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Literature DB >> 29282842

Evolution within the fungal genus Verticillium is characterized by chromosomal rearrangement and gene loss.

Xiaoqian Shi-Kunne¹, Luigi Faino¹, Grardy C M van den Berg¹, Bart P H J Thomma¹, Michael F Seidl¹.

Abstract

The fungal genus Verticillium contains ten species, some of which are notorious plant pathogens causing vascular wilt diseases in host plants, while others are known as saprophytes and opportunistic plant pathogens. Whereas the genome of V. dahliae, the most notorious plant pathogen of the genus, has been well characterized, evolution and speciation of other members of the genus received little attention thus far. Here, we sequenced the genomes of the nine haploid Verticillium spp. to study evolutionary trajectories of their divergence from a last common ancestor. Frequent occurrence of chromosomal rearrangement and gene family loss was identified. In addition to ∼11 000 genes that are shared at least between two species, only 200-600 species-specific genes occur. Intriguingly, these species-specific genes show different features than the shared genes.

Entities: Species

Mesh：

Substances：
DNA, Bacterial

Year: 2018 PMID： 29282842 DOI： 10.1111/1462-2920.14037

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

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Cited

21 in total

1. A 20-kb lineage-specific genomic region tames virulence in pathogenic amphidiploid Verticillium longisporum.

Authors: Rebekka Harting; Jessica Starke; Harald Kusch; Stefanie Pöggeler; Isabel Maurus; Rabea Schlüter; Manuel Landesfeind; Ingo Bulla; Minou Nowrousian; Ronnie de Jonge; Gertrud Stahlhut; Katharina J Hoff; Kathrin P Aßhauer; Andrea Thürmer; Mario Stanke; Rolf Daniel; Burkhard Morgenstern; Bart P H J Thomma; James W Kronstad; Susanna A Braus-Stromeyer; Gerhard H Braus
Journal: Mol Plant Pathol Date: 2021-05-05 Impact factor: 5.663

2. A Near-Complete Haplotype-Phased Genome of the Dikaryotic Wheat Stripe Rust Fungus Puccinia striiformis f. sp. tritici Reveals High Interhaplotype Diversity.

Authors: Benjamin Schwessinger; Jana Sperschneider; William S Cuddy; Diana P Garnica; Marisa E Miller; Jennifer M Taylor; Peter N Dodds; Melania Figueroa; Robert F Park; John P Rathjen
Journal: MBio Date: 2018-02-20 Impact factor: 7.867

3. Repetitive Elements Contribute to the Diversity and Evolution of Centromeres in the Fungal Genus Verticillium.

Authors: Michael F Seidl; H Martin Kramer; David E Cook; Gabriel L Fiorin; Grardy C M van den Berg; Luigi Faino; Bart P H J Thomma
Journal: mBio Date: 2020-09-08 Impact factor: 7.867

4. The Genome of the Fungal Pathogen Verticillium dahliae Reveals Extensive Bacterial to Fungal Gene Transfer.

Authors: Xiaoqian Shi-Kunne; Mathijs van Kooten; Jasper R L Depotter; Bart P H J Thomma; Michael F Seidl
Journal: Genome Biol Evol Date: 2019-03-01 Impact factor: 3.416

5. In silico prediction and characterisation of secondary metabolite clusters in the plant pathogenic fungus Verticillium dahliae.

Authors: Xiaoqian Shi-Kunne; Roger de Pedro Jové; Jasper R L Depotter; Malaika K Ebert; Michael F Seidl; Bart P H J Thomma
Journal: FEMS Microbiol Lett Date: 2019-04-01 Impact factor: 2.742

6. Dynamic virulence-related regions of the plant pathogenic fungus Verticillium dahliae display enhanced sequence conservation.

Authors: Jasper R L Depotter; Xiaoqian Shi-Kunne; Hélène Missonnier; Tingli Liu; Luigi Faino; Grardy C M van den Berg; Thomas A Wood; Baolong Zhang; Alban Jacques; Michael F Seidl; Bart P H J Thomma
Journal: Mol Ecol Date: 2019-07-29 Impact factor: 6.185

7. Transposable Elements Contribute to Genome Dynamics and Gene Expression Variation in the Fungal Plant Pathogen Verticillium dahliae.

Authors: David E Torres; Bart P H J Thomma; Michael F Seidl
Journal: Genome Biol Evol Date: 2021-07-06 Impact factor: 3.416