Comparative genomics reveals low levels of inter- and intraspecies diversity in the causal agents of dwarf and common bunt of wheat and hint at conspecificity of Tilletia caries and T. laevis

Sedaghatjoo, Somayyeh; Mishra, Bagdevi; Förster, Manuel; Becker, Yvonne; Keilwagen, Jens; Killermann, Berta; Thines, Marco; Karlovský, Petr; Maier, Wolfgang

doi:10.1186/s43008-022-00098-y

Cited by 5 publications

(3 citation statements)

References 167 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Higher genome sequencing coverage was achieved compared to other genomes available in the public domain. This genome assembly was larger in size, better quality, and more accurate than other available assemblies of T. caries , ranging from 27.14 to 35.80 Mb ( Nguyen et al, 2019 ; Sedaghatjoo et al, 2022 ). Previously, six T. caries genomes were available in the GenBank and NCBI, but these genomes were small in size (USA, Canada) and had a high number of scaffolds (3,606–8,169).…”

Section: Discussionmentioning

confidence: 99%

Draft genome sequencing of Tilletia caries inciting common bunt of wheat provides pathogenicity-related genes

Gurjar,

Kumar,

Shakouka

et al. 2023

Front. Microbiol.

View full text Add to dashboard Cite

Common bunt of wheat caused by Tilletia caries is an important disease worldwide. The T. caries TC1_MSG genome was sequenced using the Illumina HiSeq 2500 and Nanopore ONT platforms. The Nanopore library was prepared using the ligation sequencing kit SQK-LSK110 to generate approximately 24 GB for sequencing. The assembly size of 38.18 Mb was generated with a GC content of 56.10%. The whole genome shotgun project was deposited at DDBJ/ENA/GenBank under the accession number JALUTQ000000000. Forty-six contigs were obtained with N50 of 1,798,756 bp. In total, 10,698 genes were predicted in the assembled genome. Out of 10,698 genes, 10,255 genes were predicted significantly in the genome. The repeat sequences made up approximately 1.57% of the genome. Molecular function, cellular components, and biological processes for predicted genes were mapped into the genome. In addition, repeat elements in the genome were assessed. In all, 0.89% of retroelements were observed, followed by long terminal repeat elements (0.86%) in the genome. In simple sequence repeat (SSR) analysis, 8,582 SSRs were found in the genome assembly. The trinucleotide SSR type (3,703) was the most abundant. Few putative secretory signal peptides and pathogenicity-related genes were predicted. The genomic information of T. caries will be valuable in understanding the pathogenesis mechanism as well as developing new methods for the management of the common bunt disease of wheat.

show abstract

Section: Discussionmentioning

confidence: 99%

Draft genome sequencing of Tilletia caries inciting common bunt of wheat provides pathogenicity-related genes

Gurjar,

Kumar,

Shakouka

et al. 2023

Front. Microbiol.

View full text Add to dashboard Cite

show abstract

“…To our knowledge, several DNA-based methods have attempted to distinguish Tilletia species, but none have been able to separate T. caries and T. laevis ( Mulholland and Mc Ewan, 2000 ; Zouhar et al., 2010 ; Pieczul et al., 2018 ; Forster et al., 2022 ). Phylogenetic studies also failed to distinguish these two species and more recently some authors have suggested that T. caries and T. laevis could be considered as two morphotypes of the same species ( Sedaghatjoo et al., 2021 ; Sedaghatjoo et al., 2022 ; Forster et al., 2022 ).…”

Section: Introductionmentioning

confidence: 99%

Rapid molecular assay for the evaluation of clove essential oil antifungal activity against wheat common bunt

Valente,

Orzali,

Manetti

et al. 2023

Front. Plant Sci.

