scholarly article | Q13442814 |
P356 | DOI | 10.1038/NRM.2017.21 |
P8608 | Fatcat ID | release_3hswnurqvzfjdblkoh3yhubwhe |
P698 | PubMed publication ID | 28400610 |
P50 | author | Alice Meunier | Q50880030 |
Nathalie Spassky | Q56948181 | ||
P2093 | author name string | Alice Meunier | |
Nathalie Spassky | |||
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Fallopian tube ciliary beat frequency in relation to the stage of menstrual cycle and anatomical site | Q77705855 | ||
Organogenesis and growth of the gastroesophageal region in man | Q78723497 | ||
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In vitro fertilization in two patients with Kartagener's syndrome and infertility | Q80726640 | ||
The effect of ovarian follicular fluid and peritoneal fluid on Fallopian tube ciliary beat frequency | Q81235758 | ||
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Candidate gene analysis in three families with acilia syndrome | Q81359495 | ||
Ultrastructural interaction between spermatozoon and human oviductal cells in vitro | Q83486804 | ||
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Residual time of sinusoidal metachronal ciliary flow of non-Newtonian fluid through ciliated walls: fertilization and implantation | Q104695165 | ||
A new look at cerebrospinal fluid circulation | Q21195862 | ||
Meta-analysis of 74,046 individuals identifies 11 new susceptibility loci for Alzheimer's disease | Q22251067 | ||
Ciliogenesis is regulated by a huntingtin-HAP1-PCM1 pathway and is altered in Huntington disease | Q24292909 | ||
Mutations in CCNO result in congenital mucociliary clearance disorder with reduced generation of multiple motile cilia | Q24294945 | ||
TRPV4 channel is involved in the coupling of fluid viscosity changes to epithelial ciliary activity | Q24297571 | ||
Idas, a novel phylogenetically conserved geminin-related protein, binds to geminin and is required for cell cycle progression | Q24301413 | ||
Motile cilia of human airway epithelia are chemosensory | Q24317210 | ||
Deuterosome-mediated centriole biogenesis | Q24337416 | ||
Antimicrobial polypeptides in host defense of the respiratory tract | Q24551612 | ||
Gene therapy rescues cilia defects and restores olfactory function in a mammalian ciliopathy model | Q24629863 | ||
The human epididymis: its function in sperm maturation | Q26745812 | ||
Human basal body basics | Q26765127 | ||
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Development and functions of the choroid plexus-cerebrospinal fluid system | Q26801821 | ||
Switching on cilia: transcriptional networks regulating ciliogenesis | Q26822532 | ||
Sensory functions of motile cilia and implication for bronchiectasis | Q26992107 | ||
Mucociliary clearance: pathophysiological aspects | Q27022272 | ||
Repair and regeneration of the respiratory system: complexity, plasticity, and mechanisms of lung stem cell function | Q27023880 | ||
The polarity protein Inturned links NPHP4 to Daam1 to control the subapical actin network in multiciliated cells. | Q27310080 | ||
The Notch and Wnt pathways regulate stemness and differentiation in human fallopian tube organoids | Q27316757 | ||
Basal foot MTOC organizes pillar MTs required for coordination of beating cilia. | Q27324611 | ||
Unexpected genetic heterogeneity for primary ciliary dyskinesia in the Irish Traveller population. | Q27324715 | ||
Spinal cord injury reveals multilineage differentiation of ependymal cells | Q27333067 | ||
Sperm-associated antigen 6 (SPAG6) deficiency and defects in ciliogenesis and cilia function: polarity, density, and beat | Q27347860 | ||
Computational support for a scaffolding mechanism of centriole assembly | Q27348481 | ||
The Geminin and Idas Coiled Coils Preferentially Form a Heterodimer That Inhibits Geminin Function in DNA Replication Licensing | Q27680038 | ||
Therapeutic antibodies reveal Notch control of transdifferentiation in the adult lung | Q27702643 | ||
IFT-Cargo Interactions and Protein Transport in Cilia | Q28085246 | ||
The fine structure of the olfactory mucosa in man | Q28109428 | ||
Transcriptional program of ciliated epithelial cells reveals new cilium and centrosome components and links to human disease | Q28118826 | ||
Timing of sexual intercourse in relation to ovulation. Effects on the probability of conception, survival of the pregnancy, and sex of the baby | Q28283876 | ||
Intracellular pathways regulating ciliary beating of rat brain ependymal cells | Q28349317 | ||
Wnt5a functions in planar cell polarity regulation in mice | Q28505898 | ||
