scholarly article | Q13442814 |
P2093 | author name string | Elliott K Jang | |
Richard J Haslam | |||
Xiankun Bao | |||
Andrea E Faris | |||
P2860 | cites work | Cloning and characterization of a novel Rab-family gene, Rab36, within the region at 22q11.2 that is homozygously deleted in malignant rhabdoid tumors | Q22008716 |
Molecular cloning of two novel rab genes from human melanocytes | Q24313967 | ||
Alternative mRNA splicing of the novel GTPase Rab28 generates isoforms with different C-termini | Q24315087 | ||
Molecular cloning and characterization of rab27a and rab27b, novel human rab proteins shared by melanocytes and platelets | Q24336677 | ||
Gapped BLAST and PSI-BLAST: a new generation of protein database search programs | Q24545170 | ||
Identification of small GTP-binding rab proteins in human platelets: thrombin-induced phosphorylation of rab3B, rab6, and rab8 proteins | Q24561786 | ||
Rab11 is required for trans-golgi network-to-plasma membrane transport and a preferential target for GDP dissociation inhibitor | Q24657725 | ||
Rab11 regulates recycling through the pericentriolar recycling endosome | Q24681897 | ||
Structural basis of activation and GTP hydrolysis in Rab proteins | Q27617834 | ||
Crystal structures of a Rab protein in its inactive and active conformations | Q27628708 | ||
Structural basis of Rab effector specificity: crystal structure of the small G protein Rab3A complexed with the effector domain of rabphilin-3A | Q27639792 | ||
Rab proteins as membrane organizers | Q27860861 | ||
Cloning and chromosome assignment to 1q32 of a human cDNA (RAB7L1) encoding a small GTP-binding protein, a member of the RAS superfamily | Q28116201 | ||
Association of Rab25 and Rab11a with the apical recycling system of polarized Madin-Darby canine kidney cells | Q28293127 | ||
Rab37 is a novel mast cell specific GTPase localized to secretory granules | Q28512263 | ||
Cloning of two splicing variants of the novel Ras-related GTPase Rab29 which is predominantly expressed in kidney | Q28578055 | ||
The Rab5 effector EEA1 is a core component of endosome docking | Q29620568 | ||
Evidence for the Presence of a Low Mr GTP-binding Protein, ram p25, in Human Platelet Membranes | Q33736262 | ||
Potential role of Rab4 in the regulation of subcellular localization of Glut4 in adipocytes. | Q36564230 | ||
The ras protein family: evolutionary tree and role of conserved amino acids | Q37713543 | ||
Kinetics of interaction of Rab5 and Rab7 with nucleotides and magnesium ions | Q38353916 | ||
Influence of Mg2+ on the structure and function of Rab5. | Q38362688 | ||
Subcellular distribution of the different platelet proteins phosphorylated on exposure of intact platelets to ionophore A23187 or to prostaglandin E1. Possible role of a membrane phosphopolypeptide in the regulation of calcium-ion transport | Q39713979 | ||
Rab11, a small GTPase associated with both constitutive and regulated secretory pathways in PC12 cells | Q41514268 | ||
Interactions of the ras-like protein p25rab 3A with Mg2+ and guanine nucleotides | Q42118128 | ||
Molecular characterization of rabE, a developmentally regulated Dictyostelium homolog of mammalian rab GTPases | Q42692569 | ||
GTP-blot analysis of small GTP-binding proteins. The C-terminus is involved in renaturation of blotted proteins | Q42833468 | ||
Detection of 23-27 kDa GTP-binding proteins in platelets and other cells | Q42856438 | ||
Analysis of a Nicotiana plumbaginifolia cDNA encoding a novel small GTP-binding protein | Q48181251 | ||
The complexity of the Rab and Rho GTP-binding protein subfamilies revealed by a PCR cloning approach | Q48181299 | ||
A general method for rapid site-directed mutagenesis using the polymerase chain reaction. | Q48247178 | ||
The mammalian Rab family of small GTPases: definition of family and subfamily sequence motifs suggests a mechanism for functional specificity in the Ras superfamily | Q48745906 | ||
Preparation of suspensions of washed platelets from humans. | Q53992379 | ||
Rab11 is associated with GLUT4-containing vesicles and redistributes in response to insulin. | Q54023845 | ||
The ras-related YPT1 gene product in yeast: a GTP-binding protein that might be involved in microtubule organization | Q70308676 | ||
