| scholarly article | Q13442814 |
| P50 | author | Zhirong Bao | Q42285388 |
| Zhongying Zhao | Q50782539 | ||
| P2093 | author name string | Elicia Preston | |
| Robert H Waterston | |||
| Thomas J Boyle | |||
| John Isaac Murray | |||
| Dionne Vafeados | |||
| Barbara Mericle | |||
| Max Boeck | |||
| Peter Weisdepp | |||
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| Wnt signaling and CEH-22/tinman/Nkx2.5 specify a stem cell niche in C. elegans | Q35132203 | ||
| end-1 encodes an apparent GATA factor that specifies the endoderm precursor in Caenorhabditis elegans embryos | Q35195151 | ||
| pha-4, an HNF-3 homolog, specifies pharyngeal organ identity in Caenorhabditis elegans | Q35204451 | ||
| Insight into transcription factor gene duplication from Caenorhabditis elegans Promoterome-driven expression patterns. | Q35616802 | ||
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| BioProspector: discovering conserved DNA motifs in upstream regulatory regions of co-expressed genes. | Q38303029 | ||
| Lineage-specific regulators couple cell lineage asymmetry to the transcription of the Caenorhabditis elegans POU gene unc-86 during neurogenesis | Q38357386 | ||
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| MyoD and myogenesis in C. elegans. | Q40524034 | ||
| A P-glycoprotein protects Caenorhabditis elegans against natural toxins | Q40806530 | ||
| Specific roles for the GATA transcription factors end-1 and end-3 during C. elegans E-lineage development. | Q42251598 | ||
| The Caenorhabditis elegans Six/sine oculis class homeobox gene ceh-32 is required for head morphogenesis | Q42655694 | ||
| 3' UTRs are the primary regulators of gene expression in the C. elegans germline | Q43241207 | ||
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| The maternal-to-zygotic transition in embryonic patterning of Caenorhabditis elegans. | Q45984975 | ||
| Genetic redundancy in endoderm specification within the genus Caenorhabditis. | Q45986590 | ||
| Correct Hox gene expression established independently of position in Caenorhabditis elegans | Q46194826 | ||
| Specification of the C. elegans MS blastomere by the T-box factor TBX-35. | Q46312119 | ||
| The Wnt effector POP-1 and the PAL-1/Caudal homeoprotein collaborate with SKN-1 to activate C. elegans endoderm development | Q46334598 | ||
| pha-4 is Ce-fkh-1, a fork head/HNF-3alpha,beta,gamma homolog that functions in organogenesis of the C. elegans pharynx | Q47068744 | ||
| The GATA-factor elt-2 is essential for formation of the Caenorhabditis elegans intestine | Q47069157 | ||
| Regulation of touch receptor differentiation by the Caenorhabditis elegans mec-3 and unc-86 genes. | Q47069187 | ||
| pop-1 Encodes an HMG box protein required for the specification of a mesoderm precursor in Early C. elegans embryos | Q47069280 | ||
| Establishment of POP-1 asymmetry in early C. elegans embryos | Q47069313 | ||
| Components of the transcriptional Mediator complex are required for asymmetric cell division in C. elegans | Q47069510 | ||
| Binary specification of the embryonic lineage in Caenorhabditis elegans | Q47069515 | ||
| The T-box transcription factors TBX-37 and TBX-38 link GLP-1/Notch signaling to mesoderm induction in C. elegans embryos | Q47069575 | ||
| Genome-scale analysis of in vivo spatiotemporal promoter activity in Caenorhabditis elegans. | Q47575778 | ||
| Posterior patterning by the Caenorhabditis elegans even-skipped homolog vab-7. | Q48064544 | ||
| The lineaging of fluorescently-labeled Caenorhabditis elegans embryos with StarryNite and AceTree. | Q50690805 | ||
| A recombineering pipeline for functional genomics applied to Caenorhabditis elegans. | Q50714542 | ||
| The REF-1 family of bHLH transcription factors pattern C. elegans embryos through Notch-dependent and Notch-independent pathways. | Q52047995 | ||
| The myogenic potency of HLH-1 reveals wide-spread developmental plasticity in early C. elegans embryos. | Q52054945 | ||
| The homeodomain protein PAL-1 specifies a lineage-specific regulatory network in the C. elegans embryo. | Q52054949 | ||
