scholarly article | Q13442814 |
P2093 | author name string | V Ambros | |
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Caenorhabditis elegans | Q91703 |
P304 | page(s) | 49-57 | |
P577 | publication date | 1989-04-07 | |
P1433 | published in | Cell | Q655814 |
P1476 | title | A hierarchy of regulatory genes controls a larva-to-adult developmental switch in C. elegans | |
P478 | volume | 57 |
Q57912349 | 8 Control of Cell Lineage and Cell Fate during Nematode Development |
Q90730140 | A branched heterochronic pathway directs juvenile-to-adult transition through two LIN-29 isoforms |
Q27346798 | A developmental timing switch promotes axon outgrowth independent of known guidance receptors |
Q27860720 | A microRNA polycistron as a potential human oncogene |
Q37104707 | A microRNA program in the C. elegans hypodermis couples to intestinal mTORC2/PQM-1 signaling to modulate fat transport |
Q35535025 | A novel mechanism of LIN-28 regulation of let-7 microRNA expression revealed by in vivo HITS-CLIP in C. elegans |
Q36003392 | A simple array platform for microRNA analysis and its application in mouse tissues. |
Q38060637 | Advance in research of microRNA in Caenorhabditis elegans |
Q36530672 | Altered expression of an L1-specific, O-linked cuticle surface glycoprotein in mutants of the nematode Caenorhabditis elegans |
Q52237445 | Alternative temporal control systems for hypodermal cell differentiation in Caenorhabditis elegans. |
Q28592449 | An RNA-binding Protein, Lin28, Recognizes and Remodels G-quartets in the MicroRNAs (miRNAs) and mRNAs It Regulates |
Q38348772 | C. elegans sym-1 is a downstream target of the hunchback-like-1 developmental timing transcription factor |
Q41997988 | CED-3 caspase acts with miRNAs to regulate non-apoptotic gene expression dynamics for robust development in C. elegans |
Q38376641 | Caenorhabditis elegans development |
Q34442206 | Caenorhabditis elegans period homolog lin-42 regulates the timing of heterochronic miRNA expression |
Q42597659 | Cell autonomous specification of temporal identity by Caenorhabditis elegans microRNA lin-4. |
Q41065675 | Cell fate specification and differentiation in the nervous system of Caenorhabditis elegans |
Q57912322 | Chapter 5 Genetic Dissection of Developmental Pathways |
Q24683931 | Characterization and expression patterns of let-7 microRNA in the silkworm (Bombyx mori) |
Q37586941 | Chronic nicotine exposure systemically alters microRNA expression profiles during post-embryonic stages in Caenorhabditis elegans |
Q58695185 | Cold shock proteins: from cellular mechanisms to pathophysiology and disease |
Q47106141 | Comparative analysis of LIN28-RNA binding sites identified at single nucleotide resolution. |
Q46304395 | Comparative aspects of MicroRNA Expression in Canine and Human Cancer |
Q37122022 | Computational prediction of the localization of microRNAs within their pre-miRNA. |
Q38864312 | Conservation in the involvement of heterochronic genes and hormones during developmental transitions. |
Q28178157 | Conservation of the heterochronic regulator Lin-28, its developmental expression and microRNA complementary sites |
Q30588363 | Conserved behavioral and genetic mechanisms in the pre-hatching molt of the nematode Pristionchus pacificus |
Q38077761 | Context-specific microRNA function in developmental complexity. |
Q33964056 | Control of developmental timing in Caenorhabditis elegans |
Q28215106 | Control of developmental timing in animals |
Q35031288 | Control of stem cell self-renewal and differentiation by the heterochronic genes and the cellular asymmetry machinery in Caenorhabditis elegans |
Q39038455 | Crosstalk between Hippo signalling and miRNAs in tumour progression |
Q33981313 | DAF-12 regulates a connected network of genes to ensure robust developmental decisions. |
Q34371199 | Dampening of expression oscillations by synchronous regulation of a microRNA and its target |
