| scholarly article | Q13442814 |
| P50 | author | Thomas Tuschl | Q90093 |
| Debora Marks | Q23809228 | ||
| Ulrich Unnerstall | Q28914809 | ||
| Ulrike Gaul | Q2477281 | ||
| Chris Sander | Q5107972 | ||
| P2093 | author name string | Po Yu Chen | |
| Abdullah Yalcin | |||
| Michael Pearce | |||
| John Fak | |||
| Dan Leaman | |||
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microRNA | Q310899 |
| Drosophila | Q312154 | ||
| P304 | page(s) | 1097-108 | |
| P577 | publication date | 2005-07-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | Antisense-mediated depletion reveals essential and specific functions of microRNAs in Drosophila development | |
| P478 | volume | 121 |
| Q38331760 | A 5'-cap for DNA probes binding RNA target strands |
| Q36470598 | A Drosophila gain-of-function screen for candidate genes involved in steroid-dependent neuroendocrine cell remodeling |
| Q38344485 | A direct comparison of anti-microRNA oligonucleotide potency. |
| Q24652678 | A microRNA imparts robustness against environmental fluctuation during development |
| Q34397515 | A recent evolutionary origin of a bacterial small RNA that controls multicellular fruiting body development |
| Q50645396 | A restricted role for sperm-borne microRNAs in mammalian fertilization |
| Q34547664 | A sensitive array for microRNA expression profiling (miChip) based on locked nucleic acids (LNA) |
| Q37102624 | A targeted gain-of-function screen identifies genes affecting salivary gland morphogenesis/tubulogenesis in Drosophila. |
| Q25257916 | AOBase: a database for antisense oligonucleotides selection and design |
| Q36999939 | Adaptive evolution of newly emerged micro-RNA genes in Drosophila |
| Q34061489 | Adult-specific functions of animal microRNAs |
| Q37037641 | Advances in microRNAs: implications for gene therapists |
| Q34059340 | Adverse interactions between micro-RNAs and target genes from different species |
| Q33531747 | An "in-depth" description of the small non-coding RNA population of Schistosoma japonicum schistosomulum |
| Q24655135 | An expanded seed sequence definition accounts for full regulation of the hid 3' UTR by bantam miRNA |
| Q38978550 | Analysis of MicroRNA Function in Drosophila. |
| Q33302481 | Anopheles gambiae miRNAs as actors of defence reaction against Plasmodium invasion |
| Q24649633 | Antagonism of microRNA-122 in mice by systemically administered LNA-antimiR leads to up-regulation of a large set of predicted target mRNAs in the liver |
| Q36117337 | Automated detection of ncRNAs in the draft genome sequence of a colonial tunicate: the carpet sea squirt Didemnum vexillum |
| Q33892440 | Bioinformatic prediction, deep sequencing of microRNAs and expression analysis during phenotypic plasticity in the pea aphid, Acyrthosiphon pisum |
| Q21266711 | Characterisation and expression of microRNAs in developing wings of the neotropical butterfly Heliconius melpomene |
| Q33243375 | Cloning and expression of new microRNAs from zebrafish. |
| Q42016887 | Clusters of microRNAs emerge by new hairpins in existing transcripts |
| Q33570656 | Co-activation of microRNAs by Zelda is essential for early Drosophila development |
| Q36665867 | Control of antagonistic components of the hedgehog signaling pathway by microRNAs in Drosophila |
| Q39177304 | Cooperative control of tumor suppressor genes by a network of oncogenic microRNAs |
| Q42615447 | Deep conservation of microRNA-target relationships and 3'UTR motifs in vertebrates, flies, and nematodes |
| Q35193548 | Deep sequencing of small RNA libraries reveals dynamic expression patterns of microRNAs in multiple developmental stages of Bactrocera dorsalis |
| Q35195964 | Deep small RNA sequencing from the nematode Ascaris reveals conservation, functional diversification, and novel developmental profiles. |
| Q36920080 | Design and delivery of antisense oligonucleotides to block microRNA function in cultured Drosophila and human cells. |
| Q52014183 | Different modes of translation for hid, grim and sickle mRNAs in Drosophila. |
| Q47110215 | Differentially Expressed tRNA-Derived Small RNAs Co-Sediment Primarily with Non-Polysomal Fractions in Drosophila. |
| Q37417144 | Diversity and evolution of MicroRNA gene clusters |
| Q33605075 | Diversity and expression of microRNAs in the filarial parasite, Brugia malayi |
| Q34118138 | Diversity in parasitic nematode genomes: the microRNAs of Brugia pahangi and Haemonchus contortus are largely novel |
