Your search keyword '"Yashira M. Afanador-Hernández"' showing total 3 results

1. Innovative assembly strategy contributes to understanding the evolution and conservation genetics of the endangered Solenodon paradoxus from the island of Hispaniola

Author

Kirill Grigorev, Filipe Silva, Stephen J. O'Brien, Adrell Núñez, Taras K. Oleksyk, Alfred L. Roca, Rosanna Carreras, Juan Carlos Martínez-Cruzado, Luis E. Rodríguez, Aleksey Komissarov, Ksenia Krasheninnikova, Walter Wolfsberger, Pavel Dobrynin, Liz A. Paulino, Sergey Kliver, Jessica R. Brandt, Audrey J. Majeske, J. David Hernández-Martich, Adam L. Brandt, Yashira M. Afanador-Hernández, and Agostinho Antunes

Subjects

0106 biological sciences, 0301 basic medicine, Conservation genetics, Heterozygote, Population, Health Informatics, Biology, Subspecies, 010603 evolutionary biology, 01 natural sciences, Genome, Paradoxus, 03 medical and health sciences, Species Specificity, Hispaniola, Solenodon, Animals, heterozygosity, 14. Life underwater, education, Conserved Sequence, Islands, Mammals, Caribbean, education.field_of_study, island evolution, Phylogenetic tree, Research, Endangered Species, Cuba, natural selection, Sequence Analysis, DNA, 15. Life on land, biology.organism_classification, Biological Evolution, string graph, Computer Science Applications, 030104 developmental biology, Evolutionary biology, de Bruijn, genome assembly, Solenodon paradoxus, isolation, Reference genome

Abstract

Solenodons are insectivores that live in Hispaniola and Cuba. They form an isolated branch in the tree of placental mammals that are highly divergent from other eulipothyplan insectivores The history, unique biology, and adaptations of these enigmatic venomous species could be illuminated by the availability of genome data. However, a whole genome assembly for solenodons has not been previously performed, partially due to the difficulty in obtaining samples from the field. Island isolation and reduced numbers have likely resulted in high homozygosity within the Hispaniolan solenodon (Solenodon paradoxus). Thus, we tested the performance of several assembly strategies on the genome of this genetically impoverished species. The string graph–based assembly strategy seemed a better choice compared to the conventional de Bruijn graph approach due to the high levels of homozygosity, which is often a hallmark of endemic or endangered species. A consensus reference genome was assembled from sequences of 5 individuals from the southern subspecies (S. p. woodi). In addition, we obtained an additional sequence from 1 sample of the northern subspecies (S. p. paradoxus). The resulting genome assemblies were compared to each other and annotated for genes, with an emphasis on venom genes, repeats, variable microsatellite loci, and other genomic variants. Phylogenetic positioning and selection signatures were inferred based on 4,416 single-copy orthologs from 10 other mammals. We estimated that solenodons diverged from other extant mammals 73.6 million years ago. Patterns of single-nucleotide polymorphism variation allowed us to infer population demography, which supported a subspecies split within the Hispaniolan solenodon at least 300 thousand years ago.

Published

2017

2. Innovative assembly strategy contributes to the understanding of evolution and conservation genetics of the critically endangered Solenodon paradoxus from the island of Hispaniola

Author

Rosanna Carreras, Taras K. Oleksyk, Ksenia Krasheninnikova, Pavel Dobrynin, Filipe Silva, Adrell Núñez, Alfred L. Roca, Audrey J. Majeske, Juan Carlos Martínez-Cruzado, Agostinho Antunes, Aleksey Komissarov, Sergey Kliver, Walter Wolfsberger, Yashira M. Afanador-Hernández, Luis E. Rodríguez, J. David Hernández-Martich, Kirill Grigorev, Stephen J. O'Brien, and Liz A. Paulino

Subjects

Conservation genetics, education.field_of_study, Phylogenetic tree, Population, Solenodon, Zoology, Biology, Subspecies, biology.organism_classification, education, Genome, Paradoxus, Reference genome

Abstract

Solenodons are insectivores living on the Caribbean islands, with few surviving related taxa. The genus occupies one of the most ancient branches among the placental mammals. The history, unique biology and adaptations of these enigmatic venomous species, can be greatly advanced given the availability of genome data, but the whole genome assembly for solenodons has never been previously performed, partially due to the difficulty in obtaining samples from the field. Island isolation has likely resulted in extreme homozygosity within the Hispaniolan solenodon (Solenodon paradoxus), thus we tested the performance of several assembly strategies for performance with genetically impoverished species’ genomes. The string-graph based assembly strategy seems a better choice compared to the conventional de Brujn graph approach, due to the high levels of homozygosity, which is often a hallmark of endemic or endangered species. A consensus reference genome was assembled from sequences of five individuals from the southern subspecies (S. p. woodi). In addition, we obtained one additional sequence of the northern subspecies (S. p. paradoxus). The resulting genome assemblies were compared to each other, and annotated for genes, with a specific emphasis on the venomous genes, repeats, variable microsatellite loci and other genomic variants. Phylogenetic positioning and selection signatures were inferred based on 4,416 single copy orthologs from 10 other mammals. Patterns of SNP variation allowed us to infer population demography, which indicated a subspecies split within the Hispaniolan solenodon at least 300 Kya.

Published

2017

3. Mitogenomic sequences support a north–south subspecies subdivision within Solenodon paradoxus

Author

Adam L. Brandt, Pavel Dobrynin, J. David Hernández-Martich, Juan Carlos Martínez-Cruzado, Liz A. Paulino, Taras K. Oleksyk, Stephen J. O'Brien, Luis E. Rodríguez, Roberto Maria, Jessica R. Brandt, Yashira M. Afanador-Hernández, William J. Murphy, Alfred L. Roca, Aleksey Komissarov, Adrell Núñez, and Kirill Grigorev

Subjects

0106 biological sciences, 0301 basic medicine, Subspecies, 010603 evolutionary biology, 01 natural sciences, Paradoxus, Evolution, Molecular, 03 medical and health sciences, Genome Size, Phylogenetics, Genetics, Solenodon, Animals, Molecular Biology, Phylogeny, biology, Ecology, Insectivora, High-Throughput Nucleotide Sequencing, Eulipotyphla, Sequence Analysis, DNA, biology.organism_classification, Mitochondria, Genetic divergence, 030104 developmental biology, Evolutionary biology, Genome, Mitochondrial, Taxonomy (biology), Mammal

Abstract

Solenodons are insectivores found only in Hispaniola and Cuba, with a Mesozoic divergence date versus extant mainland mammals. Solenodons are the oldest lineage of living eutherian mammal for which a mitogenome sequence has not been reported. We determined complete mitogenome sequences for six Hispaniolan solenodons (Solenodon paradoxus) using next-generation sequencing. The solenodon mitogenomes were 16,454–16,457 bp long and carried the expected repertoire of genes. A mitogenomic phylogeny confirmed the basal position of solenodons relative to shrews and moles, with solenodon mitogenomes estimated to have diverged from those of other mammals ca. 78 Mya. Control region sequences of solenodons from the northern (n = 3) and southern (n = 5) Dominican Republic grouped separately in a network, with FST = 0.72 (p = 0.036) between north and south. This regional genetic divergence supports previous morphological and genetic reports recognizing northern (S. p. paradoxus) and southern (S. p. woodi) subspecies in need of separate conservation plans.

Published

2016