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1.
Gene ; 542(2): 98-108, 2014 Jun 01.
Article in English | MEDLINE | ID: mdl-24680726

ABSTRACT

BACKGROUND: Frogs are a diverse group of vertebrates for which limited genomic resources are available. Natural frog populations face a multitude of threats, including habitat degradation, infectious disease, and environmental change. Characterizing the functional genomics of anuran tissues in general - and the immune system in particular - will enhance our knowledge of genetic and epigenetic responses to environmental threats and inform conservation and recovery efforts. RESULTS: To increase the number of species with genomic datasets and characterize gene expression in immune-related tissues, we sequenced the transcriptomes of three tissues from two frogs (Espadarana prosoblepon and Lithobates yavapaiensis) on the Roche 454 GS FLX platform. Our sequencing produced 8881 E. prosoblepon and 5428 L. yavapaiensis annotated gene products after de novo assembly and Gene Ontology classification. Transcripts of the innate and acquired immune system were expressed in all three tissues. Inflammatory response and acquired immunity transcripts were significantly more diverged between E. prosoblepon and L. yavapaiensis compared to innate immunity and immune system development transcripts. Immune-related transcripts did not show an overall elevated rate of functional evolution, with the exception of glycosyl proteases, which include lysozymes, central bacterial and fungal-killing enzymes of the innate immune system. CONCLUSIONS: The three frog transcriptomes provide more than 600 Mbp of new genomic data, and will serve as a valuable framework for future comparative studies of non-model anurans. Additionally, we show that immune gene divergence varies by functional group and that transcriptome studies can be useful in comparing rates of evolutionary change across gene families.


Subject(s)
Immune System/physiology , Proteins/genetics , Ranidae/genetics , Ranidae/immunology , Transcriptome , Animals , Anura/genetics , Anura/metabolism , Anura/microbiology , Costa Rica , Evolution, Molecular , Female , Gene Ontology , Genome/immunology , High-Throughput Nucleotide Sequencing , Inflammation/genetics , Inflammation/immunology , Intestines/immunology , Male , Muramidase/genetics , Muramidase/immunology , Mycoses/microbiology , Mycoses/veterinary , Panama , Polymorphism, Single Nucleotide , Proteins/immunology , Ranidae/microbiology , Skin/immunology , Spleen/immunology , Spleen/physiology
2.
Evolution ; 59(9): 2048-55, 2005 Sep.
Article in English | MEDLINE | ID: mdl-16261741

ABSTRACT

In North American Lycium (Solanaceae), the evolution of gender dimorphism has been proposed as a means of restoring outcrossing after polyploidization causes the loss of self-incompatibility. Previous studies of this process in Lycium focused on comparisons between species that differ in ploidy. We examined intraspecific variation in floral morphology and DNA content in populations of L. californicum to determine correlations between sexual system and cytotype. We also used nuclear ITS and GBSSI sequence data to determine whether diploid and polyploid forms represent the same phylogenetic species, and the phylogeographic relationships among populations and ploidy levels. Within populations, no variation in ploidy was found, although among populations there was a perfect correspondence between sexual system and cytotype. Diploid populations were all hermaphroditic, whereas tetraploid populations were all gender dimorphic. There was no clear geographic pattern to the occurrence of diploid and tetraploid forms. Phylogenetic analysis confirms that L. californicum, regardless of ploidy, forms a monophyletic group within the genus Lycium. Sequences from diploid and polyploid individuals did not form reciprocally monophyletic clades, indicating either multiple gains of polyploidy, ongoing gene flow between cytotypes, or lack of lineage sorting since the evolution of polyploidy. The correspondence between ploidy and sex expression is consistent with the hypothesis that polyploidization triggers the evolution of gender dimorphism in this and other Lycium species.


Subject(s)
Flowers/anatomy & histology , Lycium/genetics , Phylogeny , Ploidies , Sex Characteristics , Arizona , Base Sequence , Bayes Theorem , California , DNA Primers , Flow Cytometry , Likelihood Functions , Lycium/anatomy & histology , Mexico , Models, Genetic , Molecular Sequence Data , Reproduction/genetics , Sequence Analysis, DNA , Species Specificity
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