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• A Cdc42-regulated actin cytoskeleton mediates Drosophila oocyte polarization.
• A Drosophila melanogaster homologue of Caenorhabditis elegans par-1 acts at an early step in embryonic-axis formation.
• A single Drosophila embryo extract for the study of mitosis ex vivo.
• A stem-loop structure directs oskar mRNA to microtubule minus ends.
• A translation-independent role of oskar RNA in early Drosophila oogenesis.
• All four double-stranded RNA binding domains of Staufen2 contribute to efficient mRNA recognition and transcript localization
• An RNA ‐binding atypical tropomyosin recruits kinesin‐1 dynamically to oskar mRNP s
• An RNA-based feed-forward mechanism ensures motor switching in oskar mRNA transport
• An intracellular transmission control protocol: assembly and transport of ribonucleoprotein complexes.
• Arginine methyltransferase Capsuleen is essential for methylation of spliceosomal Sm proteins and germ cell formation in Drosophila.
• Assembly of endogenous oskar mRNA particles for motor-dependent transport in the Drosophila oocyte.
• Aster migration determines the length scale of nuclear separation in the Drosophila syncytial embryo.
• Axis formation during Drosophila oogenesis
• B lineage--specific interactions of an immunoglobulin enhancer with cellular factors in vivo
• Brightness Enhanced DNA FIT-Probes for Wash-Free RNA Imaging in Tissue.
• Brightness through Local Constraint-LNA-Enhanced FIT Hybridization Probes for In Vivo Ribonucleotide Particle Tracking.
• Bruno acts as a dual repressor of oskar translation, promoting mRNA oligomerization and formation of silencing particles.
• Bruno regulates gurken during Drosophila oogenesis.
• Cell-type-specific contacts to immunoglobulin enhancers in nuclei
• CncRNAs: RNAs with both coding and non-coding roles in development
• Considerations when investigating lncRNA function in vivo.
• Control of RNP motility and localization by a splicing-dependent structure in oskar mRNA.
• Cytoplasmic flows localize injected oskar RNA in Drosophila oocytes
• Dimerization of oskar 3' UTRs promotes hitchhiking for RNA localization in the Drosophila oocyte.
• Drosophila Ge-1 promotes P body formation and oskar mRNA localization.
• Drosophila PTB promotes formation of high-order RNP particles and represses oskar translation.
• Drosophila Perilipin/ADRP homologue Lsd2 regulates lipid metabolism.
• Drosophila Y14 shuttles to the posterior of the oocyte and is required for oskar mRNA transport
• Drosophila development: RNA interference ab ovo.
• Drosophila ensconsin promotes productive recruitment of Kinesin-1 to microtubules.
• Enzymatic production of single-molecule FISH and RNA capture probes
• Ex vivo Ooplasmic Extract from Developing Drosophila Oocytes for Quantitative TIRF Microscopy Analysis.
• Fluorescence-based 3D targeting of FIB-SEM acquisition of small volumes in large samples
• Gain-of-function screen for genes that affect Drosophila muscle pattern formation.
• Germ Cell Lineage Homeostasis in Drosophila Requires the Vasa RNA Helicase.
• Germ Plasm Formation and Germ Cell Determination in Drosophila
• Global changes of the RNA-bound proteome during the maternal-to-zygotic transition in Drosophila
• High-precision targeting workflow for volume electron microscopy
• Hrp48, a Drosophila hnRNPA/B homolog, binds and regulates translation of oskar mRNA.
• In Vivo Visualization and Function Probing of Transport mRNPs Using Injected FIT Probes.
• Induction of germ cell formation by oskar
• Klar ensures thermal robustness of oskar localization by restraining RNP motility.
• LNA-enhanced DNA FIT-probes for multicolour RNA imaging.
• Liquid-to-solid phase transition of oskar RNP granules is essential for their function in the Drosophila germline
• Live imaging of axonal transport in Drosophila pupal brain explants.