Mutation of the mouse hepatocyte nuclear factor/forkhead homologue 4 gene results in an absence of cilia and random left-right asymmetry | Q28506579 | ||
Mutations in Hydin impair ciliary motility in mice | Q28509898 | ||
Lack of cadherins Celsr2 and Celsr3 impairs ependymal ciliogenesis, leading to fatal hydrocephalus | Q28511503 | ||
Ciliogenesis and left-right axis defects in forkhead factor HFH-4-null mice | Q28511679 | ||
RhoA-mediated apical actin enrichment is required for ciliogenesis and promoted by Foxj1 | Q28513053 | ||
The Cep63 paralogue Deup1 enables massive de novo centriole biogenesis for vertebrate multiciliogenesis | Q28513305 | ||
The planar cell polarity effector Fuz is essential for targeted membrane trafficking, ciliogenesis and mouse embryonic development | Q28584722 | ||
Foxj1 regulates basal body anchoring to the cytoskeleton of ciliated pulmonary epithelial cells | Q28585132 | ||
RFX3 governs growth and beating efficiency of motile cilia in mouse and controls the expression of genes involved in human ciliopathies | Q28587537 | ||
E2f4 is required for normal development of the airway epithelium | Q28588485 | ||
Six3 is required for ependymal cell maturation | Q28588508 | ||
GEMC1 is a TopBP1-interacting protein required for chromosomal DNA replication | Q28590548 | ||
Loss of Bardet-Biedl syndrome protein-8 (BBS8) perturbs olfactory function, protein localization, and axon targeting | Q28591892 | ||
Loss of BBS proteins causes anosmia in humans and defects in olfactory cilia structure and function in the mouse | Q28593460 | ||
Critical role of p63 in the development of a normal esophageal and tracheobronchial epithelium | Q28593684 | ||
Goofy coordinates the acuity of olfactory signaling | Q28593697 | ||
Flattop regulates basal body docking and positioning in mono- and multiciliated cells | Q28593706 | ||
Ductuli efferentes of the male Golden Syrian hamster reproductive tract | Q28657726 | ||
GemC1 controls multiciliogenesis in the airway epithelium | Q28771488 | ||
GWAS of cerebrospinal fluid tau levels identifies risk variants for Alzheimer's disease | Q29417137 | ||
When cilia go bad: cilia defects and ciliopathies | Q29547198 | ||
Mechanical strain determines the axis of planar polarity in ciliated epithelia | Q30278564 | ||
Myb promotes centriole amplification and later steps of the multiciliogenesis program. | Q30416758 | ||
Notch3-Jagged signaling controls the pool of undifferentiated airway progenitors | Q34999132 | ||
Vascular niche factor PEDF modulates Notch-dependent stemness in the adult subependymal zone | Q35011868 | ||
Activation of NOTCH1 or NOTCH3 signaling skews human airway basal cell differentiation toward a secretory pathway | Q35107120 | ||
Hydrocephalus and primary ciliary dyskinesia | Q35117859 | ||
Alzheimer's disease, normal-pressure hydrocephalus, and senescent changes in CSF circulatory physiology: a hypothesis | Q35183975 | ||
Actin and microtubules drive differential aspects of planar cell polarity in multiciliated cells | Q35276873 | ||
Cyclin O (Ccno) functions during deuterosome-mediated centriole amplification of multiciliated cells | Q35527137 | ||
Mechanisms of fluid movement into, through and out of the brain: evaluation of the evidence | Q35560495 | ||
Hydrocephalus, bronchiectasis, and ciliary aplasia | Q35624865 | ||
Embryonic Origin of Postnatal Neural Stem Cells | Q35668653 | ||
A primary microcephaly protein complex forms a ring around parental centrioles. | Q35822248 | ||
Aplasia of respiratory tract cilia | Q35824589 | ||
Multicilin promotes centriole assembly and ciliogenesis during multiciliate cell differentiation | Q35898492 | ||
Clonal Dynamics Reveal Two Distinct Populations of Basal Cells in Slow-Turnover Airway Epithelium. | Q35898878 | ||
Parent stem cells can serve as niches for their daughter cells | Q35907849 | ||
Mechanosensory Genes Pkd1 and Pkd2 Contribute to the Planar Polarization of Brain Ventricular Epithelium. | Q35916454 | ||
The essential roles of transition fibers in the context of cilia | Q35930524 | ||
Hypomorphic CEP290/NPHP6 mutations result in anosmia caused by the selective loss of G proteins in cilia of olfactory sensory neurons | Q36023714 | ||
Ciliated human renal proximal tubular cells. Observations in three cases of hypercalcemia | Q36051590 | ||
Molecular characterization of centriole assembly in ciliated epithelial cells | Q36118747 | ||
miR-34/449 control apical actin network formation during multiciliogenesis through small GTPase pathways | Q36128862 | ||
An Olfactory Cilia Pattern in the Mammalian Nose Ensures High Sensitivity to Odors | Q36132781 | ||
