In silico Characterization of Satellitomes and Cross-Amplification of Putative satDNAs in Two Species of the Hypostomus ancistroides Complex (Siluriformes, Loricariidae).

INTRODUCTION: The mapping of the satellite DNA on chromosomes is vital to understanding the distribution and evolution of repetitions in the genome since these chromosomal studies have shown the origin, evolutionary mode, and function of repetitive sequences. This study aimed to prospect the satellitome and determine its location in the genome of two cryptic species of Hypostomus, H. aff. ancistroides and H. ancistroides, with and without XX/XY sexual chromosome system. METHODS: Mitotic chromosomes and DNA extraction were obtained according to protocols. After the whole genome sequencing, the satDNAs were retrieved, amplified, and hybridized in chromosome preparations for male and female individuals. RESULTS: We found 30 satellite families (47 variants, two superfamilies) in H. ancistroides and 38 satellite families (45 variants, four superfamilies) in H. aff. ancistroides. The sequences varied from 14 bp to 2,662 bp in H. ancistroides and from 14 bp to 2,918 bp in H. aff. ancistroides. We did not observe any tandem repeats that were exclusive to each of the libraries; however, many sequences showed very different abundances and copy numbers between the libraries. Four satDNAs did not hybridize on the chromosomes of either species. Conversely, one satDNA hybridized in both species, HxySat1-80. However, the phenotypes found varied among species, populations, and in the same individual. There was no sign of HanSat3-464 and HanSat11-335 in any individuals of H. aff. ancistroides, but markings were in the chromosomes of H. ancistroides. HxySat12-1127 and HxySat8-52, on the other hand, were only hybridized in H. aff. ancistroides, while H. ancistroides had a negative sign. No hybridization of satDNAs was found in the X and Y sex chromosomes as they were mostly composed of euchromatin. CONCLUSION: We distinguish H. aff. ancistroides as genetically different from H. ancistroides, recognizing that such characteristics go far beyond morphological, karyotypic, and molecular data. Our data support the differential abundance and location of satellite DNAs and confirm that many organisms, including fish, have repetitive sequences that validate the library hypothesis. All found and validated satDNAs and the characterization of the satellitomes of the two species represent important contributions to cytogenomic studies of the genus Hypostomus.

Genome-wide expansion and reorganization during grass evolution: from 30 Mb chromosomes in rice and Brachypodium to 550 Mb in Avena.

BACKGROUND: The BOP (Bambusoideae, Oryzoideae, and Pooideae) clade of the Poaceae has a common ancestor, with similarities to the genomes of rice, Oryza sativa (2n = 24; genome size 389 Mb) and Brachypodium, Brachypodium distachyon (2n = 10; 271 Mb). We exploit chromosome-scale genome assemblies to show the nature of genomic expansion, structural variation, and chromosomal rearrangements from rice and Brachypodium, to diploids in the tribe Aveneae (e.g., Avena longiglumis, 2n = 2x = 14; 3,961 Mb assembled to 3,850 Mb in chromosomes). RESULTS: Most of the Avena chromosome arms show relatively uniform expansion over the 10-fold to 15-fold genome-size increase. Apart from non-coding sequence diversification and accumulation around the centromeres, blocks of genes are not interspersed with blocks of repeats, even in subterminal regions. As in the tribe Triticeae, blocks of conserved synteny are seen between the analyzed species with chromosome fusion, fission, and nesting (insertion) events showing deep evolutionary conservation of chromosome structure during genomic expansion. Unexpectedly, the terminal gene-rich chromosomal segments (representing about 50 Mb) show translocations between chromosomes during speciation, with homogenization of genome-specific repetitive elements within the tribe Aveneae. Newly-formed intergenomic translocations of similar extent are found in the hexaploid A. sativa. CONCLUSIONS: The study provides insight into evolutionary mechanisms and speciation in the BOP clade, which is valuable for measurement of biodiversity, development of a clade-wide pangenome, and exploitation of genomic diversity through breeding programs in Poaceae.

Structure-activity relationships of potent, selective inhibitors of neuronal nitric oxide synthase based on the 6-phenyl-2-aminopyridine structure.

The synthesis and structure-activity relationships of a series of 6-phenyl-2-aminopyridines that potently and selectively inhibit the neuronal isoform of nitric oxide synthase (nNOS) are described. Compound 14bi from this series exhibits potent in vivo activity in harmaline-induced cGMP formation in rat cerebellum, a functional model of nNOS inhibition, and in the PCP-induced hypermotility model in the rat. These results suggest that 14bi may be a useful reagent for evaluating potential therapeutic applications of nNOS inhibitors in the central nervous system.

Retroelements, transposons and methylation status in the genome of oil palm (Elaeis guineensis) and the relationship to somaclonal variation.

We isolated and characterized different classes of transposable DNA elements in oil palm (Elaeis guineensis) plants grown from seed, and plants regenerated from tissue culture that show mantling, an abnormality leading to flower abortion. Using PCR assays, reverse transcriptase fragments belonging to LINE-like and gypsy-like retroelements and transposase fragments of En/Spm transposons were cloned. Sequence analysis revealed the presence of a major family of LINEs in oil palm, with other diverged copies. Gypsy-like retrotransposons form a single homologous group, whereas En/Spm transposons are present in several diverged families. Southern analysis revealed their presence in low (LINEs) to medium (gypsy and En/Spm) copy numbers in oil palm, and in situ hybridization showed a limited number of distinct loci for each class of transposable element. No differences in the genomic organization of the different classes of transposable DNA elements between ortet palm (parent) and regenerated palm trees with mantled phenotype were detected, but different levels of sequence methylation were observed. During tissue culture, McrBC digestion revealed the genome-wide reduction in DNA methylation, which was restored to near-normal levels in regenerated trees. HPLC analysis showed that methylation levels were slightly lower in the regenerated trees compared to the ortet parent. The genomic organization of the transposable DNA elements in different oil palm species, accessions and individual regenerated trees was investigated revealing only minor differences. The results suggest that the mantled phenotype is not caused by major rearrangements of transposable elements but may relate to changes in the methylation pattern of other genomic components.