Subclass-specific sequence motifs identified in Rab GTPases | Q72601306 | ||
Subcellular localization of a low Mr GTP-binding protein, c25KG, in resting and stimulated human platelets | Q72926759 | ||
Small GTPase Rab4 regulates Ca2+-induced alpha-granule secretion in platelets | Q74153372 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 259-271 | |
P577 | publication date | 2002-01-01 | |
P1433 | published in | FEBS Journal | Q1388041 |
P1476 | title | Molecular cloning, bacterial expression and properties of Rab31 and Rab32. | |
P478 | volume | 269 |
Q41938004 | A small GTPase, human Rab32, is required for the formation of autophagic vacuoles under basal conditions |
Q92533083 | Combined deficiency of RAB32 and RAB38 in the mouse mimics Hermansky-Pudlak syndrome and critically impairs thrombosis |
Q28727361 | Cooperative interaction between the MUC1-C oncoprotein and the Rab31 GTPase in estrogen receptor-positive breast cancer cells |
Q24338228 | Gapex-5, a Rab31 guanine nucleotide exchange factor that regulates Glut4 trafficking in adipocytes |
Q63976708 | Genomic and molecular characterization of preterm birth |
Q38512068 | Genomic sequence analysis of a potential QTL region for fat trait on pig chromosome 6. |
Q37593216 | Hepatitis C Virus-Induced Rab32 Aggregation and Its Implications for Virion Assembly |
Q40633511 | Identification and characterization of mouse Rab32 by mRNA and protein expression analysis |
Q35038999 | Identification of differentially expressed genes in cutaneous squamous cell carcinoma by microarray expression profiling |
Q38522436 | Integration of proteomics and genomics in platelets: a profile of platelet proteins and platelet-specific genes |
Q28115441 | Interaction with the effector dynamin-related protein 1 (Drp1) is an ancient function of Rab32 subfamily proteins |
Q24306357 | LRRK2 transport is regulated by its novel interacting partner Rab32 |
Q33393133 | Mechanism of platelet factor 4 (PF4) deficiency with RUNX1 haplodeficiency: RUNX1 is a transcriptional regulator of PF4. |
Q37783810 | Mechanisms of protein kinase A anchoring |
Q28278715 | Networking with AKAPs: context-dependent regulation of anchored enzymes |
Q33588238 | Neuroprotective effects of calmodulin peptide 76-121aa: disruption of calmodulin binding to mutant huntingtin |
Q50299994 | RAB31 GEFs exchange GTP for GDP on RAB31 |
Q24318649 | RUTBC1 protein, a Rab9A effector that activates GTP hydrolysis by Rab32 and Rab33B proteins |
Q38061998 | Rab proteins of the endoplasmic reticulum: functions and interactors |
Q24312005 | Rab22B is expressed in the CNS astroglia lineage and plays a role in epidermal growth factor receptor trafficking in A431 cells |
Q24336331 | Rab22B's role in trans-Golgi network membrane dynamics |
Q33714453 | Rab27b is associated with fusiform vesicles and may be involved in targeting uroplakins to urothelial apical membranes |
Q36403091 | Rab31 expression levels modulate tumor-relevant characteristics of breast cancer cells |
Q34181492 | Rab32 Modulates Apoptosis Onset and Mitochondria-associated Membrane (MAM) Properties |
Q42328338 | Rab32 connects ER stress to mitochondrial defects in multiple sclerosis. |
Q40709834 | Rab32 is an A-kinase anchoring protein and participates in mitochondrial dynamics |
Q40088288 | Rab32 restriction of intracellular bacterial pathogens |
Q39254956 | Rab32 subfamily small GTPases: pleiotropic Rabs in endosomal trafficking |
Q36119125 | Rab38 and Rab32 control post-Golgi trafficking of melanogenic enzymes |
Q34490905 | Resolved psoriasis lesions retain expression of a subset of disease-related genes |
Q38346029 | Sucrose-induced vacuolation results in increased expression of cholesterol biosynthesis and lysosomal genes |
Q27674764 | The binding of Varp to VAMP7 traps VAMP7 in a closed, fusogenically inactive conformation |
Q34885255 | The role of the small GTPase Rab31 in cancer |
Q64065951 | The skin transcriptome in hidradenitis suppurativa uncovers an antimicrobial and sweat gland gene signature which has distinct overlap with wounded skin |
Q24645802 | Transport of mannose-6-phosphate receptors from the trans-Golgi network to endosomes requires Rab31 |
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