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1.
Plant Cell ; 36(10): 4109-4131, 2024 Oct 03.
Artículo en Inglés | MEDLINE | ID: mdl-38686825

RESUMEN

The subgenus Tillandsia (Bromeliaceae) belongs to one of the fastest radiating clades in the plant kingdom and is characterized by the repeated evolution of Crassulacean acid metabolism (CAM). Despite its complex genetic basis, this water-conserving trait has evolved independently across many plant families and is regarded as a key innovation trait and driver of ecological diversification in Bromeliaceae. By producing high-quality genome assemblies of a Tillandsia species pair displaying divergent photosynthetic phenotypes, and combining genome-wide investigations of synteny, transposable element (TE) dynamics, sequence evolution, gene family evolution, and temporal differential expression, we were able to pinpoint the genomic drivers of CAM evolution in Tillandsia. Several large-scale rearrangements associated with karyotype changes between the 2 genomes and a highly dynamic TE landscape shaped the genomes of Tillandsia. However, our analyses show that rewiring of photosynthetic metabolism is mainly obtained through regulatory evolution rather than coding sequence evolution, as CAM-related genes are differentially expressed across a 24-h cycle between the 2 species but are not candidates of positive selection. Gene orthology analyses reveal that CAM-related gene families manifesting differential expression underwent accelerated gene family expansion in the constitutive CAM species, further supporting the view of gene family evolution as a driver of CAM evolution.


Asunto(s)
Elementos Transponibles de ADN , Evolución Molecular , Familia de Multigenes , Elementos Transponibles de ADN/genética , Metabolismo Ácido de las Crasuláceas/genética , Genoma de Planta/genética , Filogenia , Regulación de la Expresión Génica de las Plantas , Bromeliaceae/genética , Bromeliaceae/metabolismo , Fotosíntesis/genética , Tillandsia/genética , Tillandsia/metabolismo , Sintenía , Genes de Plantas
2.
Mol Phylogenet Evol ; 190: 107954, 2024 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-37898295

RESUMEN

Species are seen as the fundamental unit of biotic diversity, and thus their delimitation is crucial for defining measures for diversity assessments and studying evolution. Differences between species have traditionally been associated with variation in morphology. And yet, the discovery of cryptic diversity suggests that the evolution of distinct lineages does not necessarily involve morphological differences. Here, we analyze 1,684,987 variant sites and over 4,000 genes for more than 400 samples to show how a tropical montane plant lineage (Geonoma undata species complex) is composed of numerous unrecognized genetic groups that are not morphologically distinct. We find that 11 to 14 clades do not correspond to the three currently recognized species. Most clades are genetically different and geographic distance and topography are the most important factors determining this genetic divergence. The genetic structure of this lineage does not match its morphological variation. Instead, this species complex constitutes the first example of a hyper-cryptic plant radiation in tropical mountains.


Asunto(s)
Biodiversidad , Flujo Genético , Filogenia , Especiación Genética
3.
Microb Ecol ; 86(1): 617-623, 2023 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-35941249

RESUMEN

To defend themselves against pathogenic microorganisms, honey bees resort to social immunity mechanisms, such as the secretion of antibiotic compounds in the jelly they feed to their larvae. Whereas the bactericidal activity of jelly fed to queen larvae is well studied, little is known about the bioactivity of compositionally different jelly fed to worker larvae. However, the numerous worker larvae are likely to drive the spread of the microorganism and influence its virulence and pathogenesis. Diluted jelly or extracts are mostly used for jelly bioactivity tests, which may bias the evaluation of the pathogen's resistance and virulence. Here, we compared the bactericidal effect of pure and diluted jellies destined for queen and worker larvae on Melissococcus plutonius, the etiological agent of the European foulbrood (EFB) disease of honey bees, and on a secondary invader bacteria, Enterococcus faecalis. We tested three strains of M. plutonius with varying virulence to investigate the association between resistance to antibacterial compounds and virulence. The resistance of the bacteria varied but was not strictly correlated with their virulence and was lower in pure than in diluted jelly. Resistance differed according to whether the jelly was destined for queen or worker larvae, with some strains being more resistant to queen jelly and others to worker jelly. Our results provide a biologically realistic assessment of host defenses via nutritive jelly and contribute to a better understanding of the ecology of M. plutonius and of secondary invaders bacteria in the honey bee colony environment, thus shedding light on the selective forces affecting their virulence and on their role in EFB pathogenesis.


