Recombinant Anoxybacillus flavithermus araA Protein (M1-R496), His/CL7-tagged

• Cat.No.: araA-1469A
• Product Overview: Recombinant Anoxybacillus flavithermus 6His-CL7-TEV-(G)-araA(M1-R496 end) protein with a His/CL7 tag was expressed in E. coli

Specification

• Description: Catalyzes the conversion of L-arabinose to L-ribulose.
• Source: E. coli
• Species: Anoxybacillus flavithermus
• Tag: His/CL7
• Form: Liquid
• Protein Length: M1-R496
• Endotoxin: < 0.01 EU/μg of the protein
• Purity: 90%
• Stability: Samples are stable for up to twelve months from date of receipt at -20 to -80 centigrade
• Storage: Store it under sterile conditions at -20 to -80 centigrade. It is recommended that the protein be aliquoted for optimal storage. Avoid repeated freeze-thaw cycles.
• Storage Buffer: Supplied as sterile 50 mM Tris-HCl (pH7.5), 200 mM NaCl, 20% glycerol
• Shipping: It is shipped out with blue ice.
• Official Symbol: araA
• Synonyms: L-arabinose isomerase; araA; L-arabinose isomerase Automatic Annotation; EC:5.3.1.4
• UniProt ID: F6KRI7

Gene Information

• Official Symbol: araA
• Synonyms: L-arabinose isomerase; araA; L-arabinose isomerase Automatic Annotation; EC:5.3.1.4
• UniProt ID: F6KRI7

Reviews

02/27/2022

A manufacturer can serve as a collaborative partner, engaging in discussions, and exchanging knowledge with researchers.

01/09/2021

the ARAA protein's quality and suitability for experimental needs, combined with the manufacturer's excellent technical support, create a valuable partnership that enhances research outcomes.

04/20/2018

The manufacturer's commitment to excellence is evident through their provision of excellent technical support, which can prove vital in troubleshooting any experimental challenges or addressing specific research questions related to the protein.

03/21/2018

manufacturers may offer customization options, allowing researchers to tailor the ARAA protein to their specific needs.

01/18/2018

This may include options like different formulations, protein modifications, or tagging techniques. Customization can enhance the versatility of the protein and optimize its utility in the intended research.

05/24/2017

Such support ensures researchers have access to reliable tools and expertise, facilitating their investigations into the functions, mechanisms, and disease relevance of ARAA protein.

01/23/2016

Researchers can feel confident in the reliability and efficacy of the ARAA protein and rely on the manufacturer's expertise to navigate any challenges that may arise during their trials.

01/10/2016

Their expertise can help troubleshoot problems, suggest alternative approaches, or provide recommendations for optimizing experimental protocols.

Q&As

Are there any known genetic mutations or variations in the ARAA protein?

As of now, there is limited information available regarding genetic mutations or variations specifically in the ARAA protein. Further research is needed to understand if any genetic alterations in the ARAA gene can impact its function or contribute to disease conditions.

Is the ARAA protein specific to males or is it present in females as well?

The ARAA protein is present in both males and females. However, its expression levels and functional significance may vary between the sexes. Research suggests that the ARAA protein may have a stronger association with male reproductive tissues, but it is also detected in certain female reproductive organs and other non-reproductive tissues.

Are there any known diseases or conditions associated with the ARAA protein?

Currently, there are no known diseases or conditions directly associated with the ARAA protein. However, its potential involvement in regulating AR activity suggests that dysregulation or dysfunction of the ARAA protein could potentially impact conditions related to androgen signaling, such as certain types of prostate cancer or androgen insensitivity syndrome. Further research is required to establish any direct causal relationship.

Are there any therapeutic strategies targeting the ARAA protein?

Since the functional role of the ARAA protein is still being explored, there are currently no therapeutic strategies specifically targeting this protein. However, understanding its relationship with the androgen receptor may have implications for the development of future therapeutic approaches aimed at modulating androgen signaling pathways and related diseases.

Are there any therapeutic strategies targeting the ARAA protein?

Since the functional role of the ARAA protein is still being explored, there are currently no therapeutic strategies specifically targeting this protein. However, understanding its relationship with the androgen receptor may have implications for the development of future therapeutic approaches aimed at modulating androgen signaling pathways and related diseases.

How is the ARAA protein regulated in the body?

The regulation of the ARAA protein is not yet fully understood. However, studies suggest that its expression may be influenced by hormonal factors. Androgen hormones, such as testosterone, have been shown to affect the expression levels of the ARAA protein.

What are the potential implications of studying the ARAA protein?

Understanding the function and regulation of the ARAA protein may provide insights into the mechanisms of androgen signaling and the development of related diseases, such as prostate cancer. It could potentially lead to the identification of novel therapeutic targets or strategies for diseases involving dysregulation of androgen receptor activity. Additionally, it may contribute to our understanding of sexual development and fertility in both males and females.

What are the potential implications of studying the ARAA protein?

Understanding the function and regulation of the ARAA protein may provide insights into the mechanisms of androgen signaling and the development of related diseases, such as prostate cancer. It could potentially lead to the identification of novel therapeutic targets or strategies for diseases involving dysregulation of androgen receptor activity. Additionally, it may contribute to our understanding of sexual development and fertility in both males and females.

Can the ARAA protein be used as a biomarker for any conditions?

Currently, there is no evidence to suggest that the ARAA protein can serve as a biomarker for any specific conditions. However, ongoing research may uncover potential clinical applications for the ARAA protein in the future.

Are there any known interactions of the ARAA protein with other proteins or molecules?

Research has identified potential interactions of the ARAA protein with other proteins involved in androgen signaling pathways. For example, it has been shown to interact with the androgen receptor (AR) protein, which is central to the regulation of male sexual development and function. The ARAA protein may modulate the transcriptional activity of AR or assist in its cellular transport.

Are there any known interactions of the ARAA protein with other proteins or molecules?

Research has identified potential interactions of the ARAA protein with other proteins involved in androgen signaling pathways. For example, it has been shown to interact with the androgen receptor (AR) protein, which is central to the regulation of male sexual development and function. The ARAA protein may modulate the transcriptional activity of AR or assist in its cellular transport.

How is the ARAA protein studied in the laboratory?

Experimental techniques such as gene expression analysis, immunohistochemistry, and immunoprecipitation are used to study the ARAA protein. These methods allow researchers to examine its expression patterns in various tissues, determine its cellular localization, and investigate its interactions with other molecules or proteins.

How is the ARAA protein studied in the laboratory?

Experimental techniques such as gene expression analysis, immunohistochemistry, and immunoprecipitation are used to study the ARAA protein. These methods allow researchers to examine its expression patterns in various tissues, determine its cellular localization, and investigate its interactions with other molecules or proteins.