Q31150623 | Deep sequencing of wheat sRNA transcriptome reveals distinct temporal expression pattern of miRNAs in response to heat, light and UV. |
Q40593916 | Developmental timekeeping. Marking time with antisense |
Q38606885 | Distinct unfolded protein responses mitigate or mediate effects of nonlethal deprivation of C. elegans sleep in different tissues |
Q37956594 | Diversity of animal small RNA pathways and their biological utility |
Q34407985 | Elements and machinery of non-coding RNAs: toward their taxonomy |
Q34677467 | Engineering Hematopoietic Stem Cells: Lessons from Development |
Q38101668 | Epstein-Barr virus (EBV) microRNAs: involvement in cancer pathogenesis and immunopathology |
Q38239857 | Etiopathogenesis of acquired cholesteatoma: prominent theories and recent advances in biomolecular research |
Q41762368 | Evolution of the let-7 microRNA family |
Q34283054 | Expression profile of miRNAs in Populus cathayana L. and Salix matsudana Koidz under salt stress |
Q50674975 | Extent of mismatch between the period of circadian clocks and light/dark cycles determines time-to-emergence in fruit flies. |
Q30377044 | Formulation of New Algorithmics for miRNAs |
Q36158589 | Functional relevance of "seed" and "non-seed" sequences in microRNA-mediated promotion of C. elegans developmental progression |
Q33924982 | Fusomorphogenesis: cell fusion in organ formation |
Q51979295 | GEISHA: an in situ hybridization gene expression resource for the chicken embryo. |
Q45863318 | Gallus expression in situ hybridization analysis: a chicken embryo gene expression database |
Q27860903 | Genes and mechanisms related to RNA interference regulate expression of the small temporal RNAs that control C. elegans developmental timing |
Q37737117 | Genes that can be mutated to unmask hidden antigenic determinants in the cuticle of the nematode Caenorhabditis elegans |
Q36092661 | Genetic analysis reveals functional redundancy and the major target genes of the Arabidopsis miR159 family |
Q64234712 | Heterochronic Phenotype Analysis of Hypodermal Seam Cells in |
Q52202339 | Heterochronic genes control cell cycle progress and developmental competence of C. elegans vulva precursor cells. |
Q87130801 | How microRNAs modify protein production |
Q34604855 | Identification of heterochronic mutants in Caenorhabditis elegans. Temporal misexpression of a collagen::green fluorescent protein fusion gene. |
Q33419254 | Identification of microRNAs with regulatory potential using a matched microRNA-mRNA time-course data |
Q35832895 | Inferring plant microRNA functional similarity using a weighted protein-protein interaction network |
Q34208426 | Integrated miRNA and mRNA expression profiling of mouse mammary tumor models identifies miRNA signatures associated with mammary tumor lineage |
Q34611740 | Isoform-specific mutations in the Caenorhabditis elegans heterochronic gene lin-14 affect stage-specific patterning. |
Q35878223 | LIN-14 Inhibition of LIN-12 Contributes to Precision and Timing of C. elegans Vulval Fate Patterning |
Q24652787 | Lin-28 interaction with the Let-7 precursor loop mediates regulated microRNA processing |
Q36955306 | Lin28 and let-7: roles and regulation in liver diseases. |
Q38254339 | MAB-10/NAB acts with LIN-29/EGR to regulate terminal differentiation and the transition from larva to adult in C. elegans |
Q34335437 | MicroR159 regulation of most conserved targets in Arabidopsis has negligible phenotypic effects. |
Q34611670 | MicroRNA function and mechanism: insights from zebra fish |
Q36085941 | MicroRNA-650 in a copy number-variable region regulates the production of interleukin 6 in human osteosarcoma cells |
Q37726449 | MicroRNA-mediated gene silencing |
Q27000642 | MicroRNA-target interactions: new insights from genome-wide approaches |
Q36768094 | MicroRNAs in search of a target. |
Q37012051 | MicroRNAs in synapse development: tiny molecules to remember |