Asunto(s)
Antibacterianos , Enterococcaceae , Abejas , Animales , Larva/microbiología , Antibacterianos/farmacología , Bacterias
4.
Plant Cell Environ ; 43(12): 2987-3001, 2020 12.
Artículo en Inglés | MEDLINE | ID: mdl-32677061

RESUMEN

The adaptive radiation of Bromeliaceae (pineapple family) is one of the most diverse among Neotropical flowering plants. Diversification in this group was facilitated by shifts in several adaptive traits or "key innovations" including the transition from C3 to CAM photosynthesis associated with xeric (heat/drought) adaptation. We used phylogenomic approaches, complemented by differential gene expression (RNA-seq) and targeted metabolite profiling, to address the mechanisms of C3 /CAM evolution in the extremely species-rich bromeliad genus, Tillandsia, and related taxa. Evolutionary analyses of whole-genome sequencing and RNA-seq data suggest that evolution of CAM is associated with coincident changes to different pathways mediating xeric adaptation in this group. At the molecular level, C3 /CAM shifts were accompanied by gene expansion of XAP5 CIRCADIAN TIMEKEEPER homologs, a regulator involved in sugar- and light-dependent regulation of growth and development. Our analyses also support the re-programming of abscisic acid-related gene expression via differential expression of ABF2/ABF3 transcription factor homologs, and adaptive sequence evolution of an ENO2/LOS2 enolase homolog, effectively tying carbohydrate flux to abscisic acid-mediated abiotic stress response. By pinpointing different regulators of overlapping molecular responses, our results suggest plausible mechanistic explanations for the repeated evolution of correlated adaptive traits seen in a textbook example of an adaptive radiation.


Asunto(s)
Bromeliaceae/genética , Metabolismo Ácido de las Crasuláceas/genética , Especiación Genética , Evolución Biológica , Bromeliaceae/metabolismo , Bromeliaceae/fisiología , Genes de Plantas/genética , Filogenia , Análisis de Secuencia de ARN , Secuenciación del Exoma , Secuenciación Completa del Genoma
5.
Mol Ecol ; 26(10): 2608-2622, 2017 May.
Artículo en Inglés | MEDLINE | ID: mdl-28316112

RESUMEN

Understanding the drivers and limits of species radiations is a crucial goal of evolutionary genetics and molecular ecology, yet research on this topic has been hampered by the notorious difficulty of connecting micro- and macroevolutionary approaches to studying the drivers of diversification. To chart the current research gaps, opportunities and challenges of molecular ecology approaches to studying radiations, we examine the literature in the journal Molecular Ecology and revisit recent high-profile examples of evolutionary genomic research on radiations. We find that available studies of radiations are highly unevenly distributed among taxa, with many ecologically important and species-rich organismal groups remaining severely understudied, including arthropods, plants and fungi. Most studies employed molecular methods suitable over either short or long evolutionary time scales, such as microsatellites or restriction site-associated DNA sequencing (RAD-seq) in the former case and conventional amplicon sequencing of organellar DNA in the latter. The potential of molecular ecology studies to address and resolve patterns and processes around the species level in radiating groups of taxa is currently limited primarily by sample size and a dearth of information on radiating nuclear genomes as opposed to organellar ones. Based on our literature survey and personal experience, we suggest possible ways forward in the coming years. We touch on the potential and current limitations of whole-genome sequencing (WGS) in studies of radiations. We suggest that WGS and targeted ('capture') resequencing emerge as the methods of choice for scaling up the sampling of populations, species and genomes, including currently understudied organismal groups and the genes or regulatory elements expected to matter most to species radiations.


