sg:pub.10.1007/s00253-020-10399-0 - Springer Nature SciGraph

Article Info

DATE

2020-02-04

AUTHORS

Muhammad Ibrar, Muhammad Wajid Ullah, Sehrish Manan, Umer Farooq, Muhammad Rafiq, Fariha Hasan

ABSTRACT

More than 80% of the Earth surface is consisted of hostile and harsh environments, classified as extreme from an anthropogenic perspective. Microorganisms with acclimatized nature dominate these extreme ecosystems of the biosphere. Survivals in such environments initiate an inductive force leading to the production of noteworthy metabolites having peculiar biochemistry. Recent investigations on extremophilic fungi for unprecedented bioactive compounds emphasize their remarkable potential as sources of new therapeutics. The present review covers the literature published in the last 15 years and highlights the biological activities and structure of compounds isolated from the extremophilic fungi. The compounds are grouped based on their biological functions such as cytotoxicity, lipid-lowering ability, and antimicrobial, antioxidant, nematocidal, anti-inflammatory, anti-malarial, and antifouling activities. A total of 155 compounds isolated from 25 Penicillium species, 16 Aspergillus species, and 23 other species are presented, which include 105 new and 50 known bioactive compounds. Out of these, 77 have known cytotoxic activity and 46 are antimicrobial in nature, while there are 32 other compounds with different activities including nematocidal, anti-allergic, antioxidant, and anti-inflammatory.Key Points• A broad compilation of bioactive compounds from extremophilic fungi.• Classification of bioactive compounds based on their biological functions.• Production of cytotoxic compounds is common among all kind of extremophilic fungi.• Bioactive compounds have no direct role in adaptation process of extremophiles. More... »

PAGES

2777-2801

References to SciGraph publications

2014-10-01. Two new amides from a halotolerant fungus, Myrothecium sp. GS-17 in THE JOURNAL OF ANTIBIOTICS

2013-11-14. Cold, pH and salt tolerant Penicillium spp. inhabit the high altitude soils in Himalaya, India in WORLD JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY

2012-08-22. Characterization of the high cytochalasin E and rosellichalasin producing-Aspergillus sp. nov. F1 isolated from marine solar saltern in China in WORLD JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY

2010-02-05. Ophiosetin, a new tetramic acid derivative from the mycopathogenic fungus Elaphocordyceps ophioglossoides in THE JOURNAL OF ANTIBIOTICS

2013-10-15. Isolation and biological activities of an endophytic Mortierella alpina strain from the Antarctic moss Schistidium antarctici in EXTREMOPHILES

1990-12. Fungi isolated from Antarctic material in POLAR BIOLOGY

2017-09-07. Penicilliumin B, a novel sesquiterpene methylcyclopentenedione from a deep sea-derived Penicillium strain with renoprotective activities in SCIENTIFIC REPORTS

2017-11-04. An anti-HBV anthraquinone from aciduric fungus Penicillium sp. OUCMDZ-4736 under low pH stress in EXTREMOPHILES

2014-11-16. Thermophilic fungi in the new age of fungal taxonomy in EXTREMOPHILES

2005-01-01. Halotolerant and Halophilic Fungi from Coastal Environments in the Arctics in ADAPTATION TO LIFE AT HIGH SALT CONCENTRATIONS IN ARCHAEA, BACTERIA, AND EUKARYA

2016-04-29. Psychrophilic and psychrotrophic fungi: a comprehensive review in REVIEWS IN ENVIRONMENTAL SCIENCE AND BIO/TECHNOLOGY

2011-07-27. A new cytotoxic indole-3-ethenamide from the halotolerant fungus Aspergillus sclerotiorum PT06-1 in THE JOURNAL OF ANTIBIOTICS

2001-02. Life in extreme environments in NATURE

2013-09-28. New eremophilane-type sesquiterpenes from an Antarctic deep-sea derived fungus, Penicillium sp. PR19 N-1 in ARCHIVES OF PHARMACAL RESEARCH

2007-10. Two New Cytotoxic Quinone Type Compounds from the Halotolerant Fungus Aspergillus variecolor in THE JOURNAL OF ANTIBIOTICS

1996-01. Growth temperature preferences of fungal strains from Victoria Land, Antarctica in POLAR BIOLOGY

2005-02. Bioactive Cyclic Peptides from the Psychrotolerant Fungus Penicillium algidum in THE JOURNAL OF ANTIBIOTICS