Q37126078 | MicroRNAs: a new class of gene regulators. |
Q36567350 | MicroRNAs: expression, avoidance and subversion by vertebrate viruses |
Q27861070 | MicroRNAs: genomics, biogenesis, mechanism, and function |
Q35135542 | MicroRNAs: new players in IBD. |
Q27860896 | MicroRNAs: small RNAs with a big role in gene regulation |
Q28294558 | Misexpression of the Caenorhabditis elegans miRNA let-7 is sufficient to drive developmental programs |
Q33244782 | Molecular cloning oflin-29, a heterochronic gene required for the differentiation of hypodermal cells and the cessation of molting inC.elegans |
Q28204729 | Molecular mechanisms of developmental timing in C. elegans and Drosophila |
Q28764734 | Multiple mechanisms are involved in regulating the expression of the developmental timing regulator lin-28 in Caenorhabditis elegans |
Q33964737 | Mutations in the clk-1 gene of Caenorhabditis elegans affect developmental and behavioral timing. |
Q33833646 | NAViGaTing the micronome--using multiple microRNA prediction databases to identify signalling pathway-associated microRNAs |
Q36402745 | Neural specification and differentiation |
Q36190273 | New frontiers in heart hypertrophy during pregnancy. |
Q33954446 | Non-coding RNA's: lightning strikes twice |
Q47068819 | Novel gain-of-function alleles demonstrate a role for the heterochronic gene lin-41 in C. elegans male tail tip morphogenesis |
Q36306164 | Nuclear hormone receptor CHR3 is a critical regulator of all four larval molts of the nematode Caenorhabditis elegans |
Q35281898 | Ordering gene function: the interpretation of epistasis in regulatory hierarchies |
Q37218177 | Post-transcriptional Regulation of BRCA2 through Interactions with miR-19a and miR-19b |
Q37367717 | Potential diagnostic implications of miR-144 overexpression in human oesophageal cancer |
Q37649440 | Prediction of human miRNA target genes using computationally reconstructed ancestral mammalian sequences |
Q33953160 | RACK-1 regulates let-7 microRNA expression and terminal cell differentiation in Caenorhabditis elegans |
Q89392295 | Recent Molecular Genetic Explorations of Caenorhabditis elegans MicroRNAs |
Q92524066 | Regulation of Caenorhabditis elegans neuronal polarity by heterochronic genes |
Q34316182 | Regulation of lin-4 miRNA expression, organismal growth and development by a conserved RNA binding protein in C. elegans |
Q38122334 | Species-specific microRNA regulation influences phenotypic variability: perspectives on species-specific microRNA regulation |
Q48244884 | Stage-Specific Timing of the microRNA Regulation of lin-28 by the Heterochronic Gene lin-14 in Caenorhabditis elegans. |
Q52879948 | Suppression of lethal-7b and miR-125a/b Maturation by Lin28b Enables Maintenance of Stem Cell Properties in Hepatoblasts. |
Q41075635 | Temporal reiteration of a precise gene expression pattern during nematode development. |
Q34498047 | The 2006 Genetics Society of America Medal. Victor Ambros |
Q27861103 | The 21-nucleotide let-7 RNA regulates developmental timing in Caenorhabditis elegans |
Q52143564 | The Caenorhabditis elegans heterochronic gene lin-29 coordinates the vulval-uterine-epidermal connections. |
Q48071649 | The Caenorhabditis elegans heterochronic gene pathway controls stage-specific transcription of collagen genes |
Q47068795 | The Caenorhabditis elegans hunchback-like gene lin-57/hbl-1 controls developmental time and is regulated by microRNAs. |
Q24685404 | The Caenorhabditis elegans pumilio homolog, puf-9, is required for the 3'UTR-mediated repression of the let-7 microRNA target gene, hbl-1 |
Q54976757 | The Doubletime Homolog KIN-20 Mainly Regulates let-7 Independently of Its Effects on the Period Homolog LIN-42 in Caenorhabditis elegans. |
Q83232114 | The Makorin and the lncRNA regulate to schedule sexual maturation of the nervous system |
