Genetic diversity of Phytophthora colocasiae isolates in India based on AFLP analysis

Nath, Vishnu Sukumari; Senthil, Muthukrishnan; Hegde, Vinayaka; Jeeva, M. L.; Misra, R. S.; Veena, S; Raj, Mithun

doi:10.1007/s13205-012-0101-5

Cited by 13 publications

(5 citation statements)

References 30 publications

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“…Pathogens with higher genetic diversity, significant effective population size, a mixed reproduction system, and great mutation rates are assumed to possess the highest evolutionary potential ( Nath et al. 2013 ).…”

Section: Discussionmentioning

confidence: 99%

Trends in the molecular epidemiology and population genetics of emergingSporothrixspecies

Roberto¹,

Carvalho²,

Beale³

et al. 2021

Studies in Mycology

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Paracoccidioidomycosis (PCM) is a life-threatening systemic fungal infection acquired after inhalation of Paracoccidioides propagules from the environment. The main agents include members of the P. brasiliensis complex (phylogenetically-defined species S1, PS2, PS3, and PS4) and P. lutzii . DNA-sequencing of protein-coding loci (e.g., GP43 , ARF , and TUB1 ) is the reference method for recognizing Paracoccidioides species due to a lack of robust phenotypic markers. Thus, developing new molecular markers that are informative and cost-effective is key to providing quality information to explore genetic diversity within Paracoccidioides . We report using new amplified fragment length polymorphism (AFLP) markers and mating-type analysis for genotyping Paracoccidioides species. The bioinformatic analysis generated 144 in silico AFLP profiles, highlighting two discriminatory primer pairs combinations (#1 EcoRI-AC/MseI-CT and #2 EcoRI-AT/MseI-CT). The combinations #1 and #2 were used in vitro to genotype 165 Paracoccidioides isolates recovered from across a vast area of South America. Considering the overall scored AFLP markers in vitro (67–87 fragments), the values of polymorphism information content ( PIC = 0.3345–0.3456), marker index ( MI = 0.0018), effective multiplex ratio ( E = 44.6788–60.3818), resolving power ( Rp = 22.3152–34.3152), discriminating power ( D = 0.5183–0.5553), expected heterozygosity ( H = 0.4247–0.4443), and mean heterozygosity ( H avp = 0.00002–0.00004), demonstrated the utility of AFLP markers to speciate Paracoccidioides and to dissect both deep and fine-scale genetic structures. Analysis of molecular variance (AMOVA) revealed that the total genetic variance (65-66 %) was due to variability among P. brasiliensis complex and P. lutzii (PhiPT = 0.651–0.658, P < 0.0001), supporting a highly structured population. Heterothallism was the exclusive mating strategy, and the distributions of MAT1-1 or MAT1-2 idiomorphs were not significantly skewed (1:1 ratio) for P. brasiliensis s. str. (χ 2 = 1.025; P = 0.3113), P. venezuelensis (χ 2 = 0.692; P = 0.4054), and P. lutzii (χ 2 = 0.027; P = 0.8694), supporting random mating within each species. In contrast, skewed distributions were found ...

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Section: Discussionmentioning

confidence: 99%

Trends in the molecular epidemiology and population genetics of emergingSporothrixspecies

Roberto¹,

Carvalho²,

Beale³

et al. 2021

Studies in Mycology

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“…Rather low values for population differentiation have been reported also in other studies on molecular variation in fungi. AFLP-based studies have thus shown that 7 % of the total genetic variability occurred between populations of Fusarium pseudograminearum [12] and 14 % between populations of Phytophthora colocasiae [24] while 11 % of SNP-based variability occurred between populations of Ustilaginoidea virens [29]. Low genetic differentiation is often hypothesized to result from high levels of gene flow thus preventing geographic subdivision [15].…”

