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1. The genome of the oomycete Peronosclerospora sorghi, a cosmopolitan pathogen of maize and sorghum, is inflated with dispersed pseudogenes

Author

Fletcher, Kyle, Martin, Frank, Isakeit, Thomas, Cavanaugh, Keri, Magill, Clint, and Michelmore, Richard

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Prevention, Biotechnology, Zea mays, Sorghum, Pseudogenes, Oomycetes, Peronospora, Edible Grain, Plant Diseases, chromosome, centromere, whole-genome sequencing, mitogenome, RNAseq, synteny, Biochemistry and cell biology, Statistics
Abstract

Several species in the oomycete genus Peronosclerospora cause downy mildew on maize and can result in significant yield losses in Asia. Bio-surveillance of these pathogens is a high priority to prevent epidemics on maize in the United States and consequent damage to the US economy. The unresolved taxonomy and dearth of molecular resources for Peronosclerospora spp. hinder these efforts. P. sorghi is a pathogen of sorghum and maize with a global distribution, for which limited diversity has been detected in the southern USA. We characterized the genome, transcriptome, and mitogenome of an isolate, representing the US pathotype 6. The highly homozygous genome was assembled using 10× Genomics linked reads and scaffolded using Hi-C into 13 chromosomes. The total assembled length was 303.2 Mb, larger than any other oomycete previously assembled. The mitogenome was 38 kb, similar in size to other oomycetes, although it had a unique gene order. Nearly 20,000 genes were annotated in the nuclear genome, more than described for other downy mildew causing oomycetes. The 13 chromosomes of P. sorghi were highly syntenic with the 17 chromosomes of Peronospora effusa with conserved centromeric regions and distinct chromosomal fusions. The increased assembly size and gene count of P. sorghi is due to extensive retrotransposition, resulting in putative pseudogenization. Ancestral genes had higher transcript abundance and were enriched for differential expression. This study provides foundational resources for analysis of Peronosclerospora and comparisons to other oomycete genera. Further genomic studies of global Peronosclerospora spp. will determine the suitability of the mitogenome, ancestral genes, and putative pseudogenes for marker development and taxonomic relationships.

Published
2023

9. Genome-Wide Association Analysis Uncovers Genes Associated with Resistance to Head Smut Pathotype 5 in Senegalese Sorghum Accessions.

Author

Ahn, Ezekiel, Prom, Louis K., Park, Sunchung, Hu, Zhenbin, and Magill, Clint W.

Subjects
GENOME-wide association studies, SORGHUM, SENEGALESE, NATURAL immunity, GENES
Abstract

A newly documented pathotype 5 of the soil-borne fungus Sporisorium reilianum, causing head smut in sorghum, was tested against 153 unexplored Senegalese sorghum accessions. Among the 153 sorghum accessions tested, 63 (41%) exhibited complete resistance, showing no signs of infection by the fungus. The remaining 90 accessions (59%) displayed varying degrees of susceptibility. Sorghum responses against S. reilianum were explored to analyze the potential link with previously known seed morphology-related traits and new phenotype data from 59 lines for seed weight. A genome-wide association study (GWAS) screened 297,876 SNPs and identified highly significant associations (p < 1 × 10−5) with head smut resistance in sorghum. By mapping these significant SNPs to the reference genome, this study revealed 35 novel candidate defense genes potentially involved in disease resistance. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Genetic Diversity and Classification of Colletotrichum sublineola Pathotypes Using a Standard Set of Sorghum Differentials.

Author

Prom, Louis K., Ahn, Ezekiel Jin Sung, Perumal, Ramasamy, Cuevas, Hugo E., Rooney, William L., Isakeit, Thomas S., and Magill, Clint W.

Subjects
ANTHRACNOSE, SORGHUM, GENETIC variation, COLLETOTRICHUM, CLUSTER analysis (Statistics), CLASSIFICATION, CULTIVARS
Abstract

Anthracnose, incited by Colletotrichum sublineola, is the most destructive foliar disease of sorghum and, under severe conditions, yield losses can exceed 80% on susceptible cultivars. The hyper-variable nature of the pathogen makes its management challenging despite the occurrence of several resistant sources. In this study, the genetic variability and pathogenicity of 140 isolates of C. sublineola, which were sequenced using restriction site-associated sequencing (RAD-Seq), resulted in 1244 quality SNPs. The genetic relationship based on the SNP data showed low to high genetic diversity based on isolates' origin. Isolates from Georgia and North Carolina were grouped into multiple clusters with some level of genetic relationships to each other. Even though some isolates from Texas formed a cluster, others clustered with isolates from Puerto Rico. The isolates from Puerto Rico showed scattered distribution, indicating the diverse nature of these isolates. A population structure and cluster analysis revealed that the genetic variation was stratified into eight populations and one admixture group. The virulence pattern of 30 sequenced isolates on 18 sorghum differential lines revealed 27 new pathotypes. SC748-5, SC112-14, and Brandes were resistant to all the tested isolates, while BTx623 was susceptible to all. Line TAM428 was susceptible to all the pathotypes, except for pathotype 26. Future use of the 18 differentials employed in this study, which contains cultivars/lines which have been used in the Americas, Asia, and Africa, could allow for better characterization of C. sublineola pathotypes at a global level, thus accelerating the development of sorghum lines with stable resistance to the anthracnose pathogen. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Genetic diversity among sorghum races and working groups based on AFLPs and SSRs

Author

Perumal, Ramasamy, Krishnaramanujam, Renganayaki, Menz, Monica A., Katile, Seriba, Dahlberg, Jeff, Magill, Clint W., and Rooney, William L.

Subjects
Sorghum -- Genetic aspects, Sorghum -- Research, Biological diversity -- Research, Agricultural industry, Business
Abstract

Forty-six converted exotic sorghum lines representing all five races and nine intermediate races of sorghum were fingerprinted using amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers. A total of 453 scored AFLP and SSR loci were used to calculate genetic similarities between the lines. The dendrogram constructed using UPGMA grouped 31 lines into three major clusters with Jaccard coefficients greater than 0.75. The remaining 15 lines were grouped into four small sub-clusters each with two lines and seven single accession nodes. Phenetic analysis using AFLP and SSR markers resulted in clusters corresponding to the kafir, guinea, caudatum and durra morphological groupings. Cluster and principal coordinate analyses indicate that the guinea, kafir and intermediate lines in this study are more closely related than phenotype would suggest. Likewise, caudatum and intermediates involving caudatum showed close genetic relationship with durra and durra intermediates. For the most part, morphological classification of race based on panicle traits was also reflected by similarity in DNA based polymorphisms. The molecular diversity of bicolor and associated intermediate races is not reflective of their common morphological classification, since this race and its intermediates are quite heterogenous.

Published
2007

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