Q36938754 | The Phytochemical Shikonin Stimulates Epithelial-Mesenchymal Transition (EMT) in Skin Wound Healing |
Q30485568 | The WAVE/SCAR complex promotes polarized cell movements and actin enrichment in epithelia during C. elegans embryogenesis |
Q36751332 | The Yin and Yang of microRNAs: leukemia and immunity |
Q26799398 | The cnidarian origin of the proto-oncogenes NF-κB/STAT and WNT-like oncogenic pathway drives the ctenophores (Review) |
Q28304935 | The cold shock domain protein LIN-28 controls developmental timing in C. elegans and is regulated by the lin-4 RNA |
Q34477555 | The developmental timing regulator HBL-1 modulates the dauer formation decision in Caenorhabditis elegans |
Q30426792 | The elephant in the room: do microRNA-based therapies have a realistic chance of succeeding for brain tumors such as glioblastoma? |
Q82234067 | The evolution of our thinking about microRNAs |
Q54868727 | The evolutionary origin of plant and animal microRNAs. |
Q28291207 | The generation of diversity and pattern in animal development |
Q47068948 | The heterochronic gene lin-29 encodes a zinc finger protein that controls a terminal differentiation event in Caenorhabditis elegans |
Q28270307 | The let-7 MicroRNA family members mir-48, mir-84, and mir-241 function together to regulate developmental timing in Caenorhabditis elegans |
Q27015587 | The miR-17/92 cluster: a comprehensive update on its genomics, genetics, functions and increasingly important and numerous roles in health and disease |
Q26775301 | The miR-302/367 cluster: a comprehensive update on its evolution and functions |
Q36657801 | The neuronal microRNA system |
Q42032097 | The ortholog of the human proto-oncogene ROS1 is required for epithelial development in C. elegans |
Q33374514 | The perfect storm of tiny RNAs |
Q37068244 | The role of cell-cell interactions in postembryonic development of the Caenorhabditis elegans germ line |
Q53964029 | The terminal differentiation factor LIN-29 is required for proper vulval morphogenesis and egg laying in Caenorhabditis elegans. |
Q60922548 | Timing mechanism of sexually dimorphic nervous system differentiation |
Q36895306 | Toward a unified model of developmental timing: A "molting" approach |
Q91632758 | Trans-splicing of the C. elegans let-7 primary transcript developmentally regulates let-7 microRNA biogenesis and let-7 family microRNA activity |
Q24645262 | Transcription of the C. elegans let-7 microRNA is temporally regulated by one of its targets, hbl-1 |
Q33935848 | Transcriptional network underlying Caenorhabditis elegans vulval development |
Q35887861 | Transcriptional selectivity in early mouse embryos: a qualitative study |
Q27014268 | Uncovering new functions for microRNAs in Caenorhabditis elegans |
Q33437242 | Using in silico models to simulate dual perturbation experiments: procedure development and interpretation of outcomes |
Q38359546 | Vascular and circulating microRNAs in renal ischaemia-reperfusion injury |
Q50144720 | ZYG-1 promotes limited centriole amplification in the C. elegans seam lineage |
Q63979927 | coordinates the transition to adulthood through a single primary and four secondary targets |
Q24336422 | cul-1 is required for cell cycle exit in C. elegans and identifies a novel gene family |
Q40443603 | daf-12 encodes a nuclear receptor that regulates the dauer diapause and developmental age in C. elegans |
Q52216761 | fusca3: A Heterochronic Mutation Affecting Late Embryo Development in Arabidopsis. |
Q27334467 | lin-28 controls the succession of cell fate choices via two distinct activities |
Q38110520 | miRNA in the regulation of ion channel/transporter expression |
Q36518947 | miRNAs and their putative roles in the development and progression of Parkinson's disease |
Q35011182 | microRNAs at the synapse |
Q30461076 | microRNAs: the art of silencing in the ear |
Q42130046 | novoMIR : De Novo Prediction of MicroRNA‐Coding Regions in a Single Plant‐Genome |
Search more.