• Localization-dependent translation requires a functional interaction between the 5' and 3' ends of oskar mRNA
• Molecular basis of mRNA transport by a kinesin-1-atypical tropomyosin complex.
• Myosin-V regulates oskar mRNA localization in the Drosophila oocyte.
• Nuclear Pores Assemble from Nucleoporin Condensates During Oogenesis.
• Orb and a long poly(A) tail are required for efficient oskar translation at the posterior pole of the Drosophila oocyte.
• Oskar protein interaction with Vasa represents an essential step in polar granule assembly.
• PKA-R1 spatially restricts Oskar expression for Drosophila embryonic patterning.
• Par-1 regulates bicoid mRNA localisation by phosphorylating Exuperantia.
• Par-1 regulates stability of the posterior determinant Oskar by phosphorylation
• Pattern formation and developmental mechanisms From cell patterning to organogenesis
• Quantitative mRNA Imaging with Dual Channel qFIT Probes to Monitor Distribution and Degree of Hybridization.
• RNA clamping by Vasa assembles a piRNA amplifier complex on transposon transcripts.
• RNA localization feeds translation.
• Rab6 mediates membrane organization and determinant localization during Drosophila oogenesis.
• Requirement for Drosophila cytoplasmic tropomyosin in oskar mRNA localization
• Retraction notice to: Assembly of endogenous oskar mRNA particles for motor-dependent transport in the Drosophila oocyte.
• Seeing is believing: the bicoid morphogen gradient matures.
• Splicing of oskar RNA in the nucleus is coupled to its cytoplasmic localization.
• Stably bound adaptor proteins modulate directionality of RNP transport
• Staufen2-mediated RNA recognition and localization requires combinatorial action of multiple domains
• Stimulation of endocytosis and actin dynamics by Oskar polarizes the Drosophila oocyte.
• Strength in numbers: quantitative single-molecule RNA detection assays.
• Subcellular spatial transcriptomics identifies three mechanistically different classes of localizing RNAs
• TRICK: A Single-Molecule Method for Imaging the First Round of Translation in Living Cells and Animals.
• The Crystal Structure of the Drosophila Germline Inducer Oskar Identifies Two Domains with Distinct Vasa Helicase- and RNA-Binding Activities.
• The Drosophila PAR-1 spacer domain is required for lateral membrane association and for polarization of follicular epithelial cells.
• The EJC binding and dissociating activity of PYM is regulated in Drosophila.
• The Ig cell adhesion molecule Basigin controls compartmentalization and vesicle release at Drosophila melanogaster synapses.
• The LOTUS domain is a conserved DEAD-box RNA helicase regulator essential for the recruitment of Vasa to the germ plasm and nuage.
• The Transcriptome-wide Landscape and Modalities of EJC Binding in Adult Drosophila.
• The actin-binding protein Lasp promotes Oskar accumulation at the posterior pole of the Drosophila embryo.
• The fusome and microtubules enrich Par-1 in the oocyte, where it effects polarization in conjunction with Par-3, BicD, Egl, and dynein.
• The nuclear receptor homologue Ftz-F1 and the homeodomain protein Ftz are mutually dependent cofactors
• The structure of the SOLE element of oskar mRNA.
• Transcript specific mRNP capture from Drosophila egg-chambers for proteomic analysis.
• Translation. An RNA biosensor for imaging the first round of translation from single cells to living animals.
• Translational control of localized mRNAs: restricting protein synthesis in space and time.
• Transposon silencing in the Drosophila female germline is essential for genome stability in progeny embryos
• Tribbles Coordinates Mitosis and Morphogenesis in Drosophila by Regulating String/CDC25 Proteolysis
• Validation and classification of RNA binding proteins identified by mRNA interactome capture
• mRNA localization and the cytoskeleton
• mRNA localization: gene expression in the spatial dimension.
• oskar RNA plays multiple noncoding roles to support oogenesis and maintain integrity of the germline/soma distinction.
• oskar organizes the germ plasm and directs localization of the posterior determinant nanos