Ultrastructural organization of cilia and basal bodies of the epithelium of the choroid plexus in the chick embryo | Q36187764 | ||
Centriole morphogenesis in developing ciliated epithelium of the mouse oviduct | Q36192715 | ||
The formation of basal bodies (centrioles) in the Rhesus monkey oviduct | Q36193359 | ||
Primary ciliary dyskinesia: a review | Q36203810 | ||
A successful pregnancy with in vitro fertilization and embryo transfer in an infertile woman with Kartagener's syndrome: a case report | Q36268026 | ||
Different assemblies of Notch receptors coordinate the distribution of the major bronchial Clara, ciliated and neuroendocrine cells | Q36432890 | ||
Structural defects in cilia of the choroid plexus, subfornical organ and ventricular ependyma are associated with ventriculomegaly | Q36480197 | ||
Yap is required for ependymal integrity and is suppressed in LPA-induced hydrocephalus | Q36511419 | ||
The choroid plexus of the mature and aging rat: The choroidal epithelium | Q36527891 | ||
Emergence of an Apical Epithelial Cell Surface In Vivo | Q36528673 | ||
Sonic Hedgehog promotes proliferation of Notch-dependent monociliated choroid plexus tumour cells. | Q36746500 | ||
E2f4 and E2f5 are essential for the development of the male reproductive system | Q36781402 | ||
The development of the olfactory mucosa in the mouse: electron microscopy | Q42447867 | ||
Making the connection: ciliary adhesion complexes anchor basal bodies to the actin cytoskeleton | Q42452597 | ||
The adult macaque spinal cord central canal zone contains proliferative cells and closely resembles the human | Q42455908 | ||
Ultrastructural study of the ciliated cells from renal tubular epithelium in acute progressive glomerulonephritis | Q42462252 | ||
Absence of cilia and basal bodies with predominance of brush cells in the respiratory mucosa from a patient with immotile cilia syndrome | Q42462257 | ||
Coupling between hydrodynamic forces and planar cell polarity orients mammalian motile cilia | Q42469073 | ||
Development of esophageal epithelium in the fetal and neonatal mouse | Q42471645 | ||
Planar polarity of multiciliated ependymal cells involves the anterior migration of basal bodies regulated by non-muscle myosin II. | Q42475347 | ||
Cytochalasin D inhibits basal body migration and ciliary elongation in quail oviduct epithelium | Q42484023 | ||
Morphology of the human olfactory epithelium | Q42485375 | ||
Ciliogenesis defects in embryos lacking inturned or fuzzy function are associated with failure of planar cell polarity and Hedgehog signaling | Q42491186 | ||
Cell number and distribution in human and rat airways | Q42494472 | ||
In vitro effects of taxol on ciliogenesis in quail oviduct | Q42494909 | ||
Coordinated ciliary beating requires Odf2-mediated polarization of basal bodies via basal feet | Q42500910 | ||
Localization of gamma-tubulin to the basal foot associated with the basal body extending a cilium | Q42501798 | ||
Development of macrociliary cells in Beroë. II. Formation of macrocilia | Q42504711 | ||
Cilia-lacking respiratory cells in ciliary aplasia | Q42515065 | ||
Maturation of human fetal esophagus maintained in organ culture | Q42523044 | ||
Adult SVZ Lineage Cells Home to and Leave the Vascular Niche via Differential Responses to SDF1/CXCR4 Signaling | Q42572517 | ||
Notch signaling promotes airway mucous metaplasia and inhibits alveolar development. | Q43140506 | ||
Melanin-concentrating hormone regulates beat frequency of ependymal cilia and ventricular volume. | Q43509568 | ||
WNT11 acts as a directional cue to organize the elongation of early muscle fibres | Q43696762 | ||
Developmental changes in ciliary motility on choroid plexus epithelial cells during the perinatal period. | Q43783218 | ||
An electron microscopic study of ciliogenesis in developing epidermis and trachea in the embryo ofXenopus laevis | Q44391911 | ||
Fimbrial microbiopsy | Q44443607 | ||
Ciliary activity in the human oviduct | Q44531521 | ||
Adult ependymal cells are postmitotic and are derived from radial glial cells during embryogenesis. | Q45213360 | ||
Reconstructions of centriole formation and ciliogenesis in mammalian lungs. | Q45345788 | ||
New neurons follow the flow of cerebrospinal fluid in the adult brain | Q46365497 | ||
Systematic Analysis of CCNO Variants in a Defined Population: Implications for Clinical Phenotype and Differential Diagnosis | Q46405793 | ||
Detection of proximal tubular motile cilia in a patient with renal sarcoidosis associated with hypercalcemia | Q46547794 | ||
miR-34b regulates multiciliogenesis during organ formation in zebrafish | Q47073099 | ||