2005-01. Bioactive Microbial Metabolites in THE JOURNAL OF ANTIBIOTICS

2018-01-11. New anti-inflammatory guaianes from the Atlantic hydrotherm-derived fungus Graphostroma sp. MCCC 3A00421 in SCIENTIFIC REPORTS

Journal

TITLE

Applied Microbiology and Biotechnology

ISSUE

VOLUME

104

Subjects

FOR: Biological Sciences

FOR: Microbiology

MESH: Adaptation, Physiological

MESH: Anti-Bacterial Agents

MESH: Anti-Inflammatory Agents

MESH: Antimalarials

MESH: Antinematodal Agents

MESH: Antioxidants

MESH: Biological Factors

MESH: Ecosystem

MESH: Extremophiles

MESH: Fungi

Author Affiliations

Department of Microbiology, School of Biological Science, Quaid-i-Azam University Islamabad, 45320, Islamabad, Pakistan

Department of Biomedical Engineering, College of Life Science and Technology, Huazhong University of Science and Technology, 430074, Wuhan, People’s Republic of China

Organic Geochemistry Unit, School of Chemistry, Faculty of Science, University of Bristol, Bristol, UK

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s00253-020-10399-0

DOI

http://dx.doi.org/10.1007/s00253-020-10399-0

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1124595128

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/32020277

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33	″	schema:datePublished	2020-02-04
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35	″	schema:description	More than 80% of the Earth surface is consisted of hostile and harsh environments, classified as extreme from an anthropogenic perspective. Microorganisms with acclimatized nature dominate these extreme ecosystems of the biosphere. Survivals in such environments initiate an inductive force leading to the production of noteworthy metabolites having peculiar biochemistry. Recent investigations on extremophilic fungi for unprecedented bioactive compounds emphasize their remarkable potential as sources of new therapeutics. The present review covers the literature published in the last 15 years and highlights the biological activities and structure of compounds isolated from the extremophilic fungi. The compounds are grouped based on their biological functions such as cytotoxicity, lipid-lowering ability, and antimicrobial, antioxidant, nematocidal, anti-inflammatory, anti-malarial, and antifouling activities. A total of 155 compounds isolated from 25 Penicillium species, 16 Aspergillus species, and 23 other species are presented, which include 105 new and 50 known bioactive compounds. Out of these, 77 have known cytotoxic activity and 46 are antimicrobial in nature, while there are 32 other compounds with different activities including nematocidal, anti-allergic, antioxidant, and anti-inflammatory.Key Points• A broad compilation of bioactive compounds from extremophilic fungi.• Classification of bioactive compounds based on their biological functions.• Production of cytotoxic compounds is common among all kind of extremophilic fungi.• Bioactive compounds have no direct role in adaptation process of extremophiles.
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42	″	schema:keywords	Aspergillus species
43	″	″	Earth's surface
44	″	″	Penicillium species
45	″	″	ability
46	″	″	activity
47	″	″	adaptation process
48	″	″	anthropogenic perspective
49	″	″	bioactive compounds
50	″	″	biochemistry
51	″	″	biological activity
52	″	″	biological functions
53	″	″	biosphere
54	″	″	broad compilation
55	″	″	classification
56	″	″	compilation
57	″	″	compounds
58	″	″	cytotoxic compounds
59	″	″	cytotoxicity
60	″	″	different activities
61	″	″	direct role
62	″	″	ecosystems
63	″	″	environment
64	″	″	extreme ecosystems
65	″	″	extremes
66	″	″	extremes of life
67	″	″	extremophiles
68	″	″	extremophilic fungi
69	″	″	force
70	″	″	function
71	″	″	fungi
72	″	″	harsh environments
73	″	″	inductive forces
74	″	″	investigation
75	″	″	kind
76	″	″	life
77	″	″	lipid-lowering ability
78	″	″	literature
79	″	″	metabolites
80	″	″	microorganisms
81	″	″	nature
82	″	″	nematocidal
83	″	″	new therapeutics
84	″	″	perspective
85	″	″	potential
86	″	″	present review
87	″	″	process
88	″	″	production
89	″	″	recent investigations
90	″	″	remarkable potential
91	″	″	review
92	″	″	role
93	″	″	source
94	″	″	species
95	″	″	structure
96	″	″	structures of compounds
97	″	″	such environments
98	″	″	surface
99	″	″	survival
100	″	″	therapeutics
101	″	″	total
102	″	″	treasure
103	″	″	untapped treasure
104	″	″	years
105	″	schema:name	Fungi from the extremes of life: an untapped treasure for bioactive compounds
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