Project description:Isospora basileuterusi Mello & Berto n. sp. is described based on material from the golden-crowned warbler Basileuterus culicivorus (Deppe) captured in the Itatiaia National Park (Parque Nacional do Itatiaia), a conservation unit in south-eastern Brazil. Oöcysts of the new species are ellipsoidal to ovoidal, measuring on average 25.2 × 21.1 μm, with a smooth, bi-layered wall, c.1.6 μm thick. Micropyle and oöcyst residuum are both absent, but one to three polar granules are present. Sporocysts are ellipsoidal to lemon-shaped, measuring on average 15.3 × 9.5 μm, with a knob-like Stieda body and a trapezoidal sub-Stieda body. Sporocyst residuum is present, usually as a body of membrane-bound granules. Sporozoites are vermiform, with refractile bodies. Four of the 19 warblers captured (21%) were infected with the new species. Molecular analysis of the mitochondrial cytochrome c oxidase subunit 1 (cox1) gene revealed a similarity of 99.5% between the new species and Isospora serinuse Yang, Brice, Elliot & Ryan, 2015 from island canaries Serinus canaria (L.) in Western Australia. The oöcysts of I. basileuterusi n. sp. can be distinguished from the four other Isospora spp. recorded in hosts of the Parulidae, and from the molecularly most closely related species, by the typical ellipsoidal to lemon-shaped sporocysts, with small sub-Stieda body and a membrane-bound sporocyst residuum. Therefore, based on the morphological and molecular features, I. basileuterusi n. sp. is the fifth species described in a host of the family Parulidae and the first molecularly characterized via sequencing the cox1 gene.
Project description:modENCODE_submission_5986 This submission comes from a modENCODE project of Jason Lieb. For full list of modENCODE projects, see http://www.genome.gov/26524648 Project Goal: The focus of our analysis will be elements that specify nucleosome positioning and occupancy, control domains of gene expression, induce repression of the X chromosome, guide mitotic segregation and genome duplication, govern homolog pairing and recombination during meiosis, and organize chromosome positioning within the nucleus. Our 126 strategically selected targets include RNA polymerase II isoforms, dosage-compensation proteins, centromere components, homolog-pairing facilitators, recombination markers, and nuclear-envelope constituents. We will integrate information generated with existing knowledge on the biology of the targets and perform ChIP-seq analysis on mutant and RNAi extracts lacking selected target proteins. For data usage terms and conditions, please refer to http://www.genome.gov/27528022 and http://www.genome.gov/Pages/Research/ENCODE/ENCODEDataReleasePolicyFinal2008.pdf EXPERIMENT TYPE: CHIP-seq. BIOLOGICAL SOURCE: Strain: N2; Developmental Stage: L3 Larva; Genotype: wild type; Sex: mixed Male and Hermaphrodite population; EXPERIMENTAL FACTORS: Developmental Stage L3 Larva; temp (temperature) 20 degree celsius; Strain N2; Antibody NURF-1 SDQ3525 (target is NURF-1)
Project description:Trithorax group (TrxG) proteins counteract Polycomb silencing by an as yet uncharacterized mechanism. A well-known member of the TrxG is the histone methyltransferase Absent, Small, or Homeotic discs 1 (ASH1). In Drosophila ASH1 is needed for the maintenance of Hox gene expression throughout development, which is tightly coupled to preservation of cell identity. In order to understand the molecular function of ASH1 in this process, we performed affinity purification of tandem-tagged ASH1 followed by mass spectrometry (AP-MS) and identified FSH, another member of the TrxG as interaction partner. Here we provide genome-wide chromatin maps of both proteins based on ChIP-seq. Our Dataset comprises of 4 ChIP-seq samples using chromatin from S2 cells which was immunoprecipitated, using antibodies against Ash1, FSH-L and FSH-SL.