From Genes to Molecules, Secondary Metabolism in Botrytis cinerea: New Insights into Anamorphic and Teleomorphic Stages

被引:13
作者
da Silva Ripardo-Filho, Haroldo [1 ]
Coca Ruiz, Victor [1 ,3 ]
Suarez, Ivonne [1 ,2 ,3 ]
Moraga, Javier [1 ,2 ,3 ]
Aleu, Josefina [1 ,3 ]
Collado, Isidro G. [1 ,3 ]
机构
[1] Univ Cadiz, Fac Ciencias, Dept Quim Organ, Cadiz 11510, Spain
[2] Univ Cadiz, Fac Ciencias Mar & Ambientales, Dept Biomed Biotecnol & Salud Publ, Lab Microbiol, Cadiz 11510, Spain
[3] Univ Cadiz, Inst Invest Biomoleculas INBIO, Cadiz 11510, Spain
来源
PLANTS-BASEL | 2023年 / 12卷 / 03期
关键词
Botrytis cinerea; Botryotinia fuckeliana; secondary metabolism; metabolites; sesquiterpenes; diterpenes; polyketides; ABSCISIC-ACID BIOSYNTHESIS; TERPENOID BIOSYNTHESIS; PLANT-TISSUES; FUNGUS; SYNTHASE; CLUSTER; SESQUITERPENOIDS; BOTCINOLIDE; CHEMISTRY; MECHANISM;
D O I
10.3390/plants12030553
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
The ascomycete Botrytis cinerea Pers. Fr., classified within the family Sclerotiniaceae, is the agent that causes grey mould disease which infects at least 1400 plant species, including crops of economic importance such as grapes and strawberries. The life cycle of B. cinerea consists of two phases: asexual (anamorph, Botrytis cinerea Pers. Fr.) and sexual (teleomorph, Botryotinia fuckeliana (de Bary) Wetzel). During the XVI International Symposium dedicated to the Botrytis fungus, which was held in Bari in June 2013, the scientific community unanimously decided to assign the most widely used name of the asexual form, Botrytis, to this genus of fungi. However, in the literature, we continue to find articles referring to both morphic stages. In this review, we take stock of the genes and metabolites reported for both morphic forms of B. cinerea between January 2015 and October 2022.
引用
收藏
页数:29
相关论文
共 100 条
  • [51] Micheli P.A, 1729, NOVA PLANTARUM GENER, DOI [10.2307/3666906, DOI 10.2307/3666906]
  • [52] Impairment of botrydial production in Botrytis cinerea allows the isolation of undescribed polyketides and reveals new insights into the botcinins biosynthetic pathway
    Moraga, Javier
    Reina, Inmaculada Izquierdo-Bueno
    Pinedo, Cristina
    Hernandez-Galan, Rosario
    Viaud, Muriel
    Collado, Isidro G.
    [J]. PHYTOCHEMISTRY, 2021, 183
  • [53] Genetic and Molecular Basis of Botrydial Biosynthesis: Connecting Cytochrome P450-Encoding Genes to Biosynthetic Intermediates
    Moraga, Javier
    Dalmais, Berengere
    Izquierdo-Bueno, Inmaculada
    Aleu, Josefina
    Hanson, James R.
    Hernandez-Galan, Rosario
    Viaud, Muriel
    Collado, Isidro G.
    [J]. ACS CHEMICAL BIOLOGY, 2016, 11 (10) : 2838 - 2846
  • [54] Botrylactone: new interest in an old molecule-review of its absolute configuration and related compounds
    Moraga, Javier
    Pinedo, Cristina
    Duran-Patron, Rosa
    Collado, Isidro G.
    Hernandez-Galan, Rosario
    [J]. TETRAHEDRON, 2011, 67 (02) : 417 - 420
  • [55] Abscisic acid biosynthesis and catabolism
    Nambara, E
    Marion-Poll, A
    [J]. ANNUAL REVIEW OF PLANT BIOLOGY, 2005, 56 : 165 - 185
  • [56] Botryotins A-H, Tetracyclic Diterpenoids Representing Three Carbon Skeletons from a Deep-Sea-Derived Botryotinia fuckeliana
    Niu, Siwen
    Xie, Chun-Lan
    Xia, Jin-Mei
    Liu, Qing-Mei
    Peng, Guizhen
    Liu, Guang-Ming
    Yang, Xian-Wen
    [J]. ORGANIC LETTERS, 2020, 22 (02) : 580 - 583
  • [57] A New Pimarane Diterpenoid from the Botryotinia fuckeliana Fungus Isolated from Deep-Sea Water
    Niu, Siwen
    Peng, Guizhen
    Xia, Jin-Mei
    Xie, Chun-Lan
    Li, Zengpeng
    Yang, Xian-Wen
    [J]. CHEMISTRY & BIODIVERSITY, 2019, 16 (12)
  • [58] Aphidicolin Chemistry of the Deep-Sea-Derived Fungus Botryotinia fuckeliana MCCC 3A00494
    Niu, Siwen
    Xia, Jin-Mei
    Li, Zengpeng
    Yang, Long-He
    Yi, Zhi-Wei
    Xie, Chun-Lan
    Peng, Guizhen
    Luo, Zhu-Hua
    Shao, Zongze
    Yang, Xian-Wen
    [J]. JOURNAL OF NATURAL PRODUCTS, 2019, 82 (08): : 2307 - 2331
  • [59] Integration of a multi-step heterologous pathway in Saccharomyces cerevisiae for the production of abscisic acid
    Otto, Maximilian
    Teixeira, Paulo Goncalves
    Vizcaino, Maria Isabel
    David, Florian
    Siewers, Verena
    [J]. MICROBIAL CELL FACTORIES, 2019, 18 (01)
  • [60] High-level semi-synthetic production of the potent antimalarial artemisinin
    Paddon, C. J.
    Westfall, P. J.
    Pitera, D. J.
    Benjamin, K.
    Fisher, K.
    McPhee, D.
    Leavell, M. D.
    Tai, A.
    Main, A.
    Eng, D.
    Polichuk, D. R.
    Teoh, K. H.
    Reed, D. W.
    Treynor, T.
    Lenihan, J.
    Fleck, M.
    Bajad, S.
    Dang, G.
    Dengrove, D.
    Diola, D.
    Dorin, G.
    Ellens, K. W.
    Fickes, S.
    Galazzo, J.
    Gaucher, S. P.
    Geistlinger, T.
    Henry, R.
    Hepp, M.
    Horning, T.
    Iqbal, T.
    Jiang, H.
    Kizer, L.
    Lieu, B.
    Melis, D.
    Moss, N.
    Regentin, R.
    Secrest, S.
    Tsuruta, H.
    Vazquez, R.
    Westblade, L. F.
    Xu, L.
    Yu, M.
    Zhang, Y.
    Zhao, L.
    Lievense, J.
    Covello, P. S.
    Keasling, J. D.
    Reiling, K. K.
    Renninger, N. S.
    Newman, J. D.
    [J]. NATURE, 2013, 496 (7446) : 528 - +
12345678910