Scientia Silvae Sinicae ›› 2019, Vol. 55 ›› Issue (1): 89-102.doi: 10.11707/j.1001-7488.20190111
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Zhou Jing1, Yang Qi1, Li Gang2, Xu Jing1,2
Received:
2017-04-20
Revised:
2018-08-09
Online:
2019-01-25
Published:
2019-01-06
CLC Number:
Zhou Jing, Yang Qi, Li Gang, Xu Jing. Advances in Endophytic Fungi Diversity and Secondary Metabolites in Rhizophora Plants[J]. Scientia Silvae Sinicae, 2019, 55(1): 89-102.
高剑. 2013. 红树内生真菌多样性及其生态分布. 湛江:广东海洋大学硕士学位论文. (Gao J. 2013. Diversity and ecological distribution of endophytic fungi associated with mangroves. Zhanjiang:MS thesis of Guangdong Ocean University.[in Chinese]) 林文翰. 2005. 红树附生微生物的化学成分研究. "863"计划资源环境技术领域办公室.DT新材料.厦门:第三届海洋高技术论坛, 41-47. (Lin W H. 2005. Studies on the chemical constituents of epiphytic microorganisms of Mangrove. "863" Program Office in the Field of Resources, Environment and Technology. DT New Material. Xiamen:The 3th High Tech Marine Forum, 41-47.[in Chinese]) 徐静. 2015. 红树林微生物天然产物化学研究. 北京:科学出版社. (Xu J. 2015. Natural Products of Mangrove-Derived Microbes. Beijing:Science Press.[in Chinese]) 中国科学院中国植物志编辑委员会. 2004. 中国植物志.第52卷.第2册.北京:科学出版社, 127-130. (Editorial Committee of Flora of Chinese Academy of Sciences. 2004. Flora of China. Vol.52(2).Beijing:Science Press, 127-130.[in Chinese]) 邹运. 2015. 两种地衣中内生真菌物种多样性的比较研究. 济南:山东师范大学硕士学位论文. (Zou Y. 2015. Comparative study of species diversity of endolichenic fungi in two kinds of lichens. Jinan:MS thesis of Shandong Normal University.[in Chinese]) Agrios. 2005. Plant Pathology. 5th ed. Elsevier Academic Press, London. An C Y, Li X M, Li C S,et al. 2013. Aniquinazolines A-D, four new quinazolinone alkaloids from marine-derived endophytic fungus Aspergillus nidulans. Marine Drugs, 11(7):2682-2694. Ananda K, Sridhar K R. 2002. Diversity of endophytic fungi in the roots of mangrove species on the west coast of India. Canadian Journal of Microbiology, 48(10):871-878. Arfi Y, Buée M, Marchand C,et al. 2011. Multiple markers pyrosequencing reveals highly diverse and host-specific fungal communities on the mangrove trees Avicennia marina and Rhizophora stylosa. FEMS Microbiol Ecol, 79:433-444. Beau J, Mahid N, Burda W N,et al. 2012.Epigenetic tailoring for the production of anti-infective cytosporones from the marine fungus Leucostoma persoonii. Marine Drugs, 10(4):762-774. Brady S F, Wagenaar M M, Singh M P,et al.2000.The cytosporones, new octaketide antibiotics isolated from an endophytic fungus. Organic Letters, 32:4043-4046. Buatong J, Phongpaichit S, Rukachaisirikul V, et al. 2011.Antimicrobial activity of crude extracts from mangrove fungal endophytes. World Journal of Microbiology & Biotechnology, 27:3005-3008. Burmeister H R, Bennett G A, Vesonder R F,et al. 1974. Antibiotic produced by Fusarium equiseti NRRL 5537. Antimicrobial Agents & Chemotherapy, 5(6):634-639. Chen J, Qiu X, Wang R,et al. 2009. Inhibition of human gastric carcinoma cell growth in vitro and in vivo by cladosporol isolated from the paclitaxel-producing strain Alternaria alternata var. monosporus. Biological & Pharmaceutical Bulletin, 32(12):2072-2074. Cohen S D. 2006. Host selectivity and genetic variation of Discula umbrinella, isolates from two oak species:Analyses of intergenic spacer region sequences of ribosomal DNA. Microbial Ecology, 52(3):463-469. Ding B, Wang Z, Huang X,et al. 2016. Bioactive α-pyrone meroterpenoids from mangrove endophytic fungus Penicillium sp. Natural Product Research,30(24):2805-2812. Elavarasi A, Rathna G S, Kalaiselvam M. 2012. Taxol producing mangrove endophytic fungi Fusarium oxysporum, from Rhizophora annamalayana. Asian Pacific Journal of Tropical Biomedicine, 2(2):S1081-S1085. Fan Y, Yi W, Liu P,et al. 2013. Indole-diterpenoids with anti-H1N1 activity from the aciduric Fungus Penicillium camemberti OUCMDZ-1492. Journal of Natural Products, 76(7):1328-1336. Fl D S S, Romãodumaresq A S, Lacava P T,et al. 2013.Species diversity of culturable endophytic fungi from Brazilian mangrove forests. Current Genetics, 59(3):153-166. Gao S S, Li X M, Williams K,et al. 2016. Rhizovarins A-F, indole-diterpenes from the mangrove-derived endophytic fungus Mucor irregularis