Reactive oxygen species generation in fungal development and pathogenesis

被引:101
作者
Tudzynski, Paul [1 ]
Heller, Jens [1 ]
Siegmund, Ulrike [1 ]
机构
[1] Univ Munster, Inst Biol & Biotechnol Pflanzen, D-48143 Munster, Germany
来源
CURRENT OPINION IN MICROBIOLOGY | 2012年 / 15卷 / 06期
关键词
NADPH-OXIDASE; ASCOSPORE GERMINATION; ENDOPLASMIC-RETICULUM; SEXUAL DEVELOPMENT; SECRETORY PATHWAY; COMPARTMENTALIZATION; DIFFERENTIATION; PATHOGENICITY; EVOLUTION; TRANSPORT;
D O I
10.1016/j.mib.2012.10.002
中图分类号
Q93 [微生物学];
学科分类号
071005 ; 100705 ;
摘要
Reactive oxygen species (ROS) generated by NADPH-dependent oxidases (Nox) have been shown to function as signaling molecules and to be essential for many differentiation processes in mammals and plants. There is growing evidence that ROS are important for many aspects of fungal life including vegetative hyphal growth, differentiation of conidial anastomosis tubes, fruiting body and infection structure formation, and for induction of apoptosis. Recent results from studies in fungal saprophytic and pathogenic model systems have shed new light on the role of Nox in cytoskeleton organization, the structure of Nox complexes and links to components of the apical complex, and the localization of Nox to the endoplasmic reticulum.
引用
收藏
页码:653 / 659
页数:7
相关论文
共 50 条
  • [31] Generation of cellular reactive oxygen and nitrogen species by exposure to ultraviolet radiation
    Menoni, Macarena
    Alcoba, Pablo
    Zuluaga, Maria J.
    Peluffo, R. Daniel
    BIOPHYSICAL REVIEWS, 2025, : 547 - 560
  • [32] Reactive oxygen species in plants: their generation, signal transduction, and scavenging mechanisms
    Karuppanapandian, Thirupathi
    Moon, Jun-Cheol
    Kim, Changsoo
    Manoharan, Kumariah
    Kim, Wook
    AUSTRALIAN JOURNAL OF CROP SCIENCE, 2011, 5 (06) : 709 - 725
  • [33] Are Reactive Sulfur Species the New Reactive Oxygen Species?
    Olson, Kenneth R.
    ANTIOXIDANTS & REDOX SIGNALING, 2020, 33 (16) : 1125 - 1142
  • [34] Reactive oxygen species in cell wall metabolism and development in plants
    Karkonen, Anna
    Kuchitsu, Kazuyuki
    PHYTOCHEMISTRY, 2015, 112 : 22 - 32
  • [35] Interactions between nitric oxide, oxygen, reactive oxygen species and reactive nitrogen species
    Brown, G. C.
    Borutaite, V.
    BIOCHEMICAL SOCIETY TRANSACTIONS, 2006, 34 : 953 - 956
  • [36] Cystic fibrosis neutrophils have normal intrinsic reactive oxygen species generation
    McKeon, D. J.
    Cadwallader, K. A.
    Idris, S.
    Cowburn, A. S.
    Pasteur, M. C.
    Barker, H.
    Haworth, C. S.
    Bilton, D.
    Chilvers, E. R.
    Condliffe, A. M.
    EUROPEAN RESPIRATORY JOURNAL, 2010, 35 (06) : 1264 - 1272
  • [37] Mammalian Mitochondrial Complex I: Biogenesis, Regulation, and Reactive Oxygen Species Generation
    Koopman, Werner J. H.
    Nijtmans, Leo G. J.
    Dieteren, Cindy E. J.
    Roestenberg, Peggy
    Valsecchi, Federica
    Smeitink, Jan A. M.
    Willems, Peter H. G. M.
    ANTIOXIDANTS & REDOX SIGNALING, 2010, 12 (12) : 1431 - 1470
  • [38] Molecular pathways of generation and detoxification of reactive oxygen species and induction of apoptosis in yeasts
    Gull, Sidra
    Shabbir, Chaudhry Ahmed
    Khan, Zaman
    Bukhari, Dilara A.
    Rehman, Abdul
    ARABIAN JOURNAL OF CHEMISTRY, 2025, 18 (01)
  • [39] Homeostatic Generation of Reactive Oxygen Species Protects the Zebrafish Liver From Steatosis
    Nussbaum, Justin M.
    Liu, Liuhong J.
    Hasan, Syeda A.
    Schaub, Madeline
    McClendon, Allyson
    Stainier, Didier Y. R.
    Sakaguchi, Takuya F.
    HEPATOLOGY, 2013, 58 (04) : 1326 - 1338
  • [40] The fungal neurotoxin penitrem A induces the production of reactive oxygen species in human neutrophils at submicromolar concentrations
    Berntsen, H. F.
    Bogen, I. L.
    Wigestrand, M. B.
    Fonnum, F.
    Walaas, S. I.
    Moldes-Anaya, A.
    TOXICOLOGY, 2017, 392 : 64 - 70
12345