Microtubule binding proteins CLIP‐170, EB1, and p150Glued form distinct plus‐end complexes - Ligon - 2006 - FEBS Letters - Wiley Online Library
CLIP-170 and IQGAP1 Cooperatively Regulate Dendrite Morphology | Journal of Neuroscience
CLIP-170 Highlights Growing Microtubule Ends In Vivo: Cell
![PDF] Interactions between CLIP-170, tubulin, and microtubules: implications for the mechanism of Clip-170 plus-end tracking behavior. | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/755e940a7ebefa0c71867886e4c75ff2c049ffc0/2-Figure1-1.png "PDF] Interactions between CLIP-170, tubulin, and microtubules: implications for the mechanism of Clip-170 plus-end tracking behavior. | Semantic Scholar")
PDF] Interactions between CLIP-170, tubulin, and microtubules: implications for the mechanism of Clip-170 plus-end tracking behavior. | Semantic Scholar
Regulation and function of CLIP-170/CLASP2-dependent microtubule... | Download Scientific Diagram
AMPK regulates cell shape of cardiomyocytes by modulating turnover of microtubules through CLIP-170 | bioRxiv
Dept of Cell Pharmacology
CLIP-170S is a microtubule +TIP variant that confers resistance to taxanes by impairing drug-target engagement - ScienceDirect
The microtubule plus-end-tracking protein CLIP-170 associates with the spermatid manchette and is essential for spermatogenesis
Cytoplasmic Linker Protein-170 Enhances Spreading and Phagocytosis in Activated Macrophages by Stabilizing Microtubules | The Journal of Immunology
LIS1, CLIP-170's Key to the Dynein/Dynactin Pathway | Molecular and Cellular Biology
H. Goodson - Microtubule Plus-ends
![PDF] CLIP-170 tracks growing microtubule ends by dynamically recognizing composite EB1/tubulin-binding sites | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/66fe4202db2559c4fbb038399bec7a9baca6a7d6/8-Figure5-1.png "PDF] CLIP-170 tracks growing microtubule ends by dynamically recognizing composite EB1/tubulin-binding sites | Semantic Scholar")
PDF] CLIP-170 tracks growing microtubule ends by dynamically recognizing composite EB1/tubulin-binding sites | Semantic Scholar
Stress-induced phosphorylation of CLIP-170 by JNK promotes microtubule rescue | Journal of Cell Biology | Rockefeller University Press
α-Tubulin Tyrosination and CLIP-170 Phosphorylation Regulate the Initiation of Dynein-Driven Transport in Neurons - ScienceDirect
Ninein is essential for apico-basal microtubule formation and CLIP-170 facilitates its redeployment to non-centrosomal microtubule organizing centres | Open Biology
Domain architecture of CLIP-170 and EB1. A, domain architecture of EB1... | Download Scientific Diagram
Stress-induced phosphorylation of CLIP-170 by JNK promotes microtubule rescue | Journal of Cell Biology | Rockefeller University Press
CLIP‐170 spatially modulates receptor tyrosine kinase recycling to coordinate cell migration - Zaoui - 2019 - Traffic - Wiley Online Library
Phosphorylation of CLIP‐170 by Plk1 and CK2 promotes timely formation of kinetochore–microtubule attachments | The EMBO Journal
Model of phosphorylation-mediated autoinhibition of CLIP-170. CLIP-170... | Download Scientific Diagram
Figure 2. Model for the Role o [IMAGE] | EurekAlert! Science News Releases
Anti-CLIP-170 Antibody (F-3) | SCBT - Santa Cruz Biotechnology
CLIP-170 microtuble found to bind tightly to formins to accelerate actin filament elongation
Microtubule binding proteins CLIP-170, EB1, and p150Glued form distinct plus-end complexes. - Abstract - Europe PMC
CLIP-170 is essential for MTOC repositioning during T cell activation by regulating dynein localisation on the cell surface | Scientific Reports
CLIP-170 siRNA (m), shRNA and Lentiviral Particle Gene Silencers | SCBT - Santa Cruz Biotechnology