QEN-189. Journal of Natural Products, 79(8):2066-2074. Godoy M D, de Lacerda L D. 2015. Mangroves response to climate change:A review of recent findings on mangrove extension and distribution. Anais Da Academia Brasileira De Ciências, 87(2):651-667. Gopal B, Chauhan M. 2006.Biodiversity and its conservation in the Sundarban Mangrove Ecosystem. Aquatic Sciences, 68(3):338-354. Harrison J W, Scrowston R M, Lythgoe B. 1996.Taxine. Part IV. The constiuents of taxine-I. J Chem Soc, 95:641-655. Hemberger Y, Xu J, Wray V,et al. 2013. Pestalotiopens A and B:Stereochemically challenging flexible sesquiterpene-cyclopaldic acid hybrids from Pestalotiopsis sp. Chemistry-A European Journal, 19(46):15556-15564. Hemphill C F P, Daletos G, Liu Z,et al. 2016. Polyketides from the Mangrove-derived fungal endophyte Pestalotiopsis clavispora. Tetrahedron Letters, 57(19):2078-2083. Huang M, Li J, Liu L,et al. 2016. Phomopsichin A-D; four new chromone derivatives from mangrove endophytic fungus Phomopsis sp. 33#. Marine Drugs, 14(11):215-220. Jalgaonwala R E, Mohite B V, Mahajan R T. 2011. A review:Natural products from plant associated endophytic fungi. Journal of Microbiology and Biotechnology Research, 1(2):21-32. Klaiklay S, Rukachaisirikul V, Phongpaichit S, et al. 2012a. Anthraquinone derivatives from the mangrove-derived fungus Phomopsis sp. PSU-MA214. Phytochemistry Letters, 5(4):738-742. Klaiklay S, Rukachaisirikul V, Phongpaichit S, et al. 2013. Flavodonfuran:a new difuranylmethane derivative from the mangrove endophytic fungus Flavodon flavus PSU-MA201. Natural Product Research, 27(19):1722-1726. Klaiklay S, Rukachaisirikul V, Tadpetch K, et al. 2012b. Chlorinated chromone and diphenyl ether derivatives from the mangrove-derived fungus Pestalotiopsis sp. PSU-MA69. Tetrahedron, 68(10):2299-2305. Koch E W, Barbier E B, Silliman B R,et al. 2009. Non-linearity in ecosystem services:temporal and spatial variability in coastal protection. Frontiers in Ecology & the Environment, 7(1):29-37. Kumaresan V, Suryanarayanan T S. 2002. Endophyte assemblages in young, mature and senescent leaves of Rhizophora apiculata: evidence for the role of endophytes in mangrove litter degradation. Fungal Diversity, 9(2):81-91. Liu A R, Wu X P, Xu T. 2007.Research advances in endophytic fungi of mangrove. Chin J App Ecol, 13:366-378. Liu T, Li Z L, Wang Y,et al. 2011. A new alkaloid from the marine-derived fungus Hypocrea virens. Natural Product Research, 25(17):1596-1599. Moricca S, Ragazzi A. 2008. Fungal endophytes in Mediterranean oak forests:a lesson from Discula quercina. Phytopathology, 98(4):380-386. Osorio J A, Wingfield M J, Roux J. 2014. A review of factors associated with decline and death of mangroves, with particular reference to fungal pathogens. South African Journal of Botany, 103:295-301. Peng X, Wang Y, Sun K,et al. 2011.Cerebrosides and 2-pyridone alkaloids from the halotolerant fungus Penicillium chrysogenum grown in a hypersaline medium. Journal of Natural Products, 74(5):1298-1302. Piapukiew J, Whalley A J S, Sihanonth P. 2010. Endophytic fungi from mangrove plant species of Thailand:their antimicrobial and anticancer potentials. Botanica Marina, 53(6):555-564. Rukachaisirikul V, Rodglin A, Phongpaichit S,et al. 2012b. α-pyrone and seiricuprolide derivatives from the mangrove-derived fungi Pestalotiopsis spp. PSU-MA92 and PSU-MA119. Phytochemistry Letters, 5(1):13-17. Rukachaisirikul V, Rodglin A, Sukpondma Y,et al. 2012a. Phthalide and Isocoumarin derivatives produced by an Acremonium sp. isolated from a mangrove Rhizophora apiculata. Journal of Natural Products, 75(5):853-858. Rukachaisirikul V, Sommart U, Phongpaichit S,et al. 2008. Metabolites from the endophytic fungus Phomopsis sp. PSU-D15. Phytochemistry, 69:783-787. Schmit J P, Shearer C A. 2003. A checklist of mangrove-associated fungi, their geographical distribution and known host plants. Mycotaxon,85(1):423-477. Shiono Y, Sasaki T, Shibuya F,et al. 2013. Isolation of a phomoxanthone A derivative, a new metabolite of tetrahydroxanthone, from a Phomopsis sp. isolated from the mangrove, Rhizhopora mucronata. Natural Product Communications, 8(12):1735. Sun H, Gao S S, Li X M,et al. 