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Product Name | IPTG for Molecular Biology, Dioxane Free |
Purity | ≥ 99% |
Formula | C9H18O5S |
Molecular Weight | 238.3 g/mol |
Appearance | White to off-white crystalline powder |
Solubility | Soluble in water |
Storage | Store at -20°C |
Shelf Life | 2 years |
CAS Number | 367-93-1 |
Synonyms | Isopropyl β-D-1-thiogalactopyranoside, IPTG, IPTG-Dioxane Free |
Applications | Inducer of β-galactosidase activity in molecular biology experiments |
FAQ
What is IPTG and why is it important for molecular biology research?
IPTG, or isopropyl β-D-1-thiogalactopyranoside, is a chemical compound commonly used in molecular biology research. It is used to induce the expression of genes in bacterial cells that have been engineered to contain a certain gene of interest. IPTG is important because it allows researchers to control when and how much of a particular protein is produced in the cells, which is crucial for studying the function of that protein.
Why is it advantageous to use a dioxane-free IPTG product?
Dioxane is a potentially hazardous chemical that has been linked to various health risks. By using a dioxane-free IPTG product, researchers can minimize their exposure to this harmful chemical and create a safer working environment in the lab. Additionally, using a dioxane-free product ensures that the purity and quality of the IPTG is not compromised by the presence of dioxane contaminants.
How can researchers benefit from using IPTG in their molecular biology experiments?
Researchers can benefit from using IPTG in their experiments by having a reliable and efficient tool for inducing gene expression in bacterial cells. IPTG allows researchers to precisely control the timing and level of gene expression, which is critical for studying the functions of specific genes and proteins. By using IPTG, researchers can easily manipulate gene expression in their experiments and obtain accurate and reproducible results.
Are there any limitations or considerations to keep in mind when using IPTG in molecular biology research?
While IPTG is a widely used inducer in molecular biology research, researchers should be aware of certain limitations and considerations when using this compound. For example, the concentration of IPTG used for induction can have a significant impact on the level of gene expression, so it is important to optimize the concentration for each specific experiment. Additionally, some bacterial strains may have different responses to IPTG induction, so researchers should be aware of the characteristics of the host cells they are working with.
What sets this dioxane-free IPTG product apart from other similar products on the market?
This dioxane-free IPTG product offers researchers a safe and reliable option for inducing gene expression in their experiments. With its high purity and quality, this product ensures consistent and reproducible results in molecular biology research. Additionally, the absence of dioxane in this product makes it a safer choice for researchers who are concerned about potential health risks associated with chemical exposure.
IPTG, or isopropyl β-D-1-thiogalactopyranoside, is a chemical compound commonly used in molecular biology research. It is used to induce the expression of genes in bacterial cells that have been engineered to contain a certain gene of interest. IPTG is important because it allows researchers to control when and how much of a particular protein is produced in the cells, which is crucial for studying the function of that protein.
Why is it advantageous to use a dioxane-free IPTG product?
Dioxane is a potentially hazardous chemical that has been linked to various health risks. By using a dioxane-free IPTG product, researchers can minimize their exposure to this harmful chemical and create a safer working environment in the lab. Additionally, using a dioxane-free product ensures that the purity and quality of the IPTG is not compromised by the presence of dioxane contaminants.
How can researchers benefit from using IPTG in their molecular biology experiments?
Researchers can benefit from using IPTG in their experiments by having a reliable and efficient tool for inducing gene expression in bacterial cells. IPTG allows researchers to precisely control the timing and level of gene expression, which is critical for studying the functions of specific genes and proteins. By using IPTG, researchers can easily manipulate gene expression in their experiments and obtain accurate and reproducible results.
Are there any limitations or considerations to keep in mind when using IPTG in molecular biology research?
While IPTG is a widely used inducer in molecular biology research, researchers should be aware of certain limitations and considerations when using this compound. For example, the concentration of IPTG used for induction can have a significant impact on the level of gene expression, so it is important to optimize the concentration for each specific experiment. Additionally, some bacterial strains may have different responses to IPTG induction, so researchers should be aware of the characteristics of the host cells they are working with.
What sets this dioxane-free IPTG product apart from other similar products on the market?
This dioxane-free IPTG product offers researchers a safe and reliable option for inducing gene expression in their experiments. With its high purity and quality, this product ensures consistent and reproducible results in molecular biology research. Additionally, the absence of dioxane in this product makes it a safer choice for researchers who are concerned about potential health risks associated with chemical exposure.