Recombinant Human APOPT1 Protein, HIS-tagged
Cat.No. : | APOPT1-154H |
Product Overview : | Recombinant Human APOPT1 fused with His tag at N-terminal was expressed in E. coli. |
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Description : | This gene encodes a protein that localizes to the mitochondria, where it stimulates the release of cytochrome c, thereby promoting programmed cell death. Mutations in this gene have been found in individuals with mitochondrial complex IV deficiency. Alternative splicing results in multiple transcript variants. |
Source : | E. coli |
Tag : | HIS |
Form : | 50mM Tris, pH8.0, 500mM NaCl, 10% glycerol. |
Molecular Mass : | 24 kDa |
Purity : | > 80% as determined by SDS-PAGE and Coomassie blue staining |
Concentration : | >50 ug/mL as determined by microplate BCA method |
Gene Name : | APOPT1 apoptogenic 1, mitochondrial [ Homo sapiens ] |
Official Symbol : | APOPT1 |
Synonyms : | APOP1; C14orf153; APOPT1; |
Gene ID : | 84334 |
mRNA Refseq : | NM_032374.3 |
Protein Refseq : | NP_115750.2 |
UniProt ID : | Q96IL0 |
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◆ Recombinant Protein | ||
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For Research Use Only. Not intended for any clinical use. No products from Creative BioMart may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative BioMart.
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Q&As (23)
Ask a questionYes, APOPT1 is involved in the regulation of apoptosis, which is a process crucial for maintaining tissue homeostasis and eliminating damaged or unwanted cells.
APOPT1 acts as a tRNA-processing enzyme, specifically modifying the 5'-ends of mitochondrial tRNAs by removing a nucleotide residue.
Yes, APOPT1 mutations can be inherited in an autosomal recessive manner, meaning that both copies of the gene (one from each parent) must have mutations to cause the associated disorder.
Mutations in the APOPT1 gene have been linked to a rare genetic disorder called Mitochondrial Myopathy with or without Optic Atrophy.
APOPT1 is predominantly located in the mitochondria, specifically in the mitochondrial matrix where it carries out its tRNA modification function.
Yes, mutations in the APOPT1 gene have been identified in individuals with Mitochondrial Myopathy with or without Optic Atrophy, suggesting a link between APOPT1 dysfunction and this rare genetic disorder.
APOPT1 is ubiquitously expressed in various cell types throughout the body since mitochondria and apoptosis are fundamental to most cells.
Dysfunction of APOPT1 can lead to defects in mitochondrial tRNA modification, which can disrupt protein synthesis and mitochondrial function, potentially causing cellular abnormalities or disease.
Yes, studies have identified several proteins that interact with APOPT1, including TFB1M, a mitochondrial transcription factor, and MRPP3, a mitochondrial ribonuclease.
While APOPT1's primary function is tRNA modification, emerging evidence suggests it may have additional roles in mitochondrial biology and cellular processes, but further research is needed to understand these functions fully.
Currently, the known functions of APOPT1 primarily revolve around apoptosis and mitochondrial tRNA modification. However, as mentioned earlier, there is emerging evidence suggesting potential additional roles for APOPT1 in mitochondrial biology and other cellular processes, but more research is needed to confirm and elucidate these functions.
Currently, there are no known animal models specifically engineered to study APOPT1-related diseases. However, researchers may utilize existing animal models with mitochondrial dysfunction or explore gene editing technologies to develop suitable models in the future.
There are no known disease-causing mutations or variants specifically associated with APOPT1 identified in humans at the moment. However, genetic variations within the APOPT1 gene or its regulatory regions could potentially impact its expression or activity, leading to disease susceptibility or alterations in cellular processes. Future studies investigating the association of APOPT1 genetic variations with human diseases may provide further insights.
It is possible that APOPT1 may have a role in cellular metabolism due to its involvement in mitochondrial function. Dysfunction in mitochondrial tRNA modification by APOPT1 could potentially affect mitochondrial protein synthesis and therefore impact cellular metabolism, but more research is required to fully understand the extent of APOPT1's role in cellular metabolism.
As our understanding of APOPT1 and its role in mitochondrial functions expands, it might present a potential target for developing therapeutic interventions for related diseases. However, further research is needed in this area.
Currently, there are no known drugs or therapeutic strategies specifically targeting APOPT1 under development. However, ongoing research on mitochondrial dysfunction, apoptosis regulation, and tRNA modifications could potentially lead to the identification of compounds or interventions that modulate APOPT1's activity or address related pathologies in the future.
While there are currently no specific therapies targeting APOPT1-related diseases, research is ongoing to better understand the molecular mechanisms involved and to potentially develop targeted treatments in the future.
There is currently no evidence directly linking APOPT1 to neurodegenerative diseases. However, mitochondrial dysfunction, impaired apoptosis, and altered tRNA modifications have been implicated in various neurodegenerative disorders, suggesting a potential indirect role for APOPT1 in these conditions. Further research is needed to explore this connection.
As of now, there are no known specific inhibitors or activators of APOPT1. However, ongoing research may uncover potential compounds or molecules that can modulate APOPT1 activity in the future.
Yes, there are ongoing studies investigating the detailed mechanisms and functions of APOPT1, as well as its potential implications in human diseases.
There is currently limited evidence linking APOPT1 directly to cancer. However, mitochondrial dysfunction and impaired apoptosis have been implicated in cancer development and progression, so further research is needed to explore the potential role of APOPT1 in cancer biology.
Dysfunctional APOPT1 can impair mitochondrial protein synthesis due to deficient tRNA modification, leading to mitochondrial dysfunction, compromised energy production, and potential cellular damage.
No, APOPT1 is conserved across various species, indicating its importance in the cellular processes it participates in.
Customer Reviews (4)
Write a reviewIf researchers require modifications or specific variants of APOPT1 protein for their experiments, the manufacturer could potentially offer custom protein engineering services to meet their needs.
they can provide fast and efficient delivery services, minimizing any potential delays and allowing researchers to proceed with their studies in a timely manner.
The manufacturer can provide researchers with a high-quality, purified form of APOPT1 protein, ensuring its integrity and functionality for experimental use.
a manufacturer with a responsive and dedicated customer support team can address any concerns or queries that researchers may have.
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