View full text Add to dashboard Cite

Common bunt of durum wheat (DW), Triticum turgidum L. ssp. durum (Desf.) Husn., is caused by the two closely related fungal species belonging to Tilletia genus (Tilletiales, Exobasidiomycetes, Ustilaginomycotina): Tilletia laevis Kühn (syn. T. foetida (Wallr.) Liro.) and T. caries (DC) Tul. (syn. T. tritici (Bjerk.) G. Winter). This is one of the most devastating diseases in wheat growing areas worldwide, causing considerable yield loss and reduction of wheat grains and flour quality. For these reasons, a fast, specific, sensitive, and cost-effective method for an early diagnosis of common bunt in wheat seedlings is urgent. Several molecular and serological methods were developed for diagnosis of common bunt in wheat seedlings but at late phenological stages (inflorescence) or based on conventional PCR amplification, with low sensitivity. In this study, a TaqMan Real Time PCR-based assay was developed for rapid diagnosis and quantification of T. laevis in young wheat seedlings, before tillering stage. This method, along with phenotypic analysis, was used to study conditions favoring pathogen infection and to evaluate the effectiveness of clove oil-based seed dressing in controlling the disease. The overall results showed that: i) the Real Time PCR assay was able to quantify T. laevis in young wheat seedlings after seed dressing by clove oil in different formulations, greatly reducing times of analysis. It showed high sensitivity, detecting up to 10 fg of pathogen DNA, specificity and robustness, allowing to directly analyze crude plant extracts and representing a useful tool to speed up the tests of genetic breeding for disease resistance; ii) temperature was a critical point for disease development when using wheat seeds contaminated by T. laevis spores; iii) at least one of the clove oil-based formulations tested was able to efficiently control wheat common bunt, suggesting that clove oil dressing could represent a promising tool for managing the disease, especially in sustainable farming.

show abstract

“…The causal agents of this fungal disease belong to the division of the Basidiomycota and show differences in teliospore morphology. Despite this phenotypic variation, genetic studies suggest that T. tritici and T. laevis might be the same species ( Carris, 2010 ; Sedaghatjoo et al., 2022 ). They also have identical life cycles with teliospores germinating at temperatures between 5°C and 20°C, relatively independent of light conditions ( Lowther, 1950 ).…”

Section: Introductionmentioning

confidence: 99%

Common bunt in organic wheat: unravelling infection characteristics relevant for resistance breeding

Lunzer,

Dumalasová,

Pfatrisch

et al. 2023

Front. Plant Sci.

View full text Add to dashboard Cite

Common bunt caused by Tilletia tritici and T. laevis has re-emerged as a major threat to wheat yield and quality, especially in organic farming. Resistance against its causal agents is present in the wheat gene pool and provides the most economically efficient and sustainable way to combat the disease since seed treatments approved for organic farming are rare and do not always provide full protection. We tested a winter wheat diversity panel with 128 lines for common bunt resistance in Austria and Czechia, and evaluated the applicability of marker-assisted selection (MAS) via Kompetitive Allele-Specific PCR markers in genotypes with high variation in their genetic background. Field trials were conducted across two years and artificially inoculated with local bunt populations. The virulence patterns of these inocula differed between locations and only 15% of the tested genotypes showed stable resistance across test sites. Number and weight of bunt sori relative to the total number and weight of wheat grains in sampled ears revealed that partial infections of ears were frequently appearing. Forty-two breeding lines harboring combinations of four different resistance QTL were developed through MAS. Out of these, a quarter were resistant with a maximum of 5% common bunt incidence. On the other hand, only six out of 46 tested commercial cultivars and breeding lines showed no infection with common bunt, underlining the present scarcity of bunt-resistant cultivars for organic wheat production. By this study we showed that MAS is a useful tool to speed up the selection of resistant lines even in populations with highly diverse genetic backgrounds, and that it is efficient in pyramiding resistance loci and thereby improving the level of resistance.

show abstract

Comparative genomics reveals low levels of inter- and intraspecies diversity in the causal agents of dwarf and common bunt of wheat and hint at conspecificity of Tilletia caries and T. laevis

Cited by 5 publications

References 167 publications

Draft genome sequencing of Tilletia caries inciting common bunt of wheat provides pathogenicity-related genes

Draft genome sequencing of Tilletia caries inciting common bunt of wheat provides pathogenicity-related genes

Rapid molecular assay for the evaluation of clove essential oil antifungal activity against wheat common bunt

Common bunt in organic wheat: unravelling infection characteristics relevant for resistance breeding

Contact Info

Product

Resources

About