Notch signaling controls the differentiation of transporting epithelia and multiciliated cells in the zebrafish pronephros | Q47073212 | ||
Motile-Cilia-Mediated Flow Improves Sensitivity and Temporal Resolution of Olfactory Computations. | Q47074095 | ||
Cyclic changes in ciliation, cell height, and mitotic activity in human tubal epithelium during reproductive life | Q47226322 | ||
Cyclic changes in ciliation, secretion and cell height of the oviductal epithelium in women | Q47302144 | ||
Mcidas and GemC1 are key regulators for the generation of multiciliated ependymal cells in the adult neurogenic niche | Q47642608 | ||
Ciliated cells differentiated from mouse embryonic stem cells. | Q47656327 | ||
A two-step mechanism generates the spacing pattern of the ciliated cells in the skin of Xenopus embryos | Q47921580 | ||
Mild fetal cerebral ventriculomegaly as a prenatal sonographic marker for Kartagener syndrome | Q48369034 | ||
Computational investigation of subject-specific cerebrospinal fluid flow in the third ventricle and aqueduct of Sylvius | Q48449015 | ||
Number and polarity of the ependymal cilia in the central canal of some vertebrates | Q48517692 | ||
Cilia-based flow network in the brain ventricles | Q48635043 | ||
A comparative ultrastructural study of the choroid plexuses of the immature pig | Q48640309 | ||
Pigment epithelium-derived factor is a niche signal for neural stem cell renewal | Q48642193 | ||
Primary ciliary dyskinesia and hydrocephalus with aqueductal stenosis | Q48683630 | ||
Dysfunctional cilia lead to altered ependyma and choroid plexus function, and result in the formation of hydrocephalus | Q48697963 | ||
Computational modeling of the mechanical behavior of the cerebrospinal fluid system | Q48841250 | ||
Human choroid plexus: a light and electron microscopic study | Q48887776 | ||
Sperm numbers and distribution within the human fallopian tube around ovulation | Q50123213 | ||
Ciliated epithelia in the urethra: case report and literature review | Q34530312 | ||
Mucus clearance as a primary innate defense mechanism for mammalian airways | Q34551378 | ||
A positive feedback mechanism governs the polarity and motion of motile cilia. | Q34621438 | ||
Wnt signaling gradients establish planar cell polarity by inducing Vangl2 phosphorylation through Ror2 | Q34706774 | ||
Temporal and spatial distribution of ciliogenesis in the tracheobronchial airways of mice | Q34715882 | ||
Ectopic pregnancy in primary ciliary dyskinesia | Q34787962 | ||
Foxj1 transcription factors are master regulators of the motile ciliogenic program | Q34881332 | ||
Cep63 and cep152 cooperate to ensure centriole duplication | Q34921658 | ||
A periciliary brush promotes the lung health by separating the mucus layer from airway epithelia | Q36786724 | ||
RFX2 is broadly required for ciliogenesis during vertebrate development. | Q36808700 | ||
Function and structure of cilia in the fallopian tube of an infertile woman with Kartagener's syndrome | Q36847795 | ||
Single-cell transcriptome analyses reveal signals to activate dormant neural stem cells | Q36852027 | ||
Neural stem cells confer unique pinwheel architecture to the ventricular surface in neurogenic regions of the adult brain | Q37036633 | ||
Subventricular zone-mediated ependyma repair in the adult mammalian brain. | Q37089068 | ||
Multiplicity of cerebrospinal fluid functions: New challenges in health and disease | Q37163564 | ||
Multiple roles for Sox2 in the developing and adult mouse trachea | Q37186879 | ||
Basal cells as stem cells of the mouse trachea and human airway epithelium | Q37271261 | ||
Primary ciliary dyskinesia. Recent advances in diagnostics, genetics, and characterization of clinical disease | Q37304381 | ||
Notch signaling controls the balance of ciliated and secretory cell fates in developing airways | Q37311674 | ||
The role of Scgb1a1+ Clara cells in the long-term maintenance and repair of lung airway, but not alveolar, epithelium | Q37315311 | ||
Olfactory cilia: our direct neuronal connection to the external world. | Q37369352 | ||
Coordinated genomic control of ciliogenesis and cell movement by RFX2. | Q37470111 | ||
Influence of respiration on cerebrospinal fluid movement using magnetic resonance spin labeling | Q37493660 | ||
GEMC1 is a critical regulator of multiciliated cell differentiation | Q37551640 | ||
Ependymal cells: biology and pathology | Q37660183 | ||
Flow induced by ependymal cilia dominates near-wall cerebrospinal fluid dynamics in the lateral ventricles. | Q37680455 | ||
Centrin 2 is required for mouse olfactory ciliary trafficking and development of ependymal cilia planar polarity | Q37732663 | ||