| Q37939734 | Drosophila as a model of wound healing and tissue regeneration in vertebrates |
| Q52679873 | Drosophila miR2 induces pseudo-polysomes and inhibits translation initiation. |
| Q27324222 | Drosophila microRNAs 263a/b confer robustness during development by protecting nascent sense organs from apoptosis |
| Q24538740 | Drosophila microRNAs exhibit diverse spatial expression patterns during embryonic development |
| Q50539326 | Efficient and specific inhibition of plant microRNA function by anti-microRNA oligonucleotides (AMOs) in vitro and in vivo. |
| Q36905483 | Epigenetics and neural stem cell commitment |
| Q25257225 | Epstein-Barr virus microRNAs are evolutionarily conserved and differentially expressed |
| Q24597045 | Evolution and function of the extended miR-2 microRNA family |
| Q35861396 | Exploiting Drosophila genetics to understand microRNA function and regulation |
| Q36673474 | Exploring systemic RNA interference in insects: a genome-wide survey for RNAi genes in Tribolium |
| Q37581530 | Fast-evolving microRNAs are highly expressed in the early embryo of Drosophila virilis |
| Q38893973 | Function and regulation of microRNA-31 in development and disease. |
| Q34732710 | Functionally distinct regulatory RNAs generated by bidirectional transcription and processing of microRNA loci |
| Q24683077 | Gawky is a component of cytoplasmic mRNA processing bodies required for early Drosophila development. |
| Q50217380 | Genome-Wide Identification of Destruxin A-Responsive Immunity-Related MicroRNAs in Diamondback Moth, Plutella xylostella |
| Q49202546 | Genome-Wide Profiling of Plutella xylostella Immunity-Related miRNAs after Isaria fumosorosea Infection. |
| Q41986263 | Genome-wide analysis of mRNAs regulated by Drosha and Argonaute proteins in Drosophila melanogaster |
| Q35842596 | High through-put sequencing of the Parhyale hawaiensis mRNAs and microRNAs to aid comparative developmental studies. |
| Q35837062 | High-Throughput Profiling of Caenorhabditis elegans Starvation-Responsive microRNAs. |
| Q28256854 | Homeostatic regulation of MeCP2 expression by a CREB-induced microRNA |
| Q28596075 | Identification and characterization of microRNAs expressed in the African malaria vector Anopheles funestus life stages using high throughput sequencing |
| Q40130944 | Identification and characterization of microRNAs in the plant parasitic root-knot nematode Meloidogyne incognita using deep sequencing |
| Q35984322 | Identification and characterization of microRNAs in the white-backed planthopper, Sogatella furcifera |
| Q35043585 | Identification and developmental profiling of microRNAs in diamondback moth, Plutellaxylostella (L.). |
| Q33983531 | Identification and differential expression of microRNAs during metamorphosis of the Japanese flounder (Paralichthys olivaceus). |
| Q35737405 | Identification of MicroRNAs in Meloidogyne incognita Using Deep Sequencing |
| Q35228833 | Identification of Wolbachia-responsive microRNAs in the two-spotted spider mite, Tetranychus urticae |
| Q35764954 | Identification of miRNAs in C. roseus and their potential targets |
| Q27491025 | Identification of microRNAs expressed in two mosquito vectors, Aedes albopictus and Culex quinquefasciatus |
| Q36503963 | Identification of microRNAs in Helicoverpa armigera and Spodoptera litura based on deep sequencing and homology analysis |
| Q28649517 | Identification, expression, and molecular evolution of microRNAs in the "living fossil" Triops cancriformis (tadpole shrimp) |
| Q55416346 | Identifying Genetic Players in Cell Sheet Morphogenesis Using a Drosophila Deficiency Screen for Genes on Chromosome 2R Involved in Dorsal Closure. |
| Q24547511 | Improved targeting of miRNA with antisense oligonucleotides |
| Q46247203 | Increased Expression of a MicroRNA Correlates with Anthelmintic Resistance in Parasitic Nematodes. |
| Q36756799 | Inhibition of Dexamethasone-induced Fatty Liver Development by Reducing miR-17-5p Levels |
| Q37044780 | Inhibition of microRNA with antisense oligonucleotides |
| Q26829772 | Insect microRNAs: biogenesis, expression profiling and biological functions |
| Q33415043 | Insect-Specific microRNA Involved in the Development of the Silkworm Bombyx mori |
| Q39127898 | Interplay between miRNAs and human diseases |
| Q37826096 | Invited review: decoding the microRNA response to hypoxia. |
| Q37196784 | Lessons from microRNA mutants in worms, flies and mice |
