scholarly article | Q13442814 |
P50 | author | Jordan Raff | Q37388121 |
Eliana P Lucas | Q57589147 | ||
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Asymmetric inheritance of mother versus daughter centrosome in stem cell division | Q41956545 | ||
Gal4 in the Drosophila female germline | Q42465549 | ||
Functionally unequal centrosomes drive spindle orientation in asymmetrically dividing Drosophila neural stem cells. | Q42509178 | ||
Msps/XMAP215 interacts with the centrosomal protein D-TACC to regulate microtubule behaviour. | Q47070596 | ||
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Microtubule nucleation at non-spindle pole body microtubule-organizing centers requires fission yeast centrosomin-related protein mod20p. | Q47668170 | ||
Gamma-tubulin37C and gamma-tubulin ring complex protein 75 are essential for bicoid RNA localization during drosophila oogenesis | Q48846294 | ||
The fusome organizes the microtubule network during oocyte differentiation in Drosophila. | Q50723773 | ||
Orientation of asymmetric stem cell division by the APC tumor suppressor and centrosome. | Q52100403 | ||
Zygotic development without functional mitotic centrosomes. | Q52138911 | ||
Mutations in centrosomin reveal requirements for centrosomal function during early Drosophila embryogenesis. | Q52536237 | ||
Myomegalin is a novel protein of the golgi/centrosome that interacts with a cyclic nucleotide phosphodiesterase | Q24290674 | ||
Aspm specifically maintains symmetric proliferative divisions of neuroepithelial cells | Q24550947 | ||
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Targeted gene expression as a means of altering cell fates and generating dominant phenotypes | Q27861039 | ||
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Making microtubules and mitotic spindles in cells without functional centrosomes | Q33236955 | ||
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The disappearance of cyclin B at the end of mitosis is regulated spatially in Drosophila cells | Q33890771 | ||
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SAK/PLK4 is required for centriole duplication and flagella development | Q34472675 | ||
Flies without centrioles | Q34543650 | ||
Overexpressing centriole-replication proteins in vivo induces centriole overduplication and de novo formation. | Q35830134 | ||
The centrosome in human genetic disease | Q36058438 | ||
Centrosomes in cellular regulation | Q36280336 | ||
The Drosophila pericentrin-like protein is essential for cilia/flagella function, but appears to be dispensable for mitosis | Q36322473 | ||
Interaction of Aurora-A and centrosomin at the microtubule-nucleating site in Drosophila and mammalian cells | Q36323296 | ||
The emerging complexity of the vertebrate cilium: new functional roles for an ancient organelle | Q36529285 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Drosophila | Q312154 |
Centrosomin Dmel_CG4832 | Q29811132 | ||
P304 | page(s) | 725-732 | |
P577 | publication date | 2007-08-20 | |
P1433 | published in | Journal of Cell Biology | Q1524550 |
P1476 | title | Maintaining the proper connection between the centrioles and the pericentriolar matrix requires Drosophila centrosomin | |
P478 | volume | 178 |
Q27323861 | A CEP215-HSET complex links centrosomes with spindle poles and drives centrosome clustering in cancer |
Q33370199 | A genome-wide RNAi screen to dissect centriole duplication and centrosome maturation in Drosophila. |
Q28275930 | A mechanism for the elimination of the female gamete centrosome in Drosophila melanogaster |
Q34247080 | A molecular mechanism of mitotic centrosome assembly in Drosophila |
Q43138655 | A proximal centriole-like structure is present in Drosophila spermatids and can serve as a model to study centriole duplication |
Q36132333 | An Amino-Terminal Polo Kinase Interaction Motif Acts in the Regulation of Centrosome Formation and Reveals a Novel Function for centrosomin (cnn) in Drosophila |
Q37425611 | Ana3 is a conserved protein required for the structural integrity of centrioles and basal bodies |
Q24570114 | Autosomal Recessive Primary Microcephaly (MCPH): clinical manifestations, genetic heterogeneity and mutation continuum |
Q33788443 | CDK5RAP2 functions in centrosome to spindle pole attachment and DNA damage response |
Q37710011 | CDK5RAP2 interaction with components of the Hippo signaling pathway may play a role in primary microcephaly. |
Q30559130 | CP110 exhibits novel regulatory activities during centriole assembly in Drosophila |
Q41968646 | Cdk1 Phosphorylates Drosophila Sas-4 to Recruit Polo to Daughter Centrioles and Convert Them to Centrosomes. |
Q36021561 | Cdk5rap2 exposes the centrosomal root of microcephaly syndromes |
Q33903451 | Centrioles: active players or passengers during mitosis? |
Q37272485 | Centrocortin cooperates with centrosomin to organize Drosophila embryonic cleavage furrows |
