scholarly article | Q13442814 |
P2093 | author name string | Ahuvit David | |
Shai Izraeli | |||
Assaf Friedler | |||
Hadar Amartely | |||
Noa Rabinowicz | |||
Mai Shamir | |||
P2860 | cites work | The STIL protein contains intrinsically disordered regions that mediate its protein-protein interactions. | Q53090758 |
Centrosome development in early mouse embryos as defined by an autoantibody against pericentriolar material | Q71139760 | ||
Characteristic features of amino acid residues in coiled-coil protein structures | Q80592981 | ||
The human microcephaly protein STIL interacts with CPAP and is required for procentriole formation | Q24294326 | ||
STIL is required for centriole duplication in human cells | Q24305503 | ||
SAS-6 defines a protein family required for centrosome duplication in C. elegans and in human cells | Q24338767 | ||
Structural characterization of SIL, a gene frequently disrupted in T-cell acute lymphoblastic leukemia | Q24594559 | ||
dbSNP: the NCBI database of genetic variation | Q24608672 | ||
The transition from meiotic to mitotic spindle assembly is gradual during early mammalian development | Q24622331 | ||
How do cilia organize signalling cascades? | Q27005693 | ||
Coiled-coil proteins facilitated the functional expansion of the centrosome | Q27322205 | ||
Structural Basis of the 9-Fold Symmetry of Centrioles | Q27666762 | ||
SAS-6 coiled-coil structure and interaction with SAS-5 suggest a regulatory mechanism inC. eleganscentriole assembly | Q27674490 | ||
A switch between two-, three-, and four-stranded coiled coils in GCN4 leucine zipper mutants | Q27731470 | ||
Expression of the SIL gene is correlated with growth induction and cellular proliferation | Q28254853 | ||
Sil overexpression in lung cancer characterizes tumors with increased mitotic activity | Q28258388 | ||
The SIL gene is required for mouse embryonic axial development and left-right specification | Q28509071 | ||
Acentriolar mitosis activates a p53-dependent apoptosis pathway in the mouse embryo | Q28509974 | ||
The primary cilium: a signalling centre during vertebrate development | Q29547197 | ||
Patched1 regulates hedgehog signaling at the primary cilium | Q29547515 | ||
A molecular signature of metastasis in primary solid tumors | Q29614442 | ||
The vertebrate primary cilium in development, homeostasis, and disease | Q29614609 | ||
The primary cilium as the cell's antenna: signaling at a sensory organelle | Q29615165 | ||
Centrioles, centrosomes, and cilia in health and disease | Q29615173 | ||
Estimation of protein secondary structure from circular dichroism spectra: comparison of CONTIN, SELCON, and CDSSTR methods with an expanded reference set | Q29616463 | ||
Drosophila Ana2 is a conserved centriole duplication factor | Q33643718 | ||
Primary cilia can both mediate and suppress Hedgehog pathway-dependent tumorigenesis | Q33954530 | ||
Centrosomes as signalling centres | Q33959927 | ||
Centrosome aberrations: cause or consequence of cancer progression? | Q34157650 | ||
Absence of centrioles in the first and second meiotic spindles of mouse oocytes | Q34227802 | ||
Re-evaluating centrosome function | Q34354353 | ||
Direct interaction of Plk4 with STIL ensures formation of a single procentriole per parental centriole. | Q34453657 | ||
The Stil protein regulates centrosome integrity and mitosis through suppression of Chfr | Q34541480 | ||
Centrosome replication, genomic instability and cancer | Q34622335 | ||
Structure and non-structure of centrosomal proteins. | Q34720695 | ||
Transmembrane domains in the functions of Fc receptors | Q35088749 | ||
Scaffolds, levers, rods and springs: diverse cellular functions of long coiled-coil proteins | Q35865779 | ||
STIL binding to Polo-box 3 of PLK4 regulates centriole duplication | Q35933358 | ||
The zebra fish cassiopeia mutant reveals that SIL is required for mitotic spindle organization | Q35950169 | ||
From stem cell to embryo without centrioles | Q35980950 | ||
The primary cilium in cell signaling and cancer | Q36526550 | ||
Centrosome biogenesis and function: centrosomics brings new understanding | Q36823707 | ||
Mutations in STIL, encoding a pericentriolar and centrosomal protein, cause primary microcephaly | Q37156137 | ||
Binding of STIL to Plk4 activates kinase activity to promote centriole assembly | Q38860972 | ||
Cell-cycle-regulated expression of STIL controls centriole number in human cells | Q39393625 | ||
The C. elegans zyg-1 gene encodes a regulator of centrosome duplication with distinct maternal and paternal roles in the embryo | Q39750041 | ||
The SIL gene is essential for mitotic entry and survival of cancer cells. | Q40141674 | ||
Lack of centrioles and primary cilia in STIL(-/-) mouse embryos | Q41928965 | ||
Plk4-dependent phosphorylation of STIL is required for centriole duplication. | Q42015542 | ||
The homo-oligomerisation of both Sas-6 and Ana2 is required for efficient centriole assembly in flies | Q42425294 | ||
The SAS-5 N-terminal domain is a tetramer, with implications for centriole assembly in C. elegans | Q42770514 | ||
Amino acid contacts in proteins adapted to different temperatures: hydrophobic interactions and surface charges play a key role | Q43025403 | ||
Centrosome maturation and duplication in C. elegans require the coiled-coil protein SPD-2. | Q47069578 | ||
SAS-4 is a C. elegans centriolar protein that controls centrosome size | Q47172631 | ||
SAS-4 is essential for centrosome duplication in C elegans and is recruited to daughter centrioles once per cell cycle | Q48255695 | ||
gamma-Tubulin is present in acentriolar MTOCs during early mouse development | Q49145756 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 24296 | |
P577 | publication date | 2016-04-14 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | Molecular basis of the STIL coiled coil oligomerization explains its requirement for de-novo formation of centrosomes in mammalian cells | |
P478 | volume | 6 |