interdisciplinary perspective. Front Microbiol 4:65
Nalli Y, Mirza DN, Wani ZA, Wadhwa B, Mallik FA, Raina C, Riyaz-Ul-Hassan S, Ali A (2015) Phialomustin A–D, new antimicrobial and cytotoxic metabolites from an endophytic fungus, Phialophora mustea. RSC Adv 5(115):95307–95312
Nalli Y, Arora P, Wadhwa B, Malik FA, Vishwakarma RA, Gupta VK et al (2017) Diapolic acid A–B from an endophytic fungus, Diaporthe terebinthifolii depicting antimicrobial and cytotoxic activity. J Antibiot 70(2):212–215
Nalli Y, Arora P, Khan S, Malik F, Riyaz-Ul-Hassan S, Gupta V, Ali A (2019) Isolation, structural modification of macrophin from endophytic fungus Phoma macrostoma and their cytotoxic potential. Med Chem Res 28(3):260–266
Narayanan Z, Glick BR (2022) Secondary metabolites produced by plant growth-promoting bacterial endophytes. Microorganisms 10(10):2008
Naseer S, Bhat KA, Qadri M, Riyaz-Ul-Hassan S, Malik FA, Khuroo MA (2017) Bioactivity-guided isolation, antimicrobial and cytotoxic evaluation of secondary metabolites from Cladosporium tenuissimum associated with Pinus wallichiana. Chem Select 2(3):1311–1314
Oliynyk M, Samborskyy M, Lester J, Mironenko T, Scott N, Dickens S, Haydock SF, Leadlay PF (2007) Complete genome sequence of the erythromycin producing bacterium Saccharopolyspora erythraea NRRL 23338. Nat Biotechnol 25:447–453
Pan F, Su X, Hu B, Yang N, Chen Q, Wu W (2015) Fusarium redolens 6WBY3, an endophytic fungus isolated from Fritillaria unibracteata var. wabuensis, produces peimisine and imperialine-3β-d-glucoside. Fitoterapia 103:213–221
Pan R, Bai X, Chen J, Zhang H, Wang H (2019) Exploring structural diversity of microbe secondary metabolites using OSMAC strategy; a literature review. Front Microbiol 10:294
Pansanit A, Pripdeevech P (2018) Antibacterial secondary metabolites from an endophytic fungus, Arthrinium sp. MFLUCC16-1053 isolated from Zingiber cassumunar. Mycology 9:264–272
Pathania AS, Guru SK, Ashraf NU, Riyaz-Ul-Hassan S, Ali A, Tasduq SA, Malik F, Bhushan S (2015) A novel stereo bioactive metabolite isolated from an endophytic fungus induces caspase dependent apoptosis and stat-3 inhibition in human leukemia cells. Eur J Pharm 765:75–85
Paulsen IT, Press CM, Ravel J, Kobayashi DY, Myers GS, Mavrodi DV, DeBoy RT, Seshadri R, Ren Q, Madupu R, Dodson RJ, Durkin AS, Brinkac LM, Daugherty SC, Sullivan SA, Rosovitz MJ, Gwinn ML, Zhou L, Schneider DJ, Cartinhour SW, Nelson WC, Weidman J, Watkins K, Tran K, Khouri H, Pierson EA, Pierson LS 3rd, Thomashow LS, Loper JE (2005) Complete genome sequence of the plant commensal pseudomonas flourescens. Nat Biotechnol 24(4):873–878
Pulici M, Sugawara F, Koshino H, Uzawa J, Yoshida S, Lobkovsky E, Clardy J (1996a) A new isodrimeninol from Pestalotiopsis sp. J Nat Prod 59(1):47–48
Pulici M, Sugawara F, Koshino H, Uzawa J, Yoshida S, Lobkovsky E, Clardy J (1996b) Pestalotiopsins a and B: new caryophyllenes from an endophytic fungus of Taxus brevifolia. J Org Chem 61(6):2122–2124
Pulici M, Sugawara F, Koshino H, Okada G, Esumi Y, Uzawa J, Yoshida S (1997) Metabolites of Pestalotiopsis spp., endophytic fungi of Taxus brevifolia. Phytochemistry 46(2):313–319
Puri SC, Verma V, Amna T, Qazi GN, Spiteller M (2005) An endophytic fungus from Nothapodytes foetida that produces camptothecin. J Nat Prod 68:1717–1719
Puri SC, Nazir A, Chawla R, Arora R, Riyaz-Ul-Hasan S, Amna T, Ahmed B, Verma V, Singh S, Sagar R, Sharma A, Kumar R, Sharma RK, Qazi GN (2006) The endophytic fungus Trametes hirsuta as a novel alternative source of podophyllotoxin and related aryl tetralin lignans. J Biotechnol 122(4):494–510
Qadri M, Nalli Y, Jain SK, Chaubey A, Ali A, Strobel GA et al (2017) An insight into the secondary metabolism of Muscodor yucatanensis: small-molecule epigenetic modifiers induce expression of secondary metabolism-related genes and production of new metabolites in the endophyte. Microb Ecol 73:954–965
Qin J, Lyu A, Zhang QH, Yang L, Zhang J, Wu MD, Li GQ (2019) Strain identification and metabolites isolation of Aspergillus capensis CanS-34A from Brassica napus. Mol Biol Rep 46(3):3451–3460
Riyaz-Ul-Hassan S, Strobel GA, Booth E, Knighton B, Floerchinger C, Sears J (2012) Modulation of volatile organic compound formation in the Mycodiesel producing endophyte- Hypoxylon sp C1-4. Microbiology 158:464–473
Safwan S, Hsiao G, Lee TH, Lee CK (2021) Bioactive compounds from an endophytic fungi Nigrospora aurantiaca. Bot Stud 62(1):1–5
Sagita R, Quax WJ, Haslinger K (2021) Current state and future directions of genetics and genomics of endophytic fungi for bioprospecting efforts. Front Bioeng Biotechnol 9:649906
Scherlach K, Hertweck C (2009) Triggering cryptic natural product biosynthesis in microorganisms. Org Biomol Chem 7:1753–1760
Schmeda-Hirschmann G, Hormazabal E, Rodriguez JA, Theoduloz C (2008) Cycloaspeptide a and pseurotin a from the endophytic fungus Penicillium janczewskii. Z Naturforsch C J Biosci 63(5–6):383–388
Seto Y, Takahash KI, Matsuura H, Kogami Y, Yada H, Yoshihara T, Nabeta K (2007) Novel cyclic peptide, epichlicin, from the endophytic fungus, Epichloe typhina. Biosci Biotechnol Biochem 71(6):1470–1475
Shah A, Rather MA, Hassan QP, Aga MA, Mushtaq S, Shah AM, Hussain A, Baba SA, Ahmad Z (2017) Discovery of anti-microbial and anti-tubercular molecules from Fusarium solani: an endophyte of Glycyrrhiza glabra. J Appl Microbiol 122(5):1168–1176
Shiono Y, Tsuchinari M, Shimanuki K, Miyajima T, Murayama T, Koseki T, Laatsch H, Funakoshi T, Takanami K, Suzuki K (2007) Fusaristatins a and B, two new cyclic lipopeptides from an endophytic Fusarium sp. J Antibiot 60(5):309–316
Singh M, Kumar A, Singh R, Pandey KD (2017) Endophytic bacteria: a new source of bioactive compounds. 3 Biotech 7:1–14
Soliman SS, Greenwood JS, Bombarely A, Mueller LA, Tsao R, Mosser DD, Raizada MN (2015) An endophyte constructs fungicide-containing extracellular barriers for its host plant. Curr Biol 25(19):2570–2576
Sonaimuthu V, Johnpaul M (2010) Taxol (anticancer drug) producing endophytic fungi: an overview. Int J Pharm Bio Sci 1(3):BS31
Soujanya K, Siva R, Kumara PM, Srimany A, Ravikanth G, Mulani F, Aarthy T, Thulasiram H, Santhoshkumar T, Nataraja KN (2017) Camptothecin-producing endophytic bacteria from Pyrenacantha volubilis hook.(Icacinaceae): a possible role of a plasmid in the production of camptothecin. Phytomedicine 36:160–167
Sreekanth D, Sushim GK, Syed A, Khan BM, Ahmad A (2011) Molecular and morphological characterization of a taxol-producing endophytic fungus, Gliocladium sp., from Taxus baccata. Mycobiology 39(3):151–157
Staley JT, Castenholz RW, Colwell RR, Holt JG, Kane MD, Pace NR, Saylers AA, Tiedje JM (1997) The microbial world: foundation of the Biosphere. American Academy of Microbiology, Washington, DC
Staniek A, Woerdenbag HJ, Kayser O (2008) Endophytes: exploiting biodiversity for the improvement of natural product-based drug discovery. J Plant Interact 3:75–93
Stierle A, Strobel GA, Stierle DB (1993) Taxol and taxane production by Taxomyces andreanae, an endophytic fungus of Pacific yew. Science 260:214–216
Strobel G (2006) Harnessing endophytes for industrial microbiology. Curr Opin Microbiol 9:240–244
Strobel GA, Daisy B (2003) Bioprospecting for microbial endophytes and their natural products. Microbiol Mol Biol Rev 67(4):491–502
Strobel GA, Miller RV, Martinez-Miller C, Condron MM, Teplow DB, Hess WM (1999) Cryptocandin, a potent antimycotic from the endophytic fungus Cryptosporiopsis cf. quercina. Microbiol 145:1919–1926
Sumarah MW, Kesting JR, Sørensen D, Miller JD (2011) Antifungal metabolites from fungal endophytes of Pinus strobus. Phytochemistry 72(14–15):1833–1837
Udwary DW, Zeiger L, Asolkar RN, Singan V, Lapidus A, Fenical W, Jensen PR, Moore BS (2007) Genome sequencing reveals complex secondary metabolite in the marine actinomycete Salinispora tropica. PNAS 104:10376–10381