| Q37873745 | Locked vs. unlocked nucleic acids (LNA vs. UNA): contrasting structures work towards common therapeutic goals |
| Q35861462 | Maternal mRNA deadenylation and decay by the piRNA pathway in the early Drosophila embryo |
| Q34317687 | MetaMirClust: discovery of miRNA cluster patterns using a data-mining approach |
| Q36191263 | MiR-2 family targets awd and fng to regulate wing morphogenesis in Bombyx mori |
| Q40445529 | MiR-590-5P inhibits growth of HepG2 cells via decrease of S100A10 expression and Inhibition of the Wnt pathway |
| Q37706077 | MicroRNA control of signal transduction |
| Q37802036 | MicroRNA functions in stress responses. |
| Q37417125 | MicroRNA in cell differentiation and development |
| Q41882618 | MicroRNA mir-34 provides robustness to environmental stress response via the DAF-16 network in C. elegans |
| Q33516456 | MicroRNA profile of the developing mouse retina. |
| Q37741192 | MicroRNA signatures in neurological disorders |
| Q28266383 | MicroRNA-101 is a potential prognostic indicator of laryngeal squamous cell carcinoma and modulates CDK8 |
| Q28278738 | MicroRNA-9 directs late organizer activity of the midbrain-hindbrain boundary |
| Q35105982 | MicroRNA-9a ensures the precise specification of sensory organ precursors in Drosophila |
| Q24534497 | MicroRNA1 influences cardiac differentiation in Drosophila and regulates Notch signaling |
| Q37135817 | MicroRNA: An emerging therapeutic target and intervention tool |
| Q37032639 | MicroRNAs as targets for antisense-based therapeutics |
| Q27011618 | MicroRNAs as tools to predict glucocorticoid response in inflammatory bowel diseases |
| Q52659578 | MicroRNAs diversify in Drosophila development. |
| Q42091375 | MicroRNAs from the Planarian Schmidtea mediterranea: a model system for stem cell biology |
| Q34497050 | MicroRNAs in cell proliferation, cell death, and tumorigenesis. |
| Q35016914 | MicroRNAs in gene regulation: when the smallest governs it all |
| Q35181631 | MicroRNAs of two medically important mosquito species: Aedes aegypti and Anopheles stephensi |
| Q38033846 | MicroRNAs shape the neuronal landscape |
| Q28294558 | Misexpression of the Caenorhabditis elegans miRNA let-7 is sufficient to drive developmental programs |
| Q39232698 | Misprocessing and functional arrest of microRNAs by miR-Pirate: roles of miR-378 and miR-17. |
| Q21563452 | Most Caenorhabditis elegans microRNAs are individually not essential for development or viability |
| Q45965135 | Naïve Bayes for microRNA target predictions--machine learning for microRNA targets. |
| Q46385252 | Novel Triazole linked 2-phenyl benzoxazole derivatives induce apoptosis by inhibiting miR-2, miR-13 and miR-14 function in Drosophila melanogaster |
| Q24671047 | Optimization of feline immunodeficiency virus vectors for RNA interference |
| Q34489148 | Overgrowth caused by misexpression of a microRNA with dispensable wild-type function |
| Q24602019 | Overlapping functions of microRNAs in control of apoptosis during Drosophila embryogenesis |
| Q43642144 | PNA-based artificial nucleases as antisense and anti-miRNA oligonucleotide agents |
| Q36880630 | Pathways regulating apoptosis during patterning and development |
| Q92421985 | Plk2 Regulated by miR-128 Induces Ischemia-Reperfusion Injury in Cardiac Cells |
| Q28278730 | Post-transcriptional regulation of the let-7 microRNA during neural cell specification |
| Q21262991 | Prediction and preliminary validation of oncogene regulation by miRNAs |
| Q38893753 | Programmed cell death acts at different stages of Drosophila neurodevelopment to shape the central nervous system. |
| Q38439681 | RAKE and LNA-ISH reveal microRNA expression and localization in archival human brain |
| Q35110875 | RNA editing in Drosophila melanogaster: New targets and functional consequences |
| Q36526551 | Rapid and specific purification of Argonaute-small RNA complexes from crude cell lysates |
| Q50034263 | Re-Arrangements in the Cytoplasmic Distribution of Small RNAs Following the Maternal-to-Zygotic Transition in Drosophila Embryos |
| Q34479303 | Reciprocal actions of REST and a microRNA promote neuronal identity |
| Q34988884 | Regulation of Drosophila melanogaster pro-apoptotic gene hid. |
| Q42467145 | Regulatory conservation of protein coding and microRNA genes in vertebrates: lessons from the opossum genome |
| Q37604383 | Role of microRNAs in the regulation of drug metabolism and disposition |
