scholarly article | Q13442814 |
P50 | author | Peishan Yi | Q57334960 |
Guangshuo Ou | Q88603627 | ||
P2093 | author name string | Wei Li | |
Wenjing Li | |||
Zhiwen Zhu | |||
Xianliang Zhang | |||
P2860 | cites work | The Structure of the Nervous System of the Nematode Caenorhabditis elegans | Q22337105 |
Centriole distal appendages promote membrane docking, leading to cilia initiation | Q24310904 | ||
Autophagy promotes primary ciliogenesis by removing OFD1 from centriolar satellites | Q24337670 | ||
SAS-6 defines a protein family required for centrosome duplication in C. elegans and in human cells | Q24338767 | ||
Intraflagellar transport delivers tubulin isotypes to sensory cilium middle and distal segments | Q24598245 | ||
Single-molecule analysis of dynein processivity and stepping behavior | Q24601278 | ||
Regulated HsSAS-6 levels ensure formation of a single procentriole per centriole during the centrosome duplication cycle | Q24647101 | ||
The hydrolethalus syndrome protein HYLS-1 links core centriole structure to cilia formation | Q24647436 | ||
Centrioles in the cell cycle. I. Epithelial cells | Q24681444 | ||
Specialized Cilia in Mammalian Sensory Systems | Q26785912 | ||
The base of the cilium: roles for transition fibres and the transition zone in ciliary formation, maintenance and compartmentalization | Q26825968 | ||
Axonal transport: cargo-specific mechanisms of motility and regulation | Q26827748 | ||
Biochemical and Structural Characterization of the Pak1-LC8 Interaction | Q27651296 | ||
The Mechanism of Dynein Light Chain LC8-mediated Oligomerization of the Ana2 Centriole Duplication Factor | Q27684306 | ||
MKS and NPHP modules cooperate to establish basal body/transition zone membrane associations and ciliary gate function during ciliogenesis | Q28000044 | ||
Olfactory cilia: our direct neuronal connection to the external world. | Q37369352 | ||
Centrin 2 is required for mouse olfactory ciliary trafficking and development of ependymal cilia planar polarity | Q37732663 | ||
Cell-cycle-regulated expression of STIL controls centriole number in human cells | Q39393625 | ||
Identification of ciliary localization sequences within the third intracellular loop of G protein-coupled receptors | Q40015719 | ||
Centriole assembly in Caenorhabditis elegans | Q40265072 | ||
The ciliary transition zone functions in cell adhesion but is dispensable for axoneme assembly in C. elegans | Q41306445 | ||
Ultrastructural aspects of olfactory signaling | Q41527418 | ||
The development of the olfactory mucosa in the mouse: light microscopy | Q42118585 | ||
The development of the olfactory mucosa in the mouse: electron microscopy | Q42447867 | ||
An ana2/ctp/mud complex regulates spindle orientation in Drosophila neuroblasts. | Q42494446 | ||
Whole mount labeling of cilia in the main olfactory system of mice | Q43181494 | ||
Electron microscopical reconstruction of the anterior sensory anatomy of the nematodecaenorhabditis elegans | Q43929810 | ||
Expression and imaging of fluorescent proteins in the C. elegans gonad and early embryo | Q46092140 | ||
Centriolar SAS-5 is required for centrosome duplication in C. elegans | Q47069336 | ||
SAS-4 is essential for centrosome duplication in C elegans and is recruited to daughter centrioles once per cell cycle | Q48255695 | ||
Live imaging of cellular dynamics during Caenorhabditis elegans postembryonic development. | Q50239529 | ||
Conditional knockouts generated by engineered CRISPR-Cas9 endonuclease reveal the roles of coronin in C. elegans neural development. | Q50638893 | ||
Qualitative and quantitative freeze-fracture studies on olfactory and nasal respiratory structures of frog, ox, rat, and dog. I. A general survey | Q72076789 | ||
Formation and maturation of olfactory cilia monitored by odorant receptor-specific antibodies | Q81709453 | ||
The embryonic cell lineage of the nematode Caenorhabditis elegans | Q28271877 | ||
Dual subcellular roles for LIS1 and dynein in radial neuronal migration in live brain tissue | Q28569828 | ||
Post-embryonic cell lineages of the nematode, Caenorhabditis elegans | Q29547748 | ||
