Literature DB >> 26373782

Seeing the world differently: variability in the photosensory mechanisms of two model fungi.

Arko Dasgupta1, Kevin K Fuller1, Jay C Dunlap1, Jennifer J Loros2.   

Abstract

Light plays an important role for most organisms on this planet, serving either as a source of energy or information for the adaptation of biological processes to specific times of day. The fungal kingdom is estimated to contain well over a million species, possibly 10-fold more, and it is estimated that a majority of the fungi respond to light, eliciting changes in several physiological characteristics including pathogenesis, development and secondary metabolism. Two model organisms for photobiological studies have taken centre-stage over the last few decades--Neurospora crassa and Aspergillus nidulans. In this review, we will first discuss our understanding of the light response in N. crassa, about which the most is known, and will then juxtapose N. crassa with A. nidulans, which, as will be described below, provides an excellent template for understanding photosensory cross-talk. Finally, we will end with a commentary on the variability of the light response among other relevant fungi, and how our molecular understanding in the aforementioned model organisms still provides a strong base for dissecting light responses in such species.
© 2015 Society for Applied Microbiology and John Wiley & Sons Ltd.

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Year:  2015        PMID: 26373782      PMCID: PMC4757429          DOI: 10.1111/1462-2920.13055

Source DB:  PubMed          Journal:  Environ Microbiol        ISSN: 1462-2912            Impact factor:   5.491


  140 in total

1.  A eukaryotic protein, NOP-1, binds retinal to form an archaeal rhodopsin-like photochemically reactive pigment.

Authors:  J A Bieszke; E N Spudich; K L Scott; K A Borkovich; J L Spudich
Journal:  Biochemistry       Date:  1999-10-26       Impact factor: 3.162

2.  Phosphorylation of the Neurospora clock protein FREQUENCY determines its degradation rate and strongly influences the period length of the circadian clock.

Authors:  Y Liu; J Loros; J C Dunlap
Journal:  Proc Natl Acad Sci U S A       Date:  2000-01-04       Impact factor: 11.205

3.  The PAS protein VIVID defines a clock-associated feedback loop that represses light input, modulates gating, and regulates clock resetting.

Authors:  C Heintzen; J J Loros; J C Dunlap
Journal:  Cell       Date:  2001-02-09       Impact factor: 41.582

Review 4.  Coordinate control of secondary metabolite production and asexual sporulation in Aspergillus nidulans.

Authors:  T H Adams; J H Yu
Journal:  Curr Opin Microbiol       Date:  1998-12       Impact factor: 7.934

Review 5.  Nuclear migration in fungi--different motors at work.

Authors:  R Suelmann; R Fischer
Journal:  Res Microbiol       Date:  2000-05       Impact factor: 3.992

6.  Circadian regulation of the light input pathway in Neurospora crassa.

Authors:  M Merrow; L Franchi; Z Dragovic; M Görl; J Johnson; M Brunner; G Macino; T Roenneberg
Journal:  EMBO J       Date:  2001-02-01       Impact factor: 11.598

7.  The nop-1 gene of Neurospora crassa encodes a seven transmembrane helix retinal-binding protein homologous to archaeal rhodopsins.

Authors:  J A Bieszke; E L Braun; L E Bean; S Kang; D O Natvig; K A Borkovich
Journal:  Proc Natl Acad Sci U S A       Date:  1999-07-06       Impact factor: 11.205

8.  Blue light adaptation and desensitization of light signal transduction in Neurospora crassa.

Authors:  C Schwerdtfeger; H Linden
Journal:  Mol Microbiol       Date:  2001-02       Impact factor: 3.501

9.  Interconnected feedback loops in the Neurospora circadian system.

Authors:  K Lee; J J Loros; J C Dunlap
Journal:  Science       Date:  2000-07-07       Impact factor: 47.728

10.  Role of a white collar-1-white collar-2 complex in blue-light signal transduction.

Authors:  C Talora; L Franchi; H Linden; P Ballario; G Macino
Journal:  EMBO J       Date:  1999-09-15       Impact factor: 11.598
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  15 in total

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Review 2.  A light life together: photosensing in the plant microbiota.

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Journal:  Photochem Photobiol Sci       Date:  2021-03-01       Impact factor: 3.982

3.  Fungi use the SakA (HogA) pathway for phytochrome-dependent light signalling.

Authors:  Zhenzhong Yu; Olivier Armant; Reinhard Fischer
Journal:  Nat Microbiol       Date:  2016-02-29       Impact factor: 17.745

4.  Light irradiation can regulate the growth characteristics and metabolites compositions of Rhodotorula mucilaginosa.

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Journal:  J Food Sci Technol       Date:  2019-08-16       Impact factor: 2.701

Review 5.  Light-regulated promoters for tunable, temporal, and affordable control of fungal gene expression.

Authors:  Kevin K Fuller; Jay C Dunlap; Jennifer J Loros
Journal:  Appl Microbiol Biotechnol       Date:  2018-03-22       Impact factor: 4.813

Review 6.  Carbon Catabolite Repression in Filamentous Fungi.

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Journal:  Int J Mol Sci       Date:  2017-12-24       Impact factor: 5.923

Review 7.  Regulators of plant biomass degradation in ascomycetous fungi.

Authors:  Tiziano Benocci; Maria Victoria Aguilar-Pontes; Miaomiao Zhou; Bernhard Seiboth; Ronald P de Vries
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8.  The HamE scaffold positively regulates MpkB phosphorylation to promote development and secondary metabolism in Aspergillus nidulans.

Authors:  Dean Frawley; Betim Karahoda; Özlem Sarikaya Bayram; Özgür Bayram
Journal:  Sci Rep       Date:  2018-11-08       Impact factor: 4.379

9.  Genome-Wide Analysis of the Zn(II)₂Cys₆ Zinc Cluster-Encoding Gene Family in Tolypocladium guangdongense and Its Light-Induced Expression.

Authors:  Chenghua Zhang; Hong Huang; Wangqiu Deng; Taihui Li
Journal:  Genes (Basel)       Date:  2019-02-26       Impact factor: 4.096

10.  HyphaTracker: An ImageJ toolbox for time-resolved analysis of spore germination in filamentous fungi.

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Journal:  Sci Rep       Date:  2018-01-12       Impact factor: 4.379
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