Q58697392 | Centrosomal and Non-Centrosomal Microtubule-Organizing Centers (MTOCs) in |
Q37123357 | Centrosome amplification can initiate tumorigenesis in flies. |
Q38587415 | Centrosome function and assembly in animal cells. |
Q36425489 | Centrosome loss or amplification does not dramatically perturb global gene expression in Drosophila |
Q52972875 | Centrosomes and mitotic spindle poles: a recent liaison? |
Q41199095 | Centrosomes. Regulated assembly of a supramolecular centrosome scaffold in vitro |
Q37310393 | Centrosomin: a complex mix of long and short isoforms is required for centrosome function during early development in Drosophila melanogaster |
Q92763198 | Coordination of Embryogenesis by the Centrosome in Drosophila melanogaster |
Q27679997 | Crystal structures of the CPAP/STIL complex reveal its role in centriole assembly and human microcephaly |
Q42468108 | Detachment of the basal body from the sperm tail is not required to organize functional centrosomes during Drosophila embryogenesis. |
Q30528637 | Dgp71WD is required for the assembly of the acentrosomal Meiosis I spindle, and is not a general targeting factor for the γ-TuRC |
Q42435986 | Different Drosophila cell types exhibit differences in mitotic centrosome assembly dynamics |
Q27311109 | Dissecting the function and assembly of acentriolar microtubule organizing centers in Drosophila cells in vivo |
Q41865584 | Drosophila Ajuba is not an Aurora-A activator but is required to maintain Aurora-A at the centrosome |
Q37120397 | Drosophila Ana1 is required for centrosome assembly and centriole elongation |
Q50099523 | Drosophila PLP assembles pericentriolar clouds that promote centriole stability, cohesion and MT nucleation |
Q37333619 | Drosophila asymmetric division, polarity and cancer |
Q36702322 | Establishment and mitotic characterization of new Drosophila acentriolar cell lines from DSas-4 mutant |
Q36172891 | Functional analysis of centrosomal kinase substrates in Drosophila melanogaster reveals a new function of the nuclear envelope component otefin in cell cycle progression |
Q50504819 | Functional characterization of CP148, a novel key component for centrosome integrity in Dictyostelium. |
Q55464850 | Genetic Analyses of Elys Mutations in Drosophila Show Maternal-Effect Lethality and Interactions with Nucleoporin Genes. |
Q30274924 | Germ Cell-less Promotes Centrosome Segregation to Induce Germ Cell Formation |
Q21132338 | Importance of the CEP215-pericentrin interaction for centrosome maturation during mitosis |
Q27309659 | Interphase centrosome organization by the PLP-Cnn scaffold is required for centrosome function |
Q34030933 | Live imaging of Drosophila larval neuroblasts |
Q28506694 | MCPH1 regulates the neuroprogenitor division mode by coupling the centrosomal cycle with mitotic entry through the Chk1-Cdc25 pathway |
Q37780832 | Microscopy methods for the study of centriole biogenesis and function in Drosophila |
Q39254368 | Moesin is a major regulator of centrosome behavior in epithelial cells with extra centrosomes |
Q35624539 | Molecular genetics of human primary microcephaly: an overview. |
Q83232379 | Pericentrin-mediated SAS-6 recruitment promotes centriole assembly |
Q38232318 | Pericentriolar material structure and dynamics |
Q42407556 | Pins is not required for spindle orientation in the Drosophila wing disc |
Q92303450 | Plk4 Regulates Centriole Asymmetry and Spindle Orientation in Neural Stem Cells |
Q33629131 | Primary microcephaly: do all roads lead to Rome? |
Q41995871 | Proteomic and functional analysis of the mitotic Drosophila centrosome |
Q43189943 | Re-examining the role of Drosophila Sas-4 in centrosome assembly using two-colour-3D-SIM FRAP. |
Q47867524 | Sequential activities of Dynein, Mud and Asp in centrosome-spindle coupling maintain centrosome number upon mitosis. |
Q42224464 | Structural Basis for Mitotic Centrosome Assembly in Flies |
Q37503518 | Synergy between multiple microtubule-generating pathways confers robustness to centrosome-driven mitotic spindle formation |
Q38413012 | The Drosophila Pericentrin-like-protein (PLP) cooperates with Cnn to maintain the integrity of the outer PCM. |
Q36359414 | The Ski2-family helicase Obelus regulates Crumbs alternative splicing and cell polarity |
Q35127642 | The centrosome-specific phosphorylation of Cnn by Polo/Plk1 drives Cnn scaffold assembly and centrosome maturation. |
Q24647436 | The hydrolethalus syndrome protein HYLS-1 links core centriole structure to cilia formation |
Q93380889 | Tissue tension and not interphase cell shape determines cell division orientation in the Drosophila follicular epithelium |
Q37843832 | What's the hype about CDK5RAP2? |
Q61025028 | γ-TuRC Heterogeneity Revealed by Analysis of Mozart1 |
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