Epithelial progenitor cells in lung development, maintenance, repair, and disease | Q37884611 | ||
Acquired cilia dysfunction in chronic rhinosinusitis | Q37990644 | ||
Ciliary aplasia associated with hydrocephalus: an extremely rare occurrence | Q38026002 | ||
Planar cell polarity signaling: coordination of cellular orientation across tissues | Q38052130 | ||
Primary ciliary dyskinesia: clinical criteria indicating ultrastructural studies | Q38069692 | ||
Structure and function of the mucus clearance system of the lung | Q38113316 | ||
The effect of drugs and other compounds on the ciliary beat frequency of human respiratory epithelium | Q38290520 | ||
Sperm Storage in the Female Reproductive Tract. | Q38622880 | ||
The impact of Primary Ciliary Dyskinesia on the upper respiratory tract | Q38742616 | ||
Centriole continuity: out with the new, in with the old. | Q38754276 | ||
Axoneme Structure from Motile Cilia | Q38948108 | ||
The Central Apparatus of Cilia and Eukaryotic Flagella | Q38987962 | ||
Bi- and uniciliated ependymal cells define continuous floor-plate-derived tanycytic territories | Q39032338 | ||
Selective chemical crosslinking reveals a Cep57-Cep63-Cep152 centrosomal complex | Q39208176 | ||
The cyclical variation in the percentage of ciliated cells in the normal human endometrium | Q39320823 | ||
Developmental changes in the oesophageal epithelium in man. | Q39386322 | ||
Development and functions of the cytoskeleton during ciliogenesis in metazoa | Q39471497 | ||
Organization and functions of cytoskeleton in metazoan ciliated cells | Q39548747 | ||
Inhibitory Smad proteins promote the differentiation of mouse embryonic stem cells into ependymal-like ciliated cells | Q39661333 | ||
The establishment of rotational polarity in the airway and ependymal cilia: analysis with a novel cilium motility mutant mouse | Q39754995 | ||
Multiple primary cilia modulate the fluid transcytosis in choroid plexus epithelium | Q39767444 | ||
Dynamics of planar cell polarity protein Vangl2 in the mouse oviduct epithelium | Q39786786 | ||
The effect of viscous loading on brain ependymal cilia | Q39847992 | ||
Absence of Dynein Arms in Cilia of Endocervical Cells in a Fertile Woman | Q39866391 | ||
IL-13 alters mucociliary differentiation and ciliary beating of human respiratory epithelial cells | Q39947194 | ||
Gmnc Is a Master Regulator of the Multiciliated Cell Differentiation Program | Q40096119 | ||
Functional morphology of the tubotympanum. An overview | Q40203070 | ||
Ultrastructure of the middle ear mucosa | Q40203086 | ||
p73 is required for ependymal cell maturation and neurogenic SVZ cytoarchitecture. | Q40413890 | ||
Structure and function of the ductuli efferentes: a review | Q40602932 | ||
BMP signalling controls the construction of vertebrate mucociliary epithelia | Q40818083 | ||
Noggin antagonizes BMP signaling to create a niche for adult neurogenesis | Q40829549 | ||
Sperm-oviduct interaction: induction of capacitation and preferential binding of uncapacitated spermatozoa to oviductal epithelial cells in porcine species | Q40966291 | ||
Zebrafish models of idiopathic scoliosis link cerebrospinal fluid flow defects to spine curvature | Q41542474 | ||
Fertility of a Woman with Nonfunctional Ciliated cells in the Fallopian Tubes | Q41556966 | ||
Microtubules enable the planar cell polarity of airway cilia. | Q41825907 | ||
Spontaneous creation of macroscopic flow and metachronal waves in an array of cilia | Q41852289 | ||
RFX3 modulation of FOXJ1 regulation of cilia genes in the human airway epithelium. | Q41892647 | ||
Centriole amplification by mother and daughter centrioles differs in multiciliated cells. | Q41929273 | ||
Injury induces direct lineage segregation of functionally distinct airway basal stem/progenitor cell subpopulations | Q42050546 | ||
The PCP pathway instructs the planar orientation of ciliated cells in the Xenopus larval skin | Q42113899 | ||
The subventricular zone en-face: wholemount staining and ependymal flow | Q42165730 | ||
Biciliated ependymal cell proliferation contributes to spinal cord growth. | Q42252601 | ||
Mechanosensitive ATP release maintains proper mucus hydration of airways | Q42259459 | ||
Ultrastructural observations on basal apparatus of respiratory cilia in immotile cilia syndrome | Q42435133 | ||
Absence of cilia and basal bodies with predominance of brush cells in the respiratory mucosa from a patient with immotile cilia syndrome | Q42437258 | ||
Xenopus laevis nucleotide binding protein 1 (xNubp1) is important for convergent extension movements and controls ciliogenesis via regulation of the actin cytoskeleton | Q42438680 | ||