Asunto(s)
Evolución Biológica , Ecología/tendencias , Genómica , Filogenia , Análisis de Secuencia de ADN
6.
Am J Bot ; 103(7): 1348-57, 2016 07.
Artículo en Inglés | MEDLINE | ID: mdl-27206461

RESUMEN

PREMISE OF THE STUDY: After decades of interest, the contribution of hybridization to ecological diversification remains unclear. Hybridization is a potent source of novelty, but nascent hybrid lineages must overcome reproductive and ecological competition from their parental species. Here, we assess whether hybrid speciation is advantageous over alternative modes of speciation, by comparing the geographical and ecological ranges and climatic niche evolutionary rates of stabilized allopolyploid vs. autopolyploids in the Alyssum montanum species complex. METHODS: We combined an extensive review of studies addressing the systematics and genetic diversity of A. montanum s.l., with flow cytometry and cloning of nuclear markers, to establish the ploidy level and putative hybrid nature of 205 populations. The respective geographic distribution and climatic niche evolution dynamics of the allo- and autopolyploids were investigated using multivariate analyses and comparative phylogenetic approaches. KEY RESULTS: As expected by theory, allopolyploids occur mainly along contact zones and are generally spatially overlapping with their diploid counterparts. However, they demonstrate higher rates of niche evolution and expand into different climatic conditions than those of their diploid congeners. In contrast, autopolyploids show lower rates of niche evolution, occupy ecological niches similar to their ancestors and are restricted to less competitive and peripheral geographic areas. CONCLUSIONS: Hybridization thus seems advantageous by promoting ecological niche evolution and more readily allowing escape from competitive exclusion.


Asunto(s)
Brassicaceae/genética , Variación Genética , Hibridación Genética , Ploidias , Evolución Biológica , Clima , Diploidia , Ecología , Geografía , Filogenia
7.
Mol Ecol Resour ; 22(3): 927-945, 2022 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-34606683

RESUMEN

Target capture has emerged as an important tool for phylogenetics and population genetics in nonmodel taxa. Whereas developing taxon-specific capture probes requires sustained efforts, available universal kits may have a lower power to reconstruct relationships at shallow phylogenetic scales and within rapidly radiating clades. We present here a newly developed target capture set for Bromeliaceae, a large and ecologically diverse plant family with highly variable diversification rates. The set targets 1776 coding regions, including genes putatively involved in key innovations, with the aim to empower testing of a wide range of evolutionary hypotheses. We compare the relative power of this taxon-specific set, Bromeliad1776, to the universal Angiosperms353 kit. The taxon-specific set results in higher enrichment success across the entire family; however, the overall performance of both kits to reconstruct phylogenetic trees is relatively comparable, highlighting the vast potential of universal kits for resolving evolutionary relationships. For more detailed phylogenetic or population genetic analyses, for example the exploration of gene tree concordance, nucleotide diversity or population structure, the taxon-specific capture set presents clear benefits. We discuss the potential lessons that this comparative study provides for future phylogenetic and population genetic investigations, in particular for the study of evolutionary radiations.


