MTCH2 Knockout HeLa Cell Line

MTCH2 Knockout HeLa Cell Line
Cat.No.:

EDJ-KQ20971

Species:

Human

Cell Name:

HeLa

Gene:

MTCH2

Gene ID:

23788

Size:

1×10⁶cells

MTCH2 Knockout Cell Line (Hela) 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-KQ20971
Product Name MTCH2 Knockout Hela Cell Line
Cell Line Hela
Cellosaurus ID CVCL_0030
Cell Line Synonyms HELA, Hela, He La, He-La, HeLa-CCL2, Henrietta Lacks cells, Helacyton gartleri
Gene MTCH2
NCBI Gene ID
Gene Synonyms HSPC032|MIMP|SLC25A50
Summary
This gene encodes a member of the SLC25 family of nuclear-encoded transporters that are localized in the inner mitochondrial membrane. Members of this superfamily are involved in many metabolic pathways and cell functions. Genome-wide association studies in human have identified single-nucleotide polymorphisms in several loci associated with obesity. This gene is one such locus, which is highly expressed in white adipose tissue and adipocytes, and thought to play a regulatory role in adipocyte differentiation and biology. Alternatively spliced transcript variants encoding different isoforms have been found for this gene. A recent study showed this gene to be an authentic stop codon readthrough target that can produce two isoforms from the same mRNA by use of alternative in-frame translation termination codons. [provided by RefSeq, Dec 2017]
Associated Diseases Cervical Carcinoma
Morphology Adherent
Passage Ratio 1/5, 2days
Complete Culture Medium MEM + 10% FBS
Freezing Medium 70%Complete culture medium+ 20% FBS+ 10% 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: HeLa
STR Info (Cell bank)
Cell Line: HeLa
Allele1Allele2Allele1Allele2
Amelogenin X X
CSF1PO 9 10 9 10
D1S1656 12 15 12 15
D2S1338 17 17
D3S1358 15 18 15 18
D5S818 11 12 11 12
D6S1043 18 18
D7S820 8 12 8 12
D8S1179 12 13 12 13
D12S391 20 25 20 25
D13S317 12 14 12 14
D16S539 9 10 9 10
D18S51 16 16
D19S433 13 14 13 14
D21S11 27 28 27 28
FGA 18 21 18 21
Penta D 8 15 8 15
Penta E 7 17 7 17
TPOX 8 12 8 12
VWA 16 18 16 18
* 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=8.3
The EMBO journal
Mitochondrial carrier homolog 2 (MTCH2) is a regulator of apoptosis, mitochondrial dynamics, and metabolism. Loss of MTCH2 results in mitochondrial fragmentation, an increase in whole-body energy utilization, and protection against diet-induced obesity. In this study, we used temporal metabolomics on HeLa cells to show that MTCH2 deletion results in a high ATP demand, an oxidized cellular environment, and elevated utilization of lipids, amino acids, and carbohydrates, accompanied by a decrease in several metabolites. Lipidomics analysis revealed a strategic adaptive reduction in membrane lipids and an increase in storage lipids in MTCH2 knockout cells. Importantly, MTCH2 knockout cells showed an increase in mitochondrial oxidative function, which may explain the higher energy demand. Interestingly, this imbalance in energy metabolism and reductive potential triggered by MTCH2-deletion prevents NIH3T3L1 preadipocytes from differentiating into mature adipocytes, an energy consuming reductive biosynthetic process. In summary, the loss of MTCH2 leads to increased mitochondrial oxidative activity and energy demand, creating a catabolic and oxidative environment that fails to fuel the anabolic processes required for lipid accumulation and adipocyte differentiation.
This KO model may be useful for: - Investigating the role of MTCH2 in metabolic reprogramming and energy homeostasis during adipogenesis. - Studying the molecular mechanisms linking mitochondrial metabolism to anabolic processes. - Exploring MTCH2 as a potential target for obesity or metabolic disorder research. - Functional validation of MTCH2 in cellular energy demand and lipid accumulation pathways. - In vitro screening for compounds modulating mitochondrial-driven anabolic signaling.

Required Accessories

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