| Q38960149 | Seed targeting with tiny anti-miR-155 inhibits malignant progression of multiple myeloma cells. |
| Q60300285 | Simulated climate warming and mitochondrial haplogroup modulate testicular small non-coding RNA expression in the neotropical pseudoscorpion, Cordylochernes scorpioides |
| Q40648674 | Slicer function of Drosophila Argonautes and its involvement in RISC formation |
| Q29616776 | Small non-coding RNAs in animal development |
| Q36974244 | Specialization and evolution of endogenous small RNA pathways |
| Q37377540 | Stage-Wise Identification and Analysis of miRNA from Root-Knot Nematode Meloidogyne incognita. |
| Q36493248 | Strategies to determine the biological function of microRNAs |
| Q40641564 | Suppressive effect of microRNA-29b on hepatic stellate cell activation and its crosstalk with TGF-β1/Smad3. |
| Q21131263 | Systematic Curation of miRBase Annotation Using Integrated Small RNA High-Throughput Sequencing Data for C. elegans and Drosophila |
| Q24537513 | TarBase: A comprehensive database of experimentally supported animal microRNA targets |
| Q21145874 | Targeted inhibition of miRNA maturation with morpholinos reveals a role for miR-375 in pancreatic islet development |
| Q30498111 | The Drosophila miR-310 cluster negatively regulates synaptic strength at the neuromuscular junction |
| Q39734623 | The Drosophila nerfin-1 mRNA requires multiple microRNAs to regulate its spatial and temporal translation dynamics in the developing nervous system |
| Q36856740 | The Drosophila tricellular junction protein Gliotactin regulates its own mRNA levels through BMP-mediated induction of miR-184. |
| Q37096606 | The Hippo pathway acts via p53 and microRNAs to control proliferation and proapoptotic gene expression during tissue growth |
| Q36740829 | The anti-genomic (negative) strand of Hepatitis C Virus is not targetable by shRNA. |
| Q29617552 | The evolution of gene regulation by transcription factors and microRNAs |
| Q36922258 | The micro RNA target paradigm: a fundamental and polymorphic control layer of cellular expression |
| Q36657801 | The neuronal microRNA system |
| Q92062772 | The role of miR-711 in cardiac cells in response to oxidative stress and its biogenesis: a study on H9C2 cells |
| Q36973290 | The role of microRNAs in cancer |
| Q29547436 | The role of site accessibility in microRNA target recognition |
| Q48498538 | Toward an Understanding of Divergent Compound Eye Development in Drones and Workers of the Honeybee (Apis mellifera L.): A Correlative Analysis of Morphology and Gene Expression |
| Q64255733 | Transcriptional dynamics of microRNAs and their targets during Drosophila neurogenesis |
| Q38089160 | Use of RNA in drug design |
| Q33867483 | Use of two novel approaches to discriminate between closely related host microRNAs that are manipulated by Toxoplasma gondii during infection |
| Q37194783 | Viability, longevity, and egg production of Drosophila melanogaster are regulated by the miR-282 microRNA |
| Q24647067 | Widespread microRNA repression by Myc contributes to tumorigenesis |
| Q24655201 | Zebrafish miR-1 and miR-133 shape muscle gene expression and regulate sarcomeric actin organization |
| Q36161945 | miR-11 regulates pupal size of Drosophila melanogaster via directly targeting Ras85D. |
| Q41367851 | miR-12 and miR-124 contribute to defined early phases of long-lasting and transient memory |
| Q42490190 | miR-203 modulates epithelial differentiation of human embryonic stem cells towards epidermal stratification |
| Q24630175 | miR-375 enhances palmitate-induced lipoapoptosis in insulin-secreting NIT-1 cells by repressing myotrophin (V1) protein expression |
| Q36215746 | miR-92b regulates Mef2 levels through a negative-feedback circuit during Drosophila muscle development |
| Q36617814 | miRNAs and apoptosis: RNAs to die for. |
| Q36067963 | miRNAs regulated overexpression of ryanodine receptor is involved in chlorantraniliprole resistance in Plutella xylostella (L.). |
| Q24655642 | miRecords: an integrated resource for microRNA-target interactions |
| Q34152336 | microRNA miR-275 is indispensable for blood digestion and egg development in the mosquito Aedes aegypti |
| Q36334930 | microRNA-guided posttranscriptional gene regulation |
| Q36983175 | microRNAs and death receptors. |
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| Q34209588 | mir-11 limits the proapoptotic function of its host gene, dE2f1 |
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