| Activation of the mec-3 promoter in two classes of stereotyped lineages in Caenorhabditis elegans. | Q52201667 | ||
| Regulation of anterior cell-specific mec-3 expression during asymmetric cell division in C. elegans | Q52477724 | ||
| Binary cell fate specification during C. elegans embryogenesis driven by reiterated reciprocal asymmetry of TCF POP-1 and its coactivator beta-catenin SYS-1. | Q53546942 | ||
| Global cell sorting in the C. elegans embryo defines a new mechanism for pattern formation | Q61460364 | ||
| POP-1 and anterior-posterior fate decisions in C. elegans embryos | Q74150651 | ||
| Early embryonic programming of neuronal left/right asymmetry in C. elegans | Q79399989 | ||
| Global cell sorting is mediated by local cell-cell interactions in the C. elegans embryo | Q83180021 | ||
| P433 | issue | 7 | |
| P921 | main subject | Caenorhabditis elegans | Q91703 |
| P1104 | number of pages | 13 | |
| P304 | page(s) | 1282-1294 | |
| P577 | publication date | 2012-04-16 | |
| P1433 | published in | Genome Research | Q5533485 |
| P1476 | title | Multidimensional regulation of gene expression in the C. elegans embryo | |
| P478 | volume | 22 |
| Q47882914 | A Caenorhabditis elegans Zinc Finger Transcription Factor, ztf-6, Required for the Specification of a Dopamine Neuron-Producing Lineage |
| Q83230624 | A Myt1 family transcription factor defines neuronal fate by repressing non-neuronal genes |
| Q38655263 | A genome-scale resource for in vivo tag-based protein function exploration in C. elegans |
| Q92487276 | A high-content imaging approach to profile C. elegans embryonic development |
| Q40789186 | A high-fidelity cell lineage tracing method for obtaining systematic spatiotemporal gene expression patterns in Caenorhabditis elegans |
| Q35046824 | A novel cell nuclei segmentation method for 3D C. elegans embryonic time-lapse images |
| Q30532644 | A quantitative model of normal Caenorhabditis elegans embryogenesis and its disruption after stress |
| Q30932645 | A simple strategy for reducing false negatives in calling variants from single-cell sequencing data |
| Q31142596 | An Observation-Driven Agent-Based Modeling and Analysis Framework for C. elegans Embryogenesis |
| Q52625597 | Automated C. elegans embryo alignments reveal brain neuropil position invariance despite lax cell body placement. |
| Q52645544 | BTNET : boosted tree based gene regulatory network inference algorithm using time-course measurement data. |
| Q33814822 | Biologically constrained optimization based cell membrane segmentation in C. elegans embryos |
| Q37284461 | Building quantitative, three-dimensional atlases of gene expression and morphology at cellular resolution |
| Q27320065 | CACN-1/Cactin plays a role in Wnt signaling in C. elegans |
| Q38485000 | Collaborative regulation of development but independent control of metabolism by two epidermis-specific transcription factors in Caenorhabditis elegans |
| Q38750070 | Combinatorial decoding of the invariant C. elegans embryonic lineage in space and time |
| Q38431937 | Comparative proteome analysis between C . briggsae embryos and larvae reveals a role of chromatin modification proteins in embryonic cell division. |
| Q48695478 | Comprehensive single cell-resolution analysis of the role of chromatin regulators in early C. elegans embryogenesis. |
| Q38619221 | Comprehensive single-cell transcriptional profiling of a multicellular organism. |
| Q38674857 | Conserved gene regulatory module specifies lateral neural borders across bilaterians. |
| Q30576952 | De novo inference of systems-level mechanistic models of development from live-imaging-based phenotype analysis. |
| Q34783303 | Deconvolution of gene expression from cell populations across the C. elegans lineage |
| Q52559040 | Deep Reinforcement Learning of Cell Movement in the Early Stage of C. elegans Embryogenesis. |
| Q92885924 | Digging deeper: methodologies for high-content phenotyping in Caenorhabditis elegans |
