megadalton Sentences

The genetic information for correctly assembling a protein in megadaltons is encