RAB32 Knockout HEK293 Cell Line

RAB32 Knockout HEK293 Cell Line
Cat.No.:

EDJ-KQ7233

Species:

Human

Cell Name:

HEK293

Gene:

RAB32

Gene ID:

10981

Size:

1×10⁶cells

RAB32 Knockout Cell Line (HEK293) is an exclusive upgraded CRISPR/Cas9 system-mediated gene knockout cell, with the advantages of Optimized Strategy Design, Efficient Cell Transfection, High-Performance Cas9 Protein and Hassle-Free Cell Selection.
Cat.No. EDJ-KQ7233
Product Name RAB32 Knockout Cell Line (HEK293)
Cell Line HEK293
Cellosaurus ID CVCL_0045
Cell Line Synonyms Hek293, HEK-293, HEK/293, (HEK)293, HEK 293, HEK,293, 293, 293 HEK, 293 Ad5, Graham 293, Graham-293, Human Embryonic Kidney 293
Gene RAB32
NCBI Gene ID
Gene Synonyms PARK26
Summary
The protein encoded by this gene anchors the type II regulatory subunit of protein kinase A to the mitochondrion and aids in mitochondrial fission. The encoded protein also appears to be involved in autophagy and melanosome secretion. Variations in this gene may be linked to leprosy. [provided by RefSeq, Dec 2015]
Associated Diseases Non-tumor
Morphology Adherent
Passage Ratio 1/5,2days
Complete Culture Medium DMEM + 10% FBS
Freezing Medium 95% Complete culture medium+ 5% DMSO
QC Indels validated by Sanger sequencing; sterility confirmed via microbial testing.
* For research use only. Not intended for use in humans or animals, including clinical, therapeutic, or diagnostic purposes.
LociSTR Info (Sample Cell)
Sample Cell Line: HEK293
STR Info (Cell bank)
Cell Line: HEK293
Allele1Allele2Allele1Allele2
Amelogenin X X
CSF1P0 12 11 12
D2S1338 19 19
D3S1358 15 17 15 17
D5S818 8 8 9
D7S820 11 12 11 12
D8S1179 12 14 12 14
D13S317 12 14 12 14
D16S539 9 13 9 13
D18S51 17 18 17 18
D19S433 15 18 15 18
D21S11 28 30.2 28 30.2
FGA 23 23
Penta D 9 10 9 10
Penta E 7 15 7 15
TH01 7 9.3 7 9.3
TPOX 11 11
vWA 16 19 16 19
D6S1043 11 11
D12S391 19 21 11 15
D2S441 11 15 11 15
* STR authentication data of this cell line matches with that of cell lines sourced from ATCC, DSMZ, JCRB, and RIKEN databases.
Conclusion: The STR identification of this cell is correct.
* Research Use Disclaimer: Content is generated from publicly available research data, bioinformatic resources, and computational analyses for research reference only.

Related Publications

IF=3.9
The Journal of biological chemistry
Point mutations in leucine-rich repeat kinase 2 (LRRK2) cause Parkinson's disease and augment LRRK2's kinase activity. However, cellular pathways that endogenously enhance LRRK2 kinase function have not been identified. While overexpressed Rab29 draws LRRK2 to Golgi membranes to increase LRRK2 kinase activity, there is little evidence that endogenous Rab29 performs this function under physiological conditions. Here, we identify Rab38 as a novel physiologic regulator of LRRK2 in melanocytes. In mouse melanocytes, which express high levels of Rab38, Rab32, and Rab29, knockdown (or CRISPR knockout) of Rab38, but not Rab32 or Rab29, decreases phosphorylation of multiple LRRK2 substrates, including Rab10 and Rab12, by both endogenous LRRK2 and exogenous Parkinson's disease-mutant LRRK2. In B16-F10 mouse melanoma cells, Rab38 drives LRRK2 membrane association and overexpressed kinase-active LRRK2 shows striking pericentriolar recruitment, which is dependent on the presence of endogenous Rab38 but not Rab32 or Rab29. Consistently, knockdown or mutation of BLOC-3, the guanine nucleotide exchange factor for Rab38 and Rab32, inhibits Rab38's regulation of LRRK2. Deletion or mutation of LRRK2's Rab38-binding site in the N-terminal armadillo domain decreases LRRK2 membrane association, pericentriolar recruitment, and ability to phosphorylate Rab10. In sum, our data identify Rab38 as a physiologic regulator of LRRK2 function and lend support to a model in which LRRK2 plays a central role in Rab GTPase coordination of vesicular trafficking.
This KO model may be useful for: - Studying the role of RAB32 in LRRK2-mediated membrane recruitment and Rab substrate phosphorylation - Investigating endolysosomal trafficking and vesicle dynamics in melanocytes and related cell types - Functional characterization of RAB32 in Parkinson’s disease-associated LRRK2 signaling pathways - Exploring compensatory mechanisms between RAB32 and RAB38 in intracellular transport regulation - Validating RAB32-specific substrates and effectors in kinase-dependent phosphorylation assays

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