Verma VC, Lobkovsky E, Gange AC, Singh SK, Prakash S (2011) Piperine production by endophytic fungus Periconia sp. isolated from Piper longum L. J Antibiot 64:427–431
Vinale F, Nicoletti R, Lacatena F, Marra R, Sacco A, Lombardi N, d’Errico G, Digilio M, Lorito M, Woo S (2017) Secondary metabolites from the endophytic fungus Talaromyces pinophilus. Nat Prod Res 31(15):1778–1785
Wani ZA, Ashraf N, Mohiuddin T, Riyaz-Ul-Hassan S (2015) Plant endophyte symbiosis: an ecological perspective. Appl Microbiol Biotechnol 99:2955–2965
Wani ZA, Qardri M, Arora P, Hakeem KR (eds) (2022) Endophyte biology; recent findings from the Kashmir Himalayas. AAP, Taylor & Francis, New York
Weber D, Sterner O, Anke T, Gorzalczancy S, Martino V, Acevedo C (2004) Phomol, a new antiinflammatory metabolite from an endophyte of the medicinal plant Erythrina crista-galli. J Antibiot 57(9):559–563
Wei G, Tan D, Chen C, Tong Q, Li XN, Huang J, Liu J, Xue Y, Wang J, Luo Z (2017) Flavichalasines A–M, cytochalasan alkaloids from Aspergillus flavipes. Sci Rep 7(1):1–12
Wu PJ, Hsin IL, Hung WL, Lee MS, Wang PH, Ko JL (2022) Combination treatment with cyclosporin a and arsenic trioxide induce synergistic cell death via non-apoptotic pathway in uterine cervical cancer cells. Chem Biol Interact 368:110177
Xue M, Zhang Q, Gao JM, Li H, Tian JM, Pescitelli G (2012) Chaetoglobosin from endophytic Chaetomium globosum: absolute configuration of chaetoglobosins. Chirality 24(8):668–674
Xu Q, Qiao Y, Zhang Z, Deng Y, Chen T, Tao L, Xu Q, Liu J, Sun W, Ye Y, Lu Y, Qi C, Zhang Y (2021) New polyketides with anti-inflammatory activity from the fungus Aspergillus rugulosa. Front Pharmacol 12:700573. https://doi.org/10.3389/fphar.2021.700573
Zaher AM, Moharram AM, Davis R, Panizzi P, Makboul MA, Calderón AI (2015) Characterisation of the metabolites of an antibacterial endophyte Botryodiplodia theobromae pat. Of Dracaena draco l. by LC–MS/MS. Nat Prod Res 29(24):2275–2281
Zhang X, Li G, Ma J, Zeng Y, Ma W, Zhao P (2010) Endophytic fungus Trichothecium roseum LZ93 antagonizing pathogenic fungi in vitro and its secondary metabolites. J Microbiol 48(6):784–790
Zhang G, Sun S, Zhu T, Lin Z, Gu J, Li D, Gu Q (2011) Antiviral isoindolone derivatives from an endophytic fungus Emericella sp. associated with Aegiceras corniculatum. Phytochemistry 72(11–12):1436–1442
Zhang Q, Wei X, Wang J (2012) Phillyrin produced by Colletotrichum gloeosporioides, an endophytic fungus isolated from Forsythia suspensa. Fitoterapia 83(8):1500–1505
Zhang Q, Xiao J, Sun QQ, Qin JC, Pescitelli G, Gao JM (2014) Characterization of cytochalasins from the endophytic Xylaria sp. and their biological functions. J Agric Food Chem 62(45):10962–10969
Zhou S, Yang F, Lan S, Xu N, Hong YH (2009) Huperzine a producing conditions from endophytic fungus in Huperzia serrata. J Microbiol 29(3):32–36
Zhu X, Zhou D, Liang F, Wu Z, She Z, Li C (2017) Penochalasin K, a new unusual chaetoglobosin from the mangrove endophytic fungus Penicillium chrysogenum v11 and its effective semi-synthesis. Fitoterapia 123:23–28
Zilla MK, Qadri M, Pathania AS, Strobel GA, Nalli Y, Kumar S, Guru SK, Bhushan S, Singh SK, Vishwakarma RA, Riyaz-Ul-Hassan S, Ali A (2013) Bioactive metabolites from an endophytic Cryptosporiopsis sp. inhabiting Clidemia hirta. Phytochemistry 95:291–297
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2024 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Manzoor, M.M., Wani, Z.A., Riyaz-Ul-Hassan, S. (2024). Fungal Endophytes: An Accessible Natural Repository for Discovery of Bioactive Compounds. In: Deshmukh, S.K., Takahashi, J.A., Saxena, S. (eds) Fungi Bioactive Metabolites. Springer, Singapore. https://doi.org/10.1007/978-981-99-5696-8_3
Download citation
DOI: https://doi.org/10.1007/978-981-99-5696-8_3
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-99-5695-1
Online ISBN: 978-981-99-5696-8
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)