Project description:In order to study the green anole dosage compensation mechanism we generated strand-specific RNA-seq libraries for a total of 186 samples from the green anole and other representative amniotes (human, mouse, opossum, platypus, chicken and xenopus). Moreover, in order to understand the dosage compensation mechanism of A. carolinensis, we generated ChIP-Seq data for the histone modification H4K16ac and compared levels of acetylation between males and females. Moreover, we reconstructed 7 Y-linked transcripts of Anolis carolinensis based on a male/female subtraction approach and validate these Y sequences using re-sequenced genomes.

Project description:The morphologies of the amniote phallus and limbs differ dramatically, but these structures share signaling pathways and patterns of gene expression in early development. Thus far, the extent to which genital and limb transcriptional networks share cis-regulatory elements has remained unexplored. Using chromatin immunoprecipitation with an antibody against the histone modification mark H3K27ac followed by Illumina high-throughput sequencing, we identify thousands of active enhancers in developing limbs, genital tubercle, and additional embryonic tissues of the mouse and green anole lizard (Anolis carolinensis). We show in global analyses of cis-regulatory activity that embryonic limbs and genitalia display overlapping patterns of enhancer activity, and that many H3K27ac-marked regions are shared between mouse and green anole. Our findings support the hypothesis that the amniote phallus evolved through co-option of a preexisting appendage developmental program.

Project description:Anolis carolinensis embryos were collected 0-1 days post egg laying, and total RNA was extracted for RNA-Seq analysis (Illumina Hi-Seq2000). Transcriptome sequence from these stages in the green anole, equivalent to mouse 9.5-10.5 dpc embryos, will help to improve gene annotations in A. carolinensis and provide expression level information for key organogenesis and patterning processes.

Project description:Comparative RNA-seq profiling of mouse and anole lizard developing limbs and external genitalia, to assess evolutionary and develomental relationships, between the two tissue types based on transcriptomic data RNA-seq profiling of embryonic limb and external genitalia tissue at different stages of development, in mouse and anole lizard, in duplicates, using Illumina HiSeq

Project description:Anolis carolinensis embryos were collected 0-1 days post egg laying, and total RNA was extracted for RNA-Seq analysis (Illumina Hi-Seq2000). Transcriptome sequence from these stages in the green anole, equivalent to mouse 9.5-10.5 dpc embryos, will help to improve gene annotations in A. carolinensis and provide expression level information for key organogenesis and patterning processes. Anolis carolinensis embryos were collected 0-1 days post egg laying for RNA-Seq analysis. The two embryos collected were at 28 somite-pair (28S) and 38 somite-pair (38S), equivalent to mouse 9.5 dpc and 10.5 dpc embryos, respectively. Total RNA was extracted using the total RNA component of the mirVana (Ambion) kit, RNA-Seq library prep was carried out using the NuGEN Ovation RNA-Seq kit, and sequencing was carried out on an Illumina HiSeq 2000, following the manufacturer's protocol. The untrimmed data was then aligned to the Anolis carolinensis reference genome (Anocar2.0) using tophat. Published: Eckalbar WL, Lasku E, Infante CR, Elsey RM, Markov GJ, Allen AN, Corneveaux JJ, Losos JB, DeNardo DF, Huentelman MJ, Wilson-Rawls J, Rawls A, Kusumi K. Somitogenesis in the anole lizard and alligator reveals evolutionary convergence and divergence in the amniote segmentation clock. Dev Biol. DOI: 10.1016/j.ydbio.2011.11.021

Project description:This project aims to establish the embryonic anole lung as a model for investigating lung development and more general epithelial morphogenesis by generating a set of single-cell RNA-seq (scRNA-seq) data from late-stage embryonic lungs taken from brown anoles (Anolis sagrei). The anole lung, with its simple architecture, provides a novel tool for investigating signaling in a less complex respiratory system than the murine lung, and this data set would be a large advance in making this system more widely known and accesible among developmental biologists.

Project description:For the purpose of facilitating gene annotation, a transcriptome profile of the developing anole eye was used to identify coding and non-coding regions in the Anolis genome. RNA datasets were generated by collecting samples from three subregions of the anole posterior globe (central, temporal, and nasal) which was comprised of nerual retina, retinal pigmented epithelium, choriod, and scleral tissues. A total of five sample replicates were made. Each replicate incorporated pooled tissues collected from three stage 16.5 developing anole embryos.

Project description:Comparative RNA-seq profiling of mouse and anole lizard developing limbs and external genitalia, to assess evolutionary and develomental relationships, between the two tissue types based on transcriptomic data

Project description:chicken sequence data (ddRADseq)

Project description:Ancylomenes pedersoni ddRADseq data