Section: Resultsmentioning

confidence: 99%

Assessment of diversity and genetic relationships of Neonectria ditissima: the causal agent of fruit tree canker

et al. 2016

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Background Neonectria ditissima is one of the most important fungal pathogens of apple trees, where it causes fruit tree canker. Information about the amount and partitioning of genetic variation of this fungus could be helpful for improving orchard management strategies and for breeding apple cultivars with high levels of genetically determined resistance. In this study single-spore Neonectria isolates originating from both the same and from different perithecia, apple cultivars and apple orchards in Sweden and Belgium, were evaluated for AFLP- and SSR-based genetic similarity and for mating system.ResultsSeven SSR loci produced a total of 31 alleles with an average of 4 alleles per locus, while 11 AFLP primer combinations produced an average of 35 fragments per primer combination and 71 % polymorphic fragments. An AFLP-based analysis of molecular variance (AMOVA) revealed that 89 % of the variation was found within orchards and 11 % between orchards. Genetic similarity among the studied isolates was illustrated with a principal coordinate analyseis (PCoA) and a dendrogram. AFLP-based Jaccard’s similarity coefficients were the highest when single-ascospore isolates obtained from the same perithecium were compared, medium-high for isolates from different perithecia on the same tree, and lowest when isolates from different trees were compared.ConclusionsBased on the results of PCoA and AMOVA analysis, isolates from the same or geographically close orchards did not group together. Since AFLP profiles differed also when single-ascospore isolates from the same perithecium were compared, the mating system of N. ditissima is most likely heterothallic.

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“…Genetic diversity in A.bataticola This study showed RAPD analysis, ITS sequencing and the secondary structures derived from the ITS2 sequences portray high levels of genetic variation among the isolates of A. bataticola. High levels of genetic variation has also been reported for other fungal pathogens [9,47]. A high level of genetic variation in an organism is usually explained by sexual reproduction since it creates novel recombinants.…”

Section: Secondary Structure Predictionmentioning

confidence: 98%

“…For example, reliance on fungicides may develop resistant mutants while planting with pathogen free material can lead to re-infection. The use of resistant cultivars is an important method for reducing the proliferation of plant pathogens [9]. Resistance breeding depends on understanding the genetic diversity of the pathogen in the area of production [8].…”

Section: Introductionmentioning

confidence: 99%

Assessing the Genetic Diversity of <i>Alternaria Bataticola</i> in South Africa using Molecular Markers

Chalwe

Adebola

Pillay

2017

AJAS

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Sweetpotato (Ipomoea batatas) an economically important food crop is affected by viral and fungal diseases. The most important fungal disease is Alternaria blight caused by Alternaria bataticola. Alternaria blight can be controlled using fungicides and cultural practices in the short-term. A sustainable control measure is the development of resistant sweetpotato cultivars. A prerequisite to this approach is the knowledge of the genetic diversity of this fungal pathogen. This study assessed the genetic diversity of A. bataticola in South Africa using RAPD analysis, DNA sequencing and secondary structures of the ITS2 region. Samples were collected from 25 different localities and the pathogen was identified in the laboratory. Both RAPD and ITS2 sequence data showed that there is high levels of genetic diversity among the isolates of A. bataticola. Although the dendrograms generated from the RAPD and ITS2 sequences clustered some isolates according to their place of origin, the majority of isolates did not group according to their geographic origins. The predicted ITS2 secondary structure models were variable ranging from simple to complex. The unique secondary structures of each isolate can be used to identify and distinguish each of the isolates used in this study.Â Â

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Genetic diversity of Phytophthora colocasiae isolates in India based on AFLP analysis

Cited by 13 publications

References 30 publications

Trends in the molecular epidemiology and population genetics of emergingSporothrixspecies

Trends in the molecular epidemiology and population genetics of emergingSporothrixspecies

Assessment of diversity and genetic relationships of Neonectria ditissima: the causal agent of fruit tree canker

Assessing the Genetic Diversity of <i>Alternaria Bataticola</i> in South Africa using Molecular Markers

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