Recombinant Human AK4, His-tagged
Cat.No. : | AK4-27152TH |
Product Overview : | Recombinant full length Human AK3L1 (amino acids 1-223) with N terminal His tag; 259 aa, 29.3 kDa. |
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Description : | This gene encodes a member of the adenylate kinase family of enzymes. The encoded protein is localized to the mitochondrial matrix. Adenylate kinases regulate the adenine and guanine nucleotide compositions within a cell by catalyzing the reversible transfer of phosphate group among these nucleotides. Five isozymes of adenylate kinase have been identified in vertebrates. Expression of these isozymes is tissue-specific and developmentally regulated. A pseudogene for this gene has been located on chromosome 17. Three transcript variants encoding the same protein have been identified for this gene. Sequence alignment suggests that the gene defined by NM_013410, NM_203464, and NM_001005353 is located on chromosome 1. |
Protein length : | 223 amino acids |
Conjugation : | HIS |
Molecular Weight : | 29.300kDa inclusive of tags |
Source : | E. coli |
Form : | Liquid |
Purity : | >95% by SDS-PAGE |
Storage buffer : | pH: 8.00Constituents:0.32% Tris HCl, 20% Glycerol, 0.03% DTT |
Storage : | Store at -20°C (dessicate conditions). |
Sequences of amino acids : | MRGSHHHHHH GMASMTGGQQ MGRDLYDDDD KDRWGSMASK LLRAVILGPP GSGKGTVSQR IAQNFGLQHL SSGHFLRENIKASTEVGEMA KQYIEKSLLV PDHVITRLMM SELENRRGQH WLLDGFPRTL GQAEALDKIC EVDLVISLNI PFETLKDRLS RRWIHPPSGR VYNLDFNPPH VHGIDDVTGE PLVQQEDDKP EAVAARLRQY KDVAKPVIEL YKSRGVLHQF SGTETNKIWP YVYTLFSNKI TPIQSKEAY |
Sequence Similarities : | Belongs to the adenylate kinase family. |
Gene Name : | AK4 adenylate kinase 4 [ Homo sapiens ] |
Official Symbol : | AK4 |
Synonyms : | AK4; adenylate kinase 4; adenylate kinase 3 , adenylate kinase 3 like 1 , AK3, AK3L1; adenylate kinase isoenzyme 4, mitochondrial; |
Gene ID : | 205 |
mRNA Refseq : | NM_001005353 |
Protein Refseq : | NP_001005353 |
MIM : | 103030 |
Uniprot ID : | P27144 |
Chromosome Location : | 1p31.3 |
Pathway : | Metabolic pathways, organism-specific biosystem; Purine metabolism, organism-specific biosystem; Purine metabolism, conserved biosystem; |
Function : | ATP binding; GTP binding; adenylate kinase activity; nucleotide binding; transferase activity; |
Products Types
◆ Recombinant Protein | ||
Ak4-563M | Recombinant Mouse Ak4 Protein, MYC/DDK-tagged | +Inquiry |
AK4-241R | Recombinant Rat AK4 Protein, His (Fc)-Avi-tagged | +Inquiry |
AK4-3973H | Recombinant Human AK4 protein(Ala2-Tyr223), His&GST-tagged | +Inquiry |
AK4-463H | Recombinant Human AK4, Gly & Pro tagged | +Inquiry |
AK4-12487Z | Recombinant Zebrafish AK4 | +Inquiry |
◆ Lysates | ||
AK4-8945HCL | Recombinant Human AK3L1 293 Cell Lysate | +Inquiry |
AK4-001HCL | Recombinant Human AK4 cell lysate | +Inquiry |
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 (23)
Ask a questionAK4 is involved in various cellular processes, including energy metabolism, maintaining cellular ATP/AMP ratio, and protecting cells from oxidative stress. It also plays a role in the regulation of apoptosis and cell proliferation.
AK4 protein does not directly participate in cellular respiration itself, but it contributes to energy metabolism by regulating ATP levels. ATP generated through cellular respiration is used by AK4 to regenerate ADP, ensuring an adequate supply of ATP for cellular functions. Thus, AK4 indirectly supports cellular respiration by maintaining a proper ATP/ADP balance.
Yes, animal models, such as mice, have been used to study AK4 protein's function and its impact on various diseases. These models allow researchers to investigate the physiological and pathological roles of AK4 and assess its therapeutic potential.
Currently, there are no known clinical trials specifically targeting AK4 protein. However, research on AK4 and its potential therapeutic implications is ongoing, and future clinical trials may explore the therapeutic relevance of AK4 modulation in diseases such as cancer and neurodegenerative disorders.
As of now, there are no drugs specifically targeting AK4 protein. However, further research may uncover its therapeutic potential, particularly in diseases where AK4 dysregulation is observed.
AK4 protein expression and activity can be regulated at multiple levels, including transcriptional regulation, post-translational modifications, and interaction with other cellular proteins. Various signaling pathways and conditions can influence AK4 expression and activity.
While research on the direct influence of environmental factors on AK4 protein levels is limited, it is plausible that certain environmental factors, such as diet or exposure to toxins, may indirectly affect AK4 expression or activity. However, further studies are needed to determine the specific environmental factors that may influence AK4 regulation and their impact on health and disease.
