scholarly article | Q13442814 |
P2093 | author name string | Bruno Goud | |
Ilse Hurbain | |||
Michel Bornens | |||
Phong Tran | |||
James E Sillibourne | |||
Thierry Grand-Perret | |||
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Novel asymmetrically localizing components of human centrosomes identified by complementary proteomics methods | Q24296940 | ||
Cep164, a novel centriole appendage protein required for primary cilium formation | Q24298367 | ||
Mapping the NPHP-JBTS-MKS protein network reveals ciliopathy disease genes and pathways | Q24302034 | ||
CEP90 is required for the assembly and centrosomal accumulation of centriolar satellites, which is essential for primary cilia formation | Q24302145 | ||
Ofd1, a human disease gene, regulates the length and distal structure of centrioles | Q24303311 | ||
Functional genomic screen for modulators of ciliogenesis and cilium length | Q24306699 | ||
C-Nap1, a novel centrosomal coiled-coil protein and candidate substrate of the cell cycle-regulated protein kinase Nek2 | Q24310473 | ||
CEP290 interacts with the centriolar satellite component PCM-1 and is required for Rab8 localization to the primary cilium | Q24310530 | ||
Centriole distal appendages promote membrane docking, leading to cilia initiation | Q24310904 | ||
A core complex of BBS proteins cooperates with the GTPase Rab8 to promote ciliary membrane biogenesis | Q24311615 | ||
Functional dissection of Rab GTPases involved in primary cilium formation | Q24321757 | ||
The pericentriolar satellite protein CEP90 is crucial for integrity of the mitotic spindle pole | Q24336635 | ||
The conserved Bardet-Biedl syndrome proteins assemble a coat that traffics membrane proteins to cilia | Q24337528 | ||
The Bardet-Biedl protein BBS4 targets cargo to the pericentriolar region and is required for microtubule anchoring and cell cycle progression | Q24337908 | ||
Primary cilia membrane assembly is initiated by Rab11 and transport protein particle II (TRAPPII) complex-dependent trafficking of Rabin8 to the centrosome | Q24338514 | ||
Cep72 regulates the localization of key centrosomal proteins and proper bipolar spindle formation | Q24338704 | ||
PCM-1, A 228-kD centrosome autoantigen with a distinct cell cycle distribution | Q24673515 | ||
Assembly of centrosomal proteins and microtubule organization depends on PCM-1 | Q24674773 | ||
Centriolar satellites: molecular characterization, ATP-dependent movement toward centrioles and possible involvement in ciliogenesis | Q24680892 | ||
Centrioles in the cell cycle. I. Epithelial cells | Q24681444 | ||
Coordination of Rab8 and Rab11 in primary ciliogenesis | Q27967674 | ||
A transition zone complex regulates mammalian ciliogenesis and ciliary membrane composition | Q28000057 | ||
A Rab8 guanine nucleotide exchange factor-effector interaction network regulates primary ciliogenesis | Q28000096 | ||
Cep164 mediates vesicular docking to the mother centriole during early steps of ciliogenesis | Q28000119 | ||
The ciliary pocket: an endocytic membrane domain at the base of primary and motile cilia | Q28504947 | ||
Centrosome organization and centriole architecture: their sensitivity to divalent cations | Q67991449 | ||
Control of ciliogenesis by FOR20, a novel centrosome and pericentriolar satellite protein | Q28589236 | ||
Oral-facial-digital type I protein is required for primary cilia formation and left-right axis specification | Q28591588 | ||
CEP290 tethers flagellar transition zone microtubules to the membrane and regulates flagellar protein content. | Q29614822 | ||
Centrioles and the formation of rudimentary cilia by fibroblasts and smooth muscle cells | Q29620499 | ||
Centrosomes enhance the fidelity of cytokinesis in vertebrates and are required for cell cycle progression | Q30662520 | ||
Centrosome-dependent exit of cytokinesis in animal cells | Q32062097 | ||
Cell cycle progression and de novo centriole assembly after centrosomal removal in untransformed human cells | Q33269437 | ||
Autophosphorylation of polo-like kinase 4 and its role in centriole duplication | Q33647010 | ||
Intraflagellar transport and cilia-dependent diseases. | Q34166357 | ||
easyFRAP: an interactive, easy-to-use tool for qualitative and quantitative analysis of FRAP data. | Q34250463 | ||
GMAP-210 recruits gamma-tubulin complexes to cis-Golgi membranes and is required for Golgi ribbon formation | Q34338675 | ||
Odf2-deficient mother centrioles lack distal/subdistal appendages and the ability to generate primary cilia | Q34413778 | ||
Centriolar satellites are assembly points for proteins implicated in human ciliopathies, including oral-facial-digital syndrome 1. | Q34541509 | ||
The vertebrate primary cilium is a sensory organelle | Q35041118 | ||
CYTOPLASMIC MICROTUBULES IN DIFFERENT ANIMAL CELLS | Q36186423 | ||
The centriole cycle in synchronized HeLa cells | Q36189344 | ||
The centrin-based cytoskeleton of Chlamydomonas reinhardtii: distribution in interphase and mitotic cells | Q36219329 | ||
Morphologically distinct microtubule ends in the mitotic centrosome of Caenorhabditis elegans | Q36324773 | ||
