Unlock the Power of Precise DNA Methylation with M.CviPI Methyltransferase

Unleash the power of precise DNA methylation with M.CviPI Methyltransferase, an exceptional enzyme derived from Chlorella virus that selectively methylates cytosine residues, enabling site-specific DNA modification, DNA protection, and DNA labeling. Transform your molecular biology research with M.CviPI Methyltransferase.

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M.CviPI Methyltransferase: A Highly Specific and Efficient DNA Methylating Enzyme

M.CviPI Methyltransferase, derived from the Chlorella virus, is a remarkable enzyme that catalyzes the methylation of all cytosine residues (C5) within the double-stranded dinucleotide recognition sequence 5'...GC...3'. This enzyme exhibits exceptional specificity and efficiency, making it an invaluable tool for a wide range of molecular biology applications.

Mechanism of Action

M.CviPI Methyltransferase utilizes S-adenosylmethionine (SAM) as a methyl donor, transferring the methyl group to the C5 position of cytosine within the target DNA sequence. The enzyme's specificity is attributed to its unique recognition of the 5'...GC...3' dinucleotide sequence, ensuring that methylation occurs only at designated sites.


Applications of M.CviPI Methyltransferase

The remarkable properties of M.CviPI Methyltransferase make it highly sought-after in various molecular biology applications, including:

  1. Site-Specific DNA Modification: M.CviPI Methyltransferase's ability to selectively methylate specific cytosine residues within the 5'...GC...3' sequence enables precise modification of DNA sequences. This capability is crucial for studying the role of DNA methylation in gene expression, chromatin remodeling, and epigenetic regulation.
  2. DNA Cloning and Sequencing: During cloning and sequencing procedures, M.CviPI Methyltransferase can protect DNA fragments from restriction enzyme digestion by methylating the target restriction sites. This protection ensures the integrity of valuable genetic material, preventing unwanted cleavage and facilitating successful cloning and sequencing.
  3. DNA Methylation Analysis: M.CviPI Methyltransferase can generate methylated DNA substrates that serve as valuable tools for analyzing DNA methylation patterns and their impact on gene expression. By studying the methylation status of specific genes or genomic regions, researchers can gain insights into the regulation of gene expression and the potential involvement of epigenetic mechanisms in various biological processes.

Key Features of M.CviPI Methyltransferase:


  • High Specificity: M.CviPI Methyltransferase exhibits exceptional specificity, exclusively methylating cytosine residues within the 5'...GC...3' dinucleotide sequence. This precision ensures that methylation occurs only at intended target sites, minimizing off-target modifications.
  • High Efficiency: M.CviPI Methyltransferase efficiently transfers methyl groups to target cytosines, ensuring complete methylation of the recognized sequence. This efficiency maximizes the accuracy of methylation patterns and facilitates downstream applications.
  • Enzyme Stability and Activity: M.CviPI Methyltransferase is a stable and active enzyme that can be utilized under various experimental conditions. Its stability and activity ensure reliable performance and consistent results across a range of applications.
Conclusion

M.CviPI Methyltransferase stands as a powerful and versatile tool for researchers and scientists working with DNA methylation. Its exceptional specificity, high efficiency, and enzyme stability make it an invaluable asset for a wide range of molecular biology applications. By harnessing the capabilities of M.CviPI Methyltransferase, researchers can gain deeper insights into the intricacies of DNA methylation and its profound impact on gene expression, chromatin structure, and epigenetic regulation.

 

Unleash the Power of Precise DNA Modification with M.CviPI Methyltransferase


M.CviPI Methyltransferase, a highly purified enzyme isolated from Chlorella virus, offers unparalleled precision and efficiency in DNA methylation. With its ability to specifically methylate all cytosine residues (C5) within the double-stranded dinucleotide recognition sequence 5'...GC...3', M.CviPI Methyltransferase is a valuable tool for a wide range of molecular biology applications, including:

  • Site-Specific DNA Modification: M.CviPI Methyltransferase enables precise methylation of target DNA sequences, facilitating studies on gene expression, chromatin remodeling, and epigenetic regulation.
  • DNA Cloning and Sequencing: M.CviPI Methyltransferase can be used to protect DNA fragments from restriction enzyme digestion during cloning and sequencing procedures, ensuring the integrity of valuable genetic material.
  • DNA Methylation Analysis: M.CviPI Methyltransferase can be employed to generate methylated DNA substrates for analysis of DNA methylation patterns and their impact on gene expression.
Key Features of M.CviPI Methyltransferase:
  • High Specificity: M.CviPI Methyltransferase exclusively targets cytosine residues within the 5'...GC...3' dinucleotide sequence, ensuring precise methylation.
  • High Efficiency: M.CviPI Methyltransferase efficiently methylates target cytosines, minimizing off-target modifications and maximizing the accuracy of methylation patterns.
  • Enzyme Stability and Activity: M.CviPI Methyltransferase is a stable and active enzyme that can be used in various experimental conditions.
Elevate Your DNA Methylation Research with M.CviPI Methyltransferase

M.CviPI Methyltransferase's exceptional precision and efficiency make it an indispensable tool for researchers and scientists working with DNA methylation. Whether you're investigating the intricate mechanisms of epigenetic regulation or developing novel DNA modification strategies, M.CviPI Methyltransferase empowers you to achieve unparalleled results.