Currently, there are no known specific inhibitors or activators of AK4 protein. The research on AK4 modulation is still in its early stages, and more investigations are needed to identify compounds that can selectively modulate AK4 activity. Such compounds could have potential therapeutic applications in diseases involving abnormal energy metabolism.
Recent research suggests that altered expression and activity of AK4 protein may be associated with certain diseases. For example, decreased AK4 levels have been observed in certain cancers, while increased levels have been linked to neurodegenerative disorders.
While specific drugs targeting AK4 protein are not currently available, further research may uncover its potential as a therapeutic target. Modulating AK4 activity or expression may have implications in diseases where its dysregulation occurs, such as cancer or neurodegenerative disorders.
Research has shown that AK4 protein expression is often downregulated in various types of cancer, including lung, breast, and colon cancer. Decreased AK4 levels have been associated with tumor progression and poor prognosis. Loss of AK4 function may affect ATP regeneration and energy metabolism in cancer cells, promoting their survival and proliferation.
Apart from its role in energy metabolism, AK4 protein has been implicated in apoptosis regulation. It has been found to interact with Bcl-2 family proteins, which are involved in the regulation of cell death. AK4 may modulate apoptosis processes by influencing the release of cytochrome c from mitochondria and the activation of caspases.
AK4 protein levels could potentially be used as a biomarker for certain diseases. For example, decreased AK4 expression has been observed in some types of cancer, and measuring AK4 levels in patient samples may help in cancer diagnosis and prognosis. However, more research is needed to establish its diagnostic utility in different diseases and determine the specificity and sensitivity of AK4 as a biomarker.
Yes, ongoing research focuses on exploring the role of AK4 protein in different diseases, understanding its regulation and interactions, and identifying potential therapeutic interventions. Multiple studies are investigating its involvement in cancer, neurodegenerative disorders, and other conditions.
AK4 protein is expressed in various human tissues, but its levels may vary depending on the tissue type. High levels of AK4 expression have been observed in tissues with high energy demands, such as the brain and skeletal muscles. However, AK4 expression has also been detected in other tissues like the heart, liver, and kidney.
There are currently no specific inhibitors or activators of AK4 protein that have been extensively studied. However, some compounds and drugs have been found to potentially modulate AK4 activity, but more research is needed to fully understand their effects.
AK4 protein is a potential target for therapeutic intervention, particularly in diseases where dysregulated energy metabolism is implicated. Modulating AK4 activity or expression could potentially impact energy balance and cellular viability. However, the development of specific AK4-targeting therapies would require further research to fully understand its role in disease pathogenesis and to identify appropriate strategies to manipulate its function effectively and safely.
Genetic variations in AK4 have not been extensively studied with regard to disease susceptibility. However, some studies have identified single nucleotide polymorphisms (SNPs) in the AK4 gene that may be associated with certain diseases or conditions. For example, specific AK4 SNPs have been linked to increased risk of developing diabetic nephropathy, a kidney complication of diabetes. Further investigation is required to establish any direct causal relationship between AK4 genetic variations and disease susceptibility.
Targeting AK4 protein in cancer therapy holds potential, as decreased AK4 expression in certain cancers suggests a role in tumor growth and progression. Developing AK4-specific inhibitors or activators could potentially disrupt cancer cell metabolism and induce cell death or sensitize tumors to other treatments. However, extensive research is needed to understand the precise mechanisms by which AK4 contributes to tumorigenesis and to develop targeted therapies that are both effective and safe.
AK4 protein's involvement in energy metabolism and its association with certain diseases suggest its potential as a target for therapeutic interventions. Further understanding of its roles and regulation may enable the development of novel strategies for disease treatment or prevention.
One of the challenges is the lack of specific inhibitors or activators for AK4 protein. Additionally, understanding the intricate regulation and interaction networks of AK4 in different diseases is necessary to develop effective therapeutic strategies. Further research is needed to elucidate these complexities and overcome these challenges.
Currently, there are no known specific genetic mutations associated with AK4 protein. However, variations in the AK4 gene may exist and could potentially influence its expression or function. Further research is needed to determine any clinical significance of these variations.
AK4 protein is involved in cell survival and proliferation by regulating energy metabolism. Loss of AK4 function can lead to altered ATP regeneration, affecting the energy status of cells. Reduced AK4 levels may enable cancer cells to adapt to energy stress and survive, promoting tumor growth and progression. Additionally, AK4 may influence apoptosis regulation, affecting cell survival and proliferation.
Customer Reviews (5)
Write a reviewThe combined prowess of the AK4 protein and the unparalleled technical support provided by the manufacturer synergize to create an invaluable solution for my scientific needs.
Their extraordinary level of technical support stands as a testament to their unwavering dedication to customer satisfaction.
Its impeccable purity and reliability instill utmost confidence in its ability to generate accurate and reproducible results, catalyzing significant advancements in my research endeavors.
The AK4 protein embodies an exceptional level of quality, rendering it a superior choice that perfectly aligns with my experimental requirements.
the manufacturer's commitment to excellence extends beyond the mere provision of the AK4 protein.
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