Evidence that adhesive sites on the tips of oviduct cilia membranes are required for ovum pickup in situ | Q71430579 | ||
Morphology and ultrastructure of fallopian tube epithelium at different stages of the menstrual cycle and menopause | Q72149813 | ||
A comparative morphological and ultrastructural study of endometrial gland and fallopian tube epithelia at different stages of the menstrual cycle and the menopause | Q72149817 | ||
Ciliary activity and middle ear clearance | Q72230756 | ||
The interaction in vitro of human spermatozoa with epithelial cells from the human uterine (fallopian) tube | Q72283337 | ||
Immotile cilia syndrome associated with hydrocephalus and precocious puberty: a case report | Q72297547 | ||
Primary ciliary dyskinesia | Q72489486 | ||
Aplasia of respiratory tract cilia | Q72553843 | ||
[An up-to-now unknown way of centriole propagation] | Q72680829 | ||
Importance of sperm-to-epithelial cell contact for the capacitation of human spermatozoa in fallopian tube epithelial cell cocultures | Q73045256 | ||
Further observations on nasal cilia | Q73263326 | ||
Dishevelled controls apical docking and planar polarization of basal bodies in ciliated epithelial cells | Q30491381 | ||
Cilia organize ependymal planar polarity | Q30494596 | ||
Ank3-dependent SVZ niche assembly is required for the continued production of new neurons. | Q30502417 | ||
Proteomic analysis of multiple primary cilia reveals a novel mode of ciliary development in mammals | Q30528641 | ||
Emergence of metachronal waves in cilia arrays | Q30537988 | ||
Bbof1 is required to maintain cilia orientation | Q30542452 | ||
New neurons clear the path of astrocytic processes for their rapid migration in the adult brain | Q30582648 | ||
miR-34/449 miRNAs are required for motile ciliogenesis by repressing cp110. | Q30585689 | ||
Chibby promotes ciliary vesicle formation and basal body docking during airway cell differentiation | Q30591650 | ||
Direct evidence for BBSome-associated intraflagellar transport reveals distinct properties of native mammalian cilia | Q30613030 | ||
TGF-β Signaling Regulates the Differentiation of Motile Cilia | Q30651183 | ||
Myosin Id is required for planar cell polarity in ciliated tracheal and ependymal epithelial cells | Q30699149 | ||
Human endometrial fluid kinetics as observed by scanning electron microscopy | Q30716860 | ||
TAp73 is a central transcriptional regulator of airway multiciliogenesis. | Q30773474 | ||
Multiciliated cell basal bodies align in stereotypical patterns coordinated by the apical cytoskeleton | Q30805039 | ||
Mixing and modes of mass transfer in the third cerebral ventricle: a computational analysis | Q31130654 | ||
Kartagener's syndrome and the syndrome of immotile cilia | Q31132031 | ||
A novel mouse model reveals that polycystin-1 deficiency in ependyma and choroid plexus results in dysfunctional cilia and hydrocephalus. | Q33506091 | ||
Rapid effects of progesterone on ciliary beat frequency in the mouse fallopian tube | Q33578424 | ||
Airway mucus function and dysfunction | Q33723578 | ||
Vertebrate endoderm development | Q33804330 | ||
Multicilin drives centriole biogenesis via E2f proteins | Q33850562 | ||
No deleterious mutations in the FOXJ1 (alias HFH-4) gene in patients with primary ciliary dyskinesia (PCD). | Q33923991 | ||
Two miRNA clusters, miR-34b/c and miR-449, are essential for normal brain development, motile ciliogenesis, and spermatogenesis | Q33925986 | ||
A dual role for planar cell polarity genes in ciliated cells | Q34002370 | ||
Loss of Dishevelleds disrupts planar polarity in ependymal motile cilia and results in hydrocephalus | Q34021084 | ||
IL-6/STAT3 promotes regeneration of airway ciliated cells from basal stem cells | Q34144162 | ||
The cerebrospinal fluid provides a proliferative niche for neural progenitor cells | Q34169014 | ||
Control of vertebrate multiciliogenesis by miR-449 through direct repression of the Delta/Notch pathway | Q34186612 | ||
Canonical Notch signaling in the developing lung is required for determination of arterial smooth muscle cells and selection of Clara versus ciliated cell fate | Q34195292 | ||
The nose and paranasal sinuses physiology and anatomy | Q34343239 | ||
ERK7 regulates ciliogenesis by phosphorylating the actin regulator CapZIP in cooperation with Dishevelled | Q34469356 | ||
Otitis media in sperm-associated antigen 6 (Spag6)-deficient mice | Q34506442 | ||
p73 Is Required for Multiciliogenesis and Regulates the Foxj1-Associated Gene Network. | Q34517061 | ||