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| Q35091279 | Distinct DNA binding sites contribute to the TCF transcriptional switch in C. elegans and Drosophila. |
| Q51221666 | Engineered non-Mendelian inheritance of entire parental genomes in C. elegans. |
| Q52641927 | Establishment of Signaling Interactions with Cellular Resolution for Every Cell Cycle of Embryogenesis. |
| Q104111142 | Establishment of a morphological atlas of the Caenorhabditis elegans embryo using deep-learning-based 4D segmentation |
| Q33828454 | Evaluation of the effectiveness of simple nuclei-segmentation methods on Caenorhabditis elegans embryogenesis images |
| Q58083909 | FLIRT: fast local infrared thermogenetics for subcellular control of protein function |
| Q37080795 | Gene transcription is coordinated with, but not dependent on, cell divisions during C. elegans embryonic fate specification |
| Q46336976 | Genome-wide discovery of active regulatory elements and transcription factor footprints in Caenorhabditis elegans using DNase-seq. |
| Q47897846 | Glia initiate brain assembly through noncanonical Chimaerin-Furin axon guidance in C. elegans |
| Q64056478 | HSP-4/BiP expression in secretory cells is regulated by a developmental program and not by the unfolded protein response |
| Q27308722 | Identification of Conserved MEL-28/ELYS Domains with Essential Roles in Nuclear Assembly and Chromosome Segregation |
| Q35926368 | Identification of Wnt Pathway Target Genes Regulating the Division and Differentiation of Larval Seam Cells and Vulval Precursor Cells in Caenorhabditis elegans |
| Q30837912 | Identification of genes driving lineage divergence from single-cell gene expression data in C. elegans. |
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| Q33732230 | Multiple transcription factors directly regulate Hox gene lin-39 expression in ventral hypodermal cells of the C. elegans embryo and larva, including the hypodermal fate regulators LIN-26 and ELT-6. |
| Q35939502 | Overlapping cell population expression profiling and regulatory inference in C. elegans |
| Q50441731 | PCP and SAX-3/Robo Pathways Cooperate to Regulate Convergent Extension-Based Nerve Cord Assembly in C. elegans. |
| Q64387580 | Progression of Meiosis Is Coordinated by the Level and Location of MAPK Activation Via OGR-2 in |
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| Q42429601 | Regulatory analysis of the C. elegans genome with spatiotemporal resolution |
| Q39770511 | Shaped singular spectrum analysis for quantifying gene expression, with application to the early Drosophila embryo |
| Q27309155 | Single Cell Quantification of Reporter Gene Expression in Live Adult Caenorhabditis elegans Reveals Reproducible Cell-Specific Expression Patterns and Underlying Biological Variation |
| Q101166072 | Single-cell RNA profiling links ncRNAs to spatiotemporal gene expression during C. elegans embryogenesis |
| Q34360540 | Single-cell sequencing-based technologies will revolutionize whole-organism science |
| Q33899196 | Spatiotemporal expression profiling of long intervening noncoding RNAs in Caenorhabditis elegans |
| Q35178248 | Spatiotemporal transcriptomics reveals the evolutionary history of the endoderm germ layer |
| Q42251598 | Specific roles for the GATA transcription factors end-1 and end-3 during C. elegans E-lineage development. |
| Q30572441 | Systematic quantification of developmental phenotypes at single-cell resolution during embryogenesis. |
| Q38996854 | Systems-level quantification of division timing reveals a common genetic architecture controlling asynchrony and fate asymmetry |
| Q35571482 | The Bicoid class homeodomain factors ceh-36/OTX and unc-30/PITX cooperate in C. elegans embryonic progenitor cells to regulate robust development |
| Q92254340 | The C. elegans embryonic transcriptome with tissue, time, and alternative splicing resolution |
| Q36875639 | The Caenorhabditis elegans Excretory System: A Model for Tubulogenesis, Cell Fate Specification, and Plasticity |
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