C-NAP1 and rootletin restrain DNA damage-induced centriole splitting and facilitate ciliogenesis. | Q36392131 | ||
The role of the centriolar region in animal cell mitosis. A laser microbeam study | Q36563602 | ||
hPOC5 is a centrin-binding protein required for assembly of full-length centrioles | Q37237897 | ||
The centrosome in cells and organisms | Q37979201 | ||
Selective chemical crosslinking reveals a Cep57-Cep63-Cep152 centrosomal complex | Q39208176 | ||
Inhibition of centrosome protein assembly leads to p53-dependent exit from the cell cycle. | Q39740553 | ||
The C. elegans zyg-1 gene encodes a regulator of centrosome duplication with distinct maternal and paternal roles in the embryo | Q39750041 | ||
Loss of centrosome integrity induces p38-p53-p21-dependent G1-S arrest | Q40165052 | ||
Widespread siRNA "off-target" transcript silencing mediated by seed region sequence complementarity | Q41626666 | ||
Position-specific chemical modification of siRNAs reduces "off-target" transcript silencing | Q41627339 | ||
Involvement of p38 mitogen-activated protein kinase in the cell growth inhibition by sodium arsenite | Q42819412 | ||
Assessing the localization of centrosomal proteins by PALM/STORM nanoscopy | Q44456661 | ||
Reconstructions of centriole formation and ciliogenesis in mammalian lungs. | Q45345788 | ||
Distribution of glutamylated alpha and beta-tubulin in mouse tissues using a specific monoclonal antibody, GT335. | Q48396725 | ||
P275 | copyright license | Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported | Q15643954 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | cilium assembly | Q14916348 |
Pericentriolar material 1 | Q21112518 | ||
Centrosomal protein 89 | Q21114139 | ||
Centrosomal protein 250 | Q21115402 | ||
Centrosomal protein 89 | Q21494166 | ||
non-motile cilium assembly | Q27118859 | ||
P304 | page(s) | 535-545 | |
P577 | publication date | 2013-04-09 | |
P1433 | published in | Biology Open | Q27724268 |
P1476 | title | Primary ciliogenesis requires the distal appendage component Cep123. | |
P478 | volume | 2 |
Q57149575 | A distal centriolar protein network controls organelle maturation and asymmetry |
Q50297230 | C2CD3 and OFD1 recruit 5 distal appendage proteins to the centriole |
Q50297229 | C2CD3 binds the mother centriole |
Q28000151 | C2cd3 is critical for centriolar distal appendage assembly and ciliary vesicle docking in mammals. |
Q27301023 | CEP290 alleles in mice disrupt tissue-specific cilia biogenesis and recapitulate features of syndromic ciliopathies |
Q50422745 | CEP78 is mutated in a distinct type of Usher syndrome. |
Q91871867 | Centriolar satellites are acentriolar assemblies of centrosomal proteins |
Q38842602 | Centrosome age regulates kinetochore-microtubule stability and biases chromosome mis-segregation |
Q42752139 | Centrosomes back in the limelight |
Q33925659 | Cep164 triggers ciliogenesis by recruiting Tau tubulin kinase 2 to the mother centriole |
Q30591650 | Chibby promotes ciliary vesicle formation and basal body docking during airway cell differentiation |
Q34207085 | Ciliopathies: the trafficking connection |
Q42495096 | Ciliopathy-associated IQCB1/NPHP5 protein is required for mouse photoreceptor outer segment formation |
Q47290076 | Conditional knockout mice for the distal appendage protein CEP164 reveal its essential roles in airway multiciliated cell differentiation |
Q24319185 | Early steps in primary cilium assembly require EHD1/EHD3-dependent ciliary vesicle formation |
Q64082751 | High-resolution characterization of centriole distal appendage morphology and dynamics by correlative STORM and electron microscopy |
Q26765127 | Human basal body basics |
Q93364645 | It takes two (centrioles) to tango |
Q47674642 | Microtubule stabilization drives 3D centrosome migration to initiate primary ciliogenesis |
Q34000871 | Mutations of CEP83 cause infantile nephronophthisis and intellectual disability |
Q90647026 | Nek2 kinase displaces distal appendages from the mother centriole prior to mitosis |
Q27313336 | OFD1 and flotillins are integral components of a ciliary signaling protein complex organized by polycystins in renal epithelia and odontoblasts |
Q90028602 | Phosphorylation of multiple proteins involved in ciliogenesis by Tau Tubulin kinase 2 |
Q37234721 | Primary cilia and kidney injury: current research status and future perspectives |
Q91528033 | Super-resolution microscopy reveals coupling between mammalian centriole subdistal appendages and distal appendages |
Q94521055 | TALPID3 and ANKRD26 selectively orchestrate FBF1 localization and cilia gating |
Q27312467 | The centrosome is an actin-organizing centre. |
Q38849038 | The daughter centriole controls ciliogenesis by regulating Neurl-4 localization at the centrosome |
Q35930524 | The essential roles of transition fibers in the context of cilia |
Q35257467 | Ultrastructural characterization of primary cilia in pathologically characterized human glioblastoma multiforme (GBM) tumors |
Q33959941 | When fate follows age: unequal centrosomes in asymmetric cell division |
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