La captura selectiva de secuencias de ADN ha surgido como una herramienta importante para la filogenética y la genética de poblaciones en taxones no-modelo. Mientras que el desarrollo de sondas de captura específicas para cada taxón requiere un esfuerzo sostenido, las colecciones de sondas universales disponibles pueden tener una potencia disminuida para la reconstrucción de relaciones filogenéticas poco profundas o de radiaciones rápidas. Presentamos aquí un conjunto de sondas para la captura selectiva desarrollado recientemente para Bromeliaceae, una familia de plantas extensa, ecológicamente diversa y con tasas de diversificación muy variables. El conjunto de sondas se centra en 1776 regiones de codificación, incluyendo genes supuestamente implicados en rasgos de innovación clave, con el objetivo de potenciar la comprobación de una amplia gama de hipótesis evolutivas. Comparamos la potencia relativa de este conjunto de sondas diseñado para un taxón específico, Bromeliad1776, con la colección universal Angiosperms353. El conjunto específico da lugar a un mayor éxito de captura en toda la familia. Sin embargo, el rendimiento global de ambos kits para reconstruir árboles filogenéticos es relativamente comparable, lo que pone de manifiesto el gran potencial de los kits universales para resolver las relaciones evolutivas. Para análisis filogenéticos o de genética de poblaciones más detallados, como por ejemplo la exploración de la congruencia de los árboles de genes, la diversidad de nucleótidos o la estructura de la población, el conjunto de captura específico para Bromeliaceae presenta claras ventajas. Discutimos las lecciones potenciales que este estudio comparativo proporciona para futuras investigaciones filogenéticas y de genética de poblaciones, en particular para el estudio de las radiaciones evolutivas.


Asunto(s)
Evolución Biológica , Genética de Población , Filogenia
8.
Mol Ecol Resour ; 19(1): 221-234, 2019 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-30240120

RESUMEN

Understanding the genetics of biological diversification across micro- and macro-evolutionary time scales is a vibrant field of research for molecular ecologists as rapid advances in sequencing technologies promise to overcome former limitations. In palms, an emblematic, economically and ecologically important plant family with high diversity in the tropics, studies of diversification at the population and species levels are still hampered by a lack of genomic markers suitable for the genotyping of large numbers of recently diverged taxa. To fill this gap, we used a whole genome sequencing approach to develop target sequencing for molecular markers in 4,184 genome regions, including 4,051 genes and 133 non-genic putatively neutral regions. These markers were chosen to cover a wide range of evolutionary rates allowing future studies at the family, genus, species and population levels. Special emphasis was given to the avoidance of copy number variation during marker selection. In addition, a set of 149 well-known sequence regions previously used as phylogenetic markers by the palm biological research community were included in the target regions, to open the possibility to combine and jointly analyse already available data sets with genomic data to be produced with this new toolkit. The bait set was effective for species belonging to all three palm sub-families tested (Arecoideae, Ceroxyloideae and Coryphoideae), with high mapping rates, specificity and efficiency. The number of high-quality single nucleotide polymorphisms (SNPs) detected at both the sub-family and population levels facilitates efficient analyses of genomic diversity across micro- and macro-evolutionary time scales.


Asunto(s)
Arecaceae/clasificación , Arecaceae/genética , Marcadores Genéticos , Variación Genética , Genética de Población/métodos , Técnicas de Genotipaje/métodos , Biología Computacional , Evolución Molecular , Genoma de Planta , Genotipo , Biología Molecular/métodos , Secuenciación Completa del Genoma
9.
Front Plant Sci ; 10: 864, 2019.
Artículo en Inglés | MEDLINE | ID: mdl-31396244

RESUMEN

The tribe Geonomateae is a widely distributed group of 103 species of Neotropical palms which contains six ecologically important understory or subcanopy genera. Although it has been the focus of many studies, our understanding of the evolutionary history of this group, and in particular of the taxonomically complex genus Geonoma, is far from complete due to a lack of molecular data. Specifically, the previous Sanger sequencing-based studies used a few informative characters and partial sampling. To overcome these limitations, we used a recently developed Arecaceae-specific target capture bait set to undertake a phylogenomic analysis of the tribe Geonomateae. We sequenced 3,988 genomic regions for 85% of the species of the tribe, including 84% of the species of the largest genus, Geonoma. Phylogenetic relationships were inferred using both concatenation and coalescent methods. Overall, our phylogenetic tree is highly supported and congruent with taxonomic delimitations although several morphological taxa were revealed to be non-monophyletic. It is the first time that such a large genomic dataset is provided for an entire tribe within the Arecaceae. Our study lays the groundwork not only for detailed macro- and micro-evolutionary studies within the group, but also sets a workflow for understanding other species complexes across the tree of life.

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