The surface of the choroid plexus cell under normal and experimental conditions | Q51198509 | ||
Ciliary currents on ependymal surfaces | Q51229050 | ||
Ependymal cilia: distribution and activity in the adult human brain. | Q51288478 | ||
Ciliary ultrastructure in two sisters with Kartagener's syndrome. | Q53563472 | ||
Genesis of cilia and microvilli of rat nasal epithelia during pre-natal development. I. Olfactory epithelium, qualitative studies. | Q53732324 | ||
Lung function and bronchial reactivity in six patients with immotile cilia syndrome. | Q54505378 | ||
[Situs inversus totalis - 2 case reports] | Q57642747 | ||
Testicular Contractile Cells and Sperm Transport | Q67013842 | ||
A scanning electron microscopic study of rabbit spermatozoa in the female reproductive tract following coitus | Q67323225 | ||
Egg Transport in the Rabbit Oviduct: The Roles of Cilia and Muscle | Q67436944 | ||
Estradiol-induced differentiation of the oviductal epithelium in ovariectomized cats | Q67519486 | ||
The re-epithelization of endometrium after menstrual desquamation | Q67859565 | ||
Organization of tubules in the human caput epididymidis and the ultrastructure of their epithelia | Q68025048 | ||
Scanning Electron Microscopic Observations on the Epithelium of the Human Spongy Urethra | Q68429620 | ||
Hydrocephalus in Kartagener's syndrome | Q68809034 | ||
Cilia in lupus nephritis | Q68860204 | ||
Scanning electron microscopic studies on rabbit's spinal cord by resin cracking method | Q69211863 | ||
Scanning electron microscopic observations on the epithelium of the human prostatic urethra | Q69261953 | ||
Procentrioles in ciliating and ciliated cells of chick trachea | Q69405974 | ||
Ciliary activity in the mouse oviduct as studied by transmission and scanning electron microscopy | Q69420924 | ||
Ciliary ultrastructure of respiratory and fallopian tube epithelium in a sterile woman with Kartagener's syndrome. A quantitative estimation | Q69736086 | ||
Aplasia of nasal cilia with situs inversus, azoospermia and normal sperm flagella: a unique variant of the immotile cilia syndrome | Q69757666 | ||
Congenital ciliary aplasia in two siblings. A primitive disregulation of ciliogenesis? | Q69761418 | ||
Ciliated renal tubular epithelium in congenital nephrosis | Q69821103 | ||
Centriole migration during regeneration and normal development of olfactory epithelium | Q69939777 | ||
Primary ciliary dyskinesia: cytological and clinical features | Q70068773 | ||
Ultrastructural ciliary defects in children with recurrent infections of the lower respiratory tract | Q70116015 | ||
Scanning electron microscopic study of the human fallopian tube. Report I. The proliferative and secretory stages | Q70459828 | ||
Ciliary Activity and the Origin of Metachrony in Paramecium: Effects of Increased Viscosity | Q70488548 | ||
New associations of primary ciliary dyskinesia syndrome | Q70516580 | ||
Cilia in the human kidney | Q70633148 | ||
Characterization of the oviductal sperm reservoir in cattle | Q70801568 | ||
In-vitro spontaneous electrical activity of rat efferent ductules | Q70914735 | ||
Male and female infertility problems in the immotile-cilia syndrome | Q70993709 | ||
Absence of dynein arms in endometrial cilia: cause of infertility? | Q71003682 | ||
Sperm interaction with human oviductal cells in vitro | Q71162608 | ||
Centriole replication during ciliogenesis in the chick tracheal epithelium | Q71243669 | ||
P433 | issue | 7 | |
P304 | page(s) | 423-436 | |
P577 | publication date | 2017-04-12 | |
P1433 | published in | Nature Reviews Molecular Cell Biology | Q1573120 |
P1476 | title | The development and functions of multiciliated epithelia | |
P478 | volume | 18 |
Q90059039 | A comparative study of the turnover of multiciliated cells in the mouse trachea, oviduct, and brain |
Q104105628 | A role for Cep70 in centriole amplification in multiciliated cells |
Q57318689 | A single-cell atlas of the airway epithelium reveals the CFTR-rich pulmonary ionocyte |
Q93021066 | ALMS1 and Alström syndrome: a recessive form of metabolic, neurosensory and cardiac deficits |
Q64081756 | Adult Neural Stem Cells and Multiciliated Ependymal Cells Share a Common Lineage Regulated by the Geminin Family Members |
Q58599689 | CDC20B is required for deuterosome-mediated centriole production in multiciliated cells |
Q52333032 | CRISPR/Cas9-mediated genomic editing of Cluap1/IFT38 reveals a new role in actin arrangement. |
Q47292459 | Calibrated mitotic oscillator drives motile ciliogenesis |
Q47140326 | Cell cycle proteins moonlight in multiciliogenesis |
Q92763174 | Centriole Positioning: Not Just a Little Dot in the Cell |