DTASelect and Contrast: tools for assembling and comparing protein identifications from shotgun proteomics | Q29615322 | ||
Mutant sensory cilia in the nematode Caenorhabditis elegans | Q29615728 | ||
Full-genome RNAi profiling of early embryogenesis in Caenorhabditis elegans | Q29618013 | ||
Functional genomic analysis of cell division in C. elegans using RNAi of genes on chromosome III | Q29618444 | ||
Creation of low-copy integrated transgenic lines in Caenorhabditis elegans | Q29618458 | ||
Centrioles and the formation of rudimentary cilia by fibroblasts and smooth muscle cells | Q29620499 | ||
Kinesin-1 and Dynein are the primary motors for fast transport of mitochondria in Drosophila motor axons | Q30477062 | ||
DEX-1 and DYF-7 establish sensory dendrite length by anchoring dendritic tips during cell migration | Q30487217 | ||
Two appendages homologous between basal bodies and centrioles are formed using distinct Odf2 domains | Q30557155 | ||
Fast tandem mass spectra-based protein identification regardless of the number of spectra or potential modifications examined | Q31151098 | ||
Centriolar remodeling underlies basal body maturation during ciliogenesis in Caenorhabditis elegans | Q33567057 | ||
Polarized myosin produces unequal-size daughters during asymmetric cell division. | Q33712552 | ||
Characterization and development of photoactivatable fluorescent proteins for single-molecule-based superresolution imaging | Q33767568 | ||
Centrioles initiate cilia assembly but are dispensable for maturation and maintenance in C. elegans. | Q33769568 | ||
Assessing the impact of anosmia: review of a questionnaire's findings | Q33787863 | ||
Dynactin is required for transport initiation from the distal axon | Q34271545 | ||
Beta-arrestin2-mediated internalization of mammalian odorant receptors. | Q34569418 | ||
A high-resolution morphological and ultrastructural map of anterior sensory cilia and glia in Caenorhabditis elegans | Q35131568 | ||
Somatic CRISPR-Cas9-induced mutations reveal roles of embryonically essential dynein chains in Caenorhabditis elegans cilia | Q35184415 | ||
Cilia and Diseases | Q35571167 | ||
ProLuCID: An improved SEQUEST-like algorithm with enhanced sensitivity and specificity | Q35690439 | ||
Cell biology of normal and abnormal ciliogenesis in the ciliated epithelium | Q35739149 | ||
An Olfactory Cilia Pattern in the Mammalian Nose Ensures High Sensitivity to Odors | Q36132781 | ||
The three-dimensional structure of the basal body from the rhesus monkey oviduct | Q36194710 | ||
Ciliogenesis in the mouse oviduct. A scanning electron microscope study | Q36196137 | ||
Morphologically distinct microtubule ends in the mitotic centrosome of Caenorhabditis elegans | Q36324773 | ||
The sensory cilia of Caenorhabditis elegans | Q37020826 | ||
Multiple mechanisms contribute to centriole separation in C. elegans | Q37043366 | ||
Ciliary syndromes and treatment | Q37099210 | ||
Assembly of primary cilia | Q37130367 | ||
The hydrolethalus syndrome protein HYLS-1 regulates formation of the ciliary gate | Q37191828 | ||
Olfactory cilia: linking sensory cilia function and human disease | Q37193134 | ||
Dynein-independent functions of DYNLL1/LC8: redox state sensing and transcriptional control | Q37335724 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 17 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Caenorhabditis elegans | Q91703 |
cilium assembly | Q14916348 | ||
P304 | page(s) | 2553-2566 | |
P577 | publication date | 2017-07-25 | |
P1433 | published in | The EMBO Journal | Q1278554 |
P1476 | title | Centriole translocation and degeneration during ciliogenesis in Caenorhabditis elegans neurons | |
P478 | volume | 36 |
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Q93078954 | Role for intraflagellar transport in building a functional transition zone |
Q58708080 | Separation and Loss of Centrioles From Primordidal Germ Cells To Mature Oocytes In The Mouse |
Q100695951 | The tubulin code specializes neuronal cilia for extracellular vesicle release |
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