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Name | IPTG from plant origin galactose |
Source | Plant origin galactose |
Purity | Dioxane free |
Form | Powder |
Solubility | Soluble in water |
Storage Condition | Store at -20°C |
Shelf Life | 2 years |
Molecular Weight | 238.3 g/mol |
Melting Point | 102-104°C |
Boiling Point | Not available |
Appearance | White to off-white crystalline powder |
Usage | Inducer of lac operon in bacteria |
Applications | Molecular biology research |
Package Size | Available in 1g, 5g, and 10g |
Derivatives | IPTG analogs with modified properties available |
FAQ
What is IPTG and what are its uses in research?
IPTG, or isopropyl β-D-1-thiogalactopyranoside, is a molecular tool commonly used in molecular biology research to induce protein expression. It is an analog of lactose that cannot be broken down by the cell, leading to the induction of the lac operon and subsequent expression of the gene of interest.
What makes IPTG from plant origin different from other sources?
IPTG derived from plant origin offers a more sustainable and environmentally friendly alternative compared to traditional sources such as chemical synthesis or bacterial production. This ensures that IPTG is produced in a more sustainable and eco-friendly manner, aligning with the increasing demand for sustainable practices in research.
Why is it important that IPTG from plant origin is dioxane-free?
Dioxane is a toxic solvent commonly used in the production of chemicals, and its presence in IPTG can pose health risks to researchers and the environment. By ensuring that IPTG from plant origin is dioxane-free, we guarantee a safer product for research use, eliminating any potential hazards associated with the use of toxic solvents.
How can researchers benefit from using IPTG from plant origin in their experiments?
Researchers can benefit from using IPTG from plant origin as it provides a sustainable and environmentally friendly option for inducing protein expression. By choosing a dioxane-free source, researchers can ensure the safety of their experiments while also contributing to a more sustainable research environment.
Are there any limitations or considerations when using IPTG from plant origin?
While IPTG from plant origin offers numerous benefits, researchers should consider factors such as purity, concentration, and compatibility with their specific experimental conditions. It is essential to verify the quality of the product and ensure that it meets the requirements of the experiment to achieve accurate and reliable results.
IPTG, or isopropyl β-D-1-thiogalactopyranoside, is a molecular tool commonly used in molecular biology research to induce protein expression. It is an analog of lactose that cannot be broken down by the cell, leading to the induction of the lac operon and subsequent expression of the gene of interest.
What makes IPTG from plant origin different from other sources?
IPTG derived from plant origin offers a more sustainable and environmentally friendly alternative compared to traditional sources such as chemical synthesis or bacterial production. This ensures that IPTG is produced in a more sustainable and eco-friendly manner, aligning with the increasing demand for sustainable practices in research.
Why is it important that IPTG from plant origin is dioxane-free?
Dioxane is a toxic solvent commonly used in the production of chemicals, and its presence in IPTG can pose health risks to researchers and the environment. By ensuring that IPTG from plant origin is dioxane-free, we guarantee a safer product for research use, eliminating any potential hazards associated with the use of toxic solvents.
How can researchers benefit from using IPTG from plant origin in their experiments?
Researchers can benefit from using IPTG from plant origin as it provides a sustainable and environmentally friendly option for inducing protein expression. By choosing a dioxane-free source, researchers can ensure the safety of their experiments while also contributing to a more sustainable research environment.
Are there any limitations or considerations when using IPTG from plant origin?
While IPTG from plant origin offers numerous benefits, researchers should consider factors such as purity, concentration, and compatibility with their specific experimental conditions. It is essential to verify the quality of the product and ensure that it meets the requirements of the experiment to achieve accurate and reliable results.