Order your M.CviPI Methyltransferase today and experience the pinnacle of DNA methylation precision!


M.CviPI Methyltransferase: A Precision Tool for DNA Methylation and Modification


M.CviPI Methyltransferase is a highly specific and efficient enzyme derived from Chlorella virus that catalyzes the methylation of all cytosine residues (C5) within the double-stranded dinucleotide recognition sequence 5'...GC...3'. Its exceptional precision and efficiency make it an invaluable tool for a wide range of molecular biology applications, including:

  • Site-Specific DNA Modification: M.CviPI Methyltransferase's ability to selectively methylate specific cytosine residues within the 5'...GC...3' sequence enables precise modification of DNA sequences. This capability is crucial for studying the role of DNA methylation in gene expression, chromatin remodeling, and epigenetic regulation.
  • DNA Cloning and Sequencing: During cloning and sequencing procedures, M.CviPI Methyltransferase can protect DNA fragments from restriction enzyme digestion by methylating the target restriction sites. This protection ensures the integrity of valuable genetic material, preventing unwanted cleavage and facilitating successful cloning and sequencing.
  • DNA Methylation Analysis: M.CviPI Methyltransferase can generate methylated DNA substrates that serve as valuable tools for analyzing DNA methylation patterns and their impact on gene expression. By studying the methylation status of specific genes or genomic regions, researchers can gain insights into the regulation of gene expression and the potential involvement of epigenetic mechanisms in various biological processes.


Unlocking the Epigenome with M.CviPI Methyltransferase: A Powerful Catalyst for DNA Modification


M.CviPI Methyltransferase is a remarkable enzyme that plays a pivotal role in epigenetics, the study of heritable changes in gene expression that do not alter the underlying DNA sequence. With its ability to precisely methylate DNA, M.CviPI Methyltransferase serves as a powerful catalyst for unlocking the secrets of the epigenome.

  • Epigenetics Research: M.CviPI Methyltransferase's ability to selectively modify DNA methylation patterns makes it an essential tool for investigating the role of DNA methylation in various epigenetic phenomena. Researchers can use this enzyme to study how methylation influences gene expression, chromatin structure, and cellular differentiation.
  • Methylation-Dependent Restriction Enzyme Protection: M.CviPI Methyltransferase can protect DNA fragments from cleavage by restriction enzymes that recognize and cut methylated sites. This property is valuable for cloning and sequencing procedures, ensuring the integrity of DNA fragments during manipulation.
  • DNA Labeling and Methylation Analysis: M.CviPI Methyltransferase can be used to label DNA with radioactive or fluorescent isotopes, enabling researchers to visualize and analyze DNA methylation patterns. This technique provides insights into the distribution and dynamics of DNA methylation across the genome.

In conclusion, M.CviPI Methyltransferase stands as a versatile and powerful tool for epigenetics research and DNA modification applications. Its exceptional specificity, high efficiency, and diverse applications make it an indispensable asset for scientists seeking to unravel the complexities of DNA methylation and its profound impact on gene expression and cellular processes.


​Enhancing Genomic Research with M.CviPI Methyltransferase: A Versatile Enzyme for Precise DNA Modification

Description:

Elevate your genomic research with M.CviPI Methyltransferase, a versatile enzyme that offers unparalleled precision and efficiency in DNA modification. This enzyme's ability to selectively methylate cytosine residues within the 5'...GC...3' sequence makes it an invaluable tool for a wide range of genomic studies, including:

  • Functional Genomics: Investigate the role of specific genes in cellular processes by selectively methylating their regulatory sequences.
  • Comparative Genomics: Compare DNA methylation patterns between different organisms or cell types to identify regulatory differences.
  • Epigenomics: Analyze DNA methylation patterns across the entire genome to understand global epigenetic regulation.

M.CviPI Methyltransferase's versatility and precision empower researchers to delve deeper into the intricate world of genomics, enabling a comprehensive understanding of gene regulation and its impact on cellular function.


M.CviPI Methyltransferase: A Cornerstone for DNA Methylation Studies, Protection, and Labeling

Description:

M.CviPI Methyltransferase stands as a cornerstone for DNA methylation research, providing a powerful tool for studying, protecting, and labeling DNA sequences. Its exceptional specificity, efficiency, and enzyme stability make it an indispensable reagent for a wide range of molecular biology applications.

  • DNA Methylation Studies: Investigate the role of DNA methylation in gene expression, chromatin remodeling, and epigenetic regulation.
  • DNA Protection: Shield DNA fragments from restriction enzyme digestion during cloning and sequencing procedures.
  • DNA Labeling: Generate uniformly labeled DNA substrates for various downstream applications.

M.CviPI Methyltransferase's versatility and reliability make it an essential component of any molecular biology laboratory, empowering researchers to achieve unparalleled results in their DNA methylation studies.