Q47259226 | Characterization of ecto-nucleotidases in human oviducts with an improved approach simultaneously identifying protein expression and in situ enzyme activity. |
Q92303824 | Cilia-driven flows in the brain third ventricle |
Q61445964 | Ciliary Beating Compartmentalizes Cerebrospinal Fluid Flow in the Brain and Regulates Ventricular Development |
Q59620272 | Cilium structure, assembly, and disassembly regulated by the cytoskeleton |
Q47290076 | Conditional knockout mice for the distal appendage protein CEP164 reveal its essential roles in airway multiciliated cell differentiation |
Q47291312 | Controlling centriole numbers: Geminin family members as master regulators of centriole amplification and multiciliogenesis. |
Q91592115 | Developmentally regulated GTP-binding protein 1 modulates ciliogenesis via an interaction with Dishevelled |
Q95301626 | Dissecting the cellular specificity of smoking effects and reconstructing lineages in the human airway epithelium |
Q90045297 | Dynamics of centriole amplification in centrosome-depleted brain multiciliated progenitors |
Q90407283 | E2F4/5-mediated transcriptional control of multiciliated cell differentiation: redundancy or fine-tuning? |
Q90504658 | E2f5 is a versatile transcriptional activator required for spermatogenesis and multiciliated cell differentiation in zebrafish |
Q92751097 | EGFR Signaling Termination via Numb Trafficking in Ependymal Progenitors Controls Postnatal Neurogenic Niche Differentiation |
Q90689849 | Entrainment of mammalian motile cilia in the brain with hydrodynamic forces |
Q64298532 | Ependymal Cells Require Anks1a for Their Proper Development |
Q90064979 | FLS2 is a CDK-like kinase that directly binds IFT70 and is required for proper ciliary disassembly in Chlamydomonas |
Q52584777 | Fank1 and Jazf1 promote multiciliated cell differentiation in the mouse airway epithelium. |
Q92061858 | GemC1 is a critical switch for neural stem cell generation in the postnatal brain |
Q50073414 | Helical micropumps near surfaces. |
Q95322731 | Hydrodynamic model of directional ciliary-beat organization in human airways |
Q64098592 | Iroquois transcription factor irx2a is required for multiciliated and transporter cell fate decisions during zebrafish pronephros development |
Q91620935 | Massive centriole production can occur in the absence of deuterosomes in multiciliated cells |
Q41596398 | Motile cilia defects in diseases other than primary ciliary dyskinesia: The contemporary diagnostic and research role for transmission electron microscopy |
Q58770891 | Multicilin and activated E2f4 induce multiciliated cell differentiation in primary fibroblasts |
Q98939399 | Nervous system and tissue polarity dynamically adapt to new morphologies in planaria |
Q49831825 | Once and only once: mechanisms of centriole duplication and their deregulation in disease |
Q64039678 | Opportunities and Challenges for Molecular Understanding of Ciliopathies-The 100,000 Genomes Project |
Q92126517 | Parental centrioles are dispensable for deuterosome formation and function during basal body amplification |
Q92763167 | Positioning of the Centrosome and Golgi Complex |
Q104130448 | Postembryonic screen for mutations affecting spine development in zebrafish |
Q42516666 | Primary Cilium Formation and Ciliary Protein Trafficking Is Regulated by the Atypical MAP Kinase MAPK15 in Caenorhabditis elegans and Human Cells. |
Q96305472 | Proliferating activity in a bryozoan lophophore |
Q64078128 | Prostaglandin signaling regulates renal multiciliated cell specification and maturation |
Q96020013 | Radial glia in the zebrafish brain: Functional, structural, and physiological comparison with the mammalian glia |
Q91966626 | Rare Human Diseases: Model Organisms in Deciphering the Molecular Basis of Primary Ciliary Dyskinesia |
Q64084498 | Regulation of cilia abundance in multiciliated cells |
Q60389153 | Seeing cilia: imaging modalities for ciliary motion and clinical connections |
Q64086682 | The Mutant Mice: A Ciliopathy Model That Uncouples Ciliogenesis From Planar Cell Polarity |
Q52694987 | The SKP1-Cullin-F-box E3 ligase βTrCP and CDK2 cooperate to control STIL abundance and centriole number. |
Q89927140 | The tubulin code and its role in controlling microtubule properties and functions |
Q91865231 | Transcription factor TAp73 and microRNA-449 complement each other to support multiciliogenesis |
Q92252885 | ΔSCOPE: A new method to quantify 3D biological structures and identify differences in zebrafish forebrain development |
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