Coix lacryma-jobi L. is a cereal crop belonging to the Poaceae family, valued for its nutritional, medicinal, and ornamental uses. Among its varieties, two prominent landraces, C. lacryma-jobi var. kiboa and var. tapol, are cultivated for their distinct grain morphologies and favorable agronomic traits. However, despite its economic importance, detailed cytogenetic and molecular phylogenetic studies remain limited. This study presents a cytogenetic and molecular phylogenetic analysis of C. lacryma-jobi L. var. kiboa and tapol. Partial cytogenomic characterization on the 45S and 5S rDNA loci as well as Arabidopsis- type telomeric repeats using pre-labeled oligomer probes for fluorescence in situ hybridization (PLOP-FISH) technique confirmed a diploid chromosome number of 2n = 20 in both varieties. The 45S and 5S rDNA loci were localized on the nucleolar organizer region (NOR) of the short arm of chromosome 1 and the long arm of chromosome 4, respectively, indicating conserved chromosomal arrangements. Additionally, Arabidopsis-type telomeric repeats were detected at the terminal regions of all chromosomes. Chromosome sizes ranged from 2.98 ± 0.07 to 3.74 ± 0.11 μm in var. kiboa and from 3.42 ± 0.08 to 4.12 ± 0.05 μm in var. tapol. Phylogenetic analyses based on the internal transcribed spacer (ITS1 and ITS4) genes revealed a close genetic relationship between the two varieties, supporting their shared evolutionary lineage. These findings enhanced our understanding of adlay genetic diversity and provide foundational insights for plant breeding improvement, conservation strategies, and future genomic research.
Sesame (Sesamum indicum L.) is the queen of oil seed crops and is cultivated widely in tropical and subtropical areas. The availability of the sesame genome sequence presents unprecedented opportunities for studying its genetics, genomics, and evolution. In this report, we conducted a genome resequencing-based identification of sesame orthologs; in total, 26,379 coding sequences (CDSs) were isolated. Using a reciprocal best hit, we ultimately identified a total of 639 orthologs sets after one-to-one orthologs extraction across seven Pentapetalae plant species. These orthologs were considered to be the most credible between the two species, and in sesame. Furthermore, we performed a branch model-based maximum likelihood estimation of dN/dS of the orthologs, resulting in the identification of 198 evolutionarily accelerated orthologs and 66 positively selected genes (P-value and FDR < 0.05). An enrichment analysis and protein interaction network suggested 19 genes with important functions of the orthologs specific in sesame development and domestication. The method we used here provides a case study for identifying orthologous genes between sesame and other plants species that are distributed in equilibrium phylogenetically, which can be used in other plants.
The genus Brassica is an important resource for major agricultural products such as oils, vegetable and fodder. The Brassiceae tribe-specific whole-genome triplication that occurred ~15.9 million years ago influenced the speciation and morphological diversification that has been exploited in agriculture, making Brassica an excellent model system for studying polyploidization-mediated evolution. Genome sequencing and comparative genome analysis have revealed conserved structures and uncovered the genome evolution of Brassica species. While chromosome shuffling and asymmetric subgenome gene retention are widely reported in Brassica species, limited information is available about the dynamics of repetitive elements (REs), which are central to epigenetic mechanisms and thus play a pivotal role in plant genome adaptation and evolution. The assembled reference genome sequences of B. rapa (AA) and B. oleracea (CC), and their derived allotetraploid, B. napus (AACC), cover 58%, 86%, and 75% of their respective estimated genome sizes. The remaining non-assembled genome portions vary between these three genome sequences, and the major components remain hidden in each genome. Here, we review the dynamics of the major Brassica repeats that have played roles in speciation of the AA, CC, and AACC genomes. We show that 10 major Brassica repeats appear to occupy more than 50% of each respective unassembled genome sequence, yet represent less than 1% of assembled reference genome sequences. We have estimated their genome proportions using whole-genome Illumina reads and cytogenetic analyses in an attempt to understand the role of these repeats in genome evolution.
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