2013. Chemical constituents of marine mangrove-derived endophytic fungus Alternaria tenuissima EN-192. Chinese Journal of Oceanology and Limnology, 31(2):464-470. Suryanarayanan T S, Kumaresan V, Johnson J A. 1998. Foliar fungal endophytes from two species of the mangrove Rhizophora. Canadian Journal of Microbiology, 44(10):1003-1006. Suryanarayanan T S, Senthilarasu G, Muruganandam V. 2001. Endophytic fungi from Cuscuta reflexa and its host plants. Fungal Diversity, 4:117-123. Tarman K, Safitri D, Setyaningsih I. 2014. Endophytic fungi isolated from Rhizophora mucronata and their antibacterial activity. Squalen Bulletin of Marine & Fisheries Postharvest & Biotechnology, 8(2):69-76. Ukoima H N, Ikata M. 2013. Mycoparasitism on some fungal isolates of Rhizophora racemosa Linn. American Journal of Scientific Research, 84:139-144. Verma V C, Gond S K, Kumar A,et al. 2007.The endophytic mycoflora of bark, leaf, and stem tissues of Azadirachta indica A. Juss (Neem) from Varanasi (India). Microbial Ecology, 54(1):119-125. Wanderley Costa I P, Maia L C, Cavalcanti M A. 2012. Diversity of leaf endophytic fungi in mangrove plants of Northeast Brazil.Brazilian Journal of Microbiology,43(3):1165-1173. Wang J, Lu W, Min C,et al. 2011. The endophytic fungus AGR12 in the stem of Rhizophora stylosa Griff and its antibacterial metabolites. Chinese Journal of Antibiotics, 36(2):102-106. Wang Y, Zhu H, Tam N F Y. 2014. Polyphenols, tannins and antioxidant activities of eight true mangrove plant species in South China. Plant and Soil, 374(1):549-563. Wani M C, Taylor H L, Wall M E,et al. 1971.Plant antitumor agents.VI.The isolation and structure of taxol, a novel antileukemic and antitumor agent from Taxus brevifolia. J Chem Soc, 93(9):2325-2327. Wheeler M H, Stipanovic R D, Puckhaber L S. 1999. Phytotoxicity of equisetin and epi-equisetin isolated from Fusarium equiseti and F. pallidoroseum. Mycological Research, 103(8):967-973. Wier A M, Tattar T A, Klekowski E J. 2000. Disease of red mangrove (Rhizophora mangle) in Southwest Puerto Rico caused by Cytospora rhizophorae. Biotropica, 32(2):299-306. Xing X, Guo S. 2011. Fungal endophyte communities in four Rhizophoraceae mangrove species on the south coast of China. Ecological Research, 26(2):403-409. Xu F, Tao W, Cheng L,et al. 2006. Strain improvement and optimization of the media of taxol-producing fungus Fusarium maire. Biochemical Engineering Journal, 31(1):67-73. Xu J, Aly A H, Wray V,et al. 2009b.Polyketide derivatives of endophytic fungus Pestalotiopsis sp. isolated from the Chinese mangrove plant Rhizophora mucronata. Journal of Natural Products, 72(4):662-665. Xu J, Ebada S S, Proksch P. 2010.Pestalotiopsis, a highly creative genus:chemistry and bioactivity of secondary metabolites. Fungal Diversity, 44:15-31. Xu J, Kjer J, Sendker J,et al. 2009a. Cytosporones, coumarins, and an alkaloid from the endophytic fungus Pestalotiopsis sp. isolated from the Chinese mangrove plant Rhizophora mucronata. Bioorganic & Medicinal Chemistry, 17(20):7362-7367. Xu J, Kjer J, Sendker J,et al. 2011a. Chromones from the endophytic fungus Pestalotiopsis sp. isolated from the Chinese mangrove plant Rhizophora mucronata. Tetrahedron Letters, 52:21-25. Xu J, Lin Q, Wang B,et al. 2011b.Pestalotiopamide E, a new amide from the endophytic fungus Pestalotiopsis sp. Journal of Asian Natural Products Research,13:373-376. Zang L Y, Wei W, Guo Y, et al. 1992. Sesquiterpenoids from the mangrove-derived endophytic fungus Diaporthe sp. Journal of Natural Products, 75(10):1744-1749. Zhang P, Li X, Wang B G. 2016. Secondary metabolites from the marine algal-derived endophytic fungi:Chemical diversity and biological activity. Planta Medica, 82(9/10):832-842. Zhang W, Becker D, Cheng Q.2006. A mini-review of recent W.O. patents (2004-2005) of novel anti-fungal compounds in the field of anti-infective drug targets. Recent Patents on Anti-Infective Drug Discovery, 1(2):225-230. Zheng C J, Huang G L, Xu Y,et al. 2016. A new benzopyrans derivatives from a mangrove-derived fungus Penicillium citrinum from the South China Sea. Natural Product Research, 30(7):821-827. |
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