Recombinant Human APOBR
Cat.No. : | APOBR-744H |
Product Overview : | Recombinant Human APOBR full length or partial length protein was expressed. |
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Source : | Mammalian Cells |
Species : | Human |
Tag : | His |
Form : | Liquid or lyophilized powder |
Endotoxin : | < 1.0 eu per μg of the protein as determined by the LAL method. |
Purity : | >80% |
Notes : | This item requires custom production and lead time is between 5-9 weeks. We can custom produce according to your specifications. |
Storage : | Store it at +4 oC for short term. For long term storage, store it at -20 oC~-80 oC. |
Storage Buffer : | PBS buffer |
Gene Name : | APOBR apolipoprotein B receptor [ Homo sapiens ] |
Official Symbol : | APOBR |
Gene ID : | 55911 |
mRNA Refseq : | NM_018690.3 |
Protein Refseq : | NP_061160.3 |
MIM : | 605220 |
UniProt ID : | H3BU97 |
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Related Gene
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 (24)
Ask a questionSince the functions of APOBEC4 are not fully understood, its potential as a therapeutic target is currently unknown. However, if its role in specific disease pathways is elucidated, it could become a target for therapeutic interventions in the future.
The specific developmental or physiological roles of APOBEC4 are not well-defined. As APOBEC family members are known to participate in various cellular processes, including RNA editing, immunity, and metabolism, it is plausible that APOBEC4 may also have important functions in development and physiology. Further studies are necessary to uncover the specific roles of APOBEC4 in these contexts.
The potential impact of APOBEC4 on gene expression regulation is not currently known. However, other APOBEC family members, such as APOBEC3A and APOBEC3B, have been reported to have transcriptional regulatory activities. It is possible that APOBEC4 may also have similar functions, but further research is needed to elucidate its role in gene expression regulation.
Currently, deaminase activity is the only known enzymatic activity attributed to APOBEC4. APOBEC family members are mainly recognized for their deamination of cytidine to uridine in nucleic acid substrates. However, future research may uncover additional enzymatic activities or functions of APOBEC4.
Although its exact functions are not yet characterized, it is possible that APOBEC4 plays additional roles apart from editing. Some APOBEC proteins have been implicated in immune responses, whereas others are thought to be involved in DNA repair mechanisms.
The APOBEC family proteins, including APOBEC4, have the potential to induce mutations in DNA or RNA through their deaminase activity. However, it is important to note that the activity and specificity of APOBEC proteins can be regulated to prevent excessive mutagenesis and maintain genome stability. The precise impact of APOBEC4 on mutagenesis and its consequences require further investigation.
Currently, there are no known diseases or conditions associated with APOBEC4. However, further research is needed to fully understand its functions and potential implications in health and disease.
Although APOBEC4's role in viral defense mechanisms is not well-established, other APOBEC family members have been extensively studied in this context. Some APOBEC proteins, like APOBEC3G, have been shown to inhibit viral replication through their ability to edit viral genomes. It is possible that APOBEC4 may also play a similar role, but more research is needed to determine its involvement in viral defense mechanisms.
The APOBEC protein family, including APOBEC4, consists of enzymes capable of deaminating cytidine residues in DNA and RNA molecules. This deamination process can lead to changes in the genetic code, resulting in altered protein expression or editing of viral genomes, among other functions.
APOBEC4 differs from other APOBEC family members in several ways. Firstly, APOBEC4 has a distinct tissue expression pattern compared to other family members. Additionally, it may have unique interacting partners or substrates that contribute to its specific functions. Further research is needed to elucidate the precise differences between APOBEC4 and other family members.
APOBEC4's potential impact on RNA stability or processing is not currently known. However, some APOBEC family members, such as APOBEC1, have been shown to play a role in RNA editing, which can influence RNA stability and processing. It is plausible that APOBEC4 may also have similar effects, but more research is required to confirm this.
Currently, there is limited information about specific diseases or conditions directly linked to APOBEC4. However, dysregulation or mutations in other APOBEC family members have been associated with certain diseases, including cancer and viral infections. Further research is needed to understand the potential role of APOBEC4 in disease development and progression.
The specific interacting partners of APOBEC4 have not been extensively characterized. However, other APOBEC family members have been found to interact with various cellular proteins involved in DNA repair, RNA processing, and protein degradation. It is possible that APOBEC4 also interacts with such proteins, but further research is needed to identify these partners.
The involvement of APOBEC4 in DNA repair mechanisms is not well-established. Some APOBEC family members, like APOBEC3B, have been shown to interact with DNA repair proteins and potentially influence DNA repair processes. However, the specific role of APOBEC4 in DNA repair mechanisms is still an open question and requires further investigation.
Currently, there is limited information on the role of APOBEC4 in disease. However, dysregulation or mutations in other APOBEC family members have been associated with certain cancers, such as esophageal, bladder, and breast cancer. It is possible that APOBEC4 dysregulation could also impact disease development, but further research is needed.
The potential use of APOBEC4 as a biomarker for specific diseases or conditions has not been established. However, certain APOBEC family members, like APOBEC3B, have been investigated as biomarkers in cancer due to their association with mutation burdens. Further research is required to determine if APOBEC4 could serve as a biomarker for any diseases or conditions.
Currently, there are no known specific inhibitors or activators identified for APOBEC4. However, certain chemical compounds or genetic factors that modulate the activity of other APOBEC family members may also affect APOBEC4. Genome-wide screens or targeted experiments may help identify factors that regulate APOBEC4 activity in the future.
As the specific function of APOBEC4 is not yet known, there are currently no known therapeutic applications related to this protein. However, future research may uncover potential therapeutic targets or applications based on its functions and interactions within cellular processes.
Targeting the APOBEC protein family could have potential therapeutic applications in certain diseases. For example, in the context of cancer, inhibiting specific APOBEC family members could prevent excessive mutagenesis and limit tumor evolution. However, further research is needed to understand the specific roles of APOBEC proteins in different diseases before therapeutic strategies can be developed.
The specific substrates of APOBEC4 are still not well-defined. However, other APOBEC family proteins have been observed to target specific genomic regions, such as retrotransposons, or play a role in RNA editing, like APOBEC1, which is involved in the editing of apolipoprotein B mRNA.
The presence of genetic variations or polymorphisms in the APOBEC4 gene has not been extensively studied, and there is limited information available. Further research is needed to identify and characterize any genetic variations or polymorphisms in the APOBEC4 gene and understand their potential impact on gene function or disease susceptibility.
APOBEC4 expression is primarily found in the testes and kidneys of humans. It is also expressed in various other tissues to a lesser extent.
Research on APOBEC4 is limited, and there is still much to learn about this protein. Some studies have focused on its expression patterns and genomic location, but its precise functions and molecular mechanisms have yet to be fully elucidated.
APOBEC4 differs from other APOBEC family members in its lack of a catalytic cytidine deaminase domain. This suggests it may have unique functions and mechanisms compared to other APOBEC proteins.
Customer Reviews (4)
Write a reviewManufacturers might offer customization options, such as different variants or modifications of the APOBR protein, to cater to specific research requirements.
Manufacturers should provide detailed information about the production process, quality control measures, and purity assessment methods employed.
Such support helps researchers overcome challenges and obtain reliable results.
A reliable manufacturer ensures the production and purification of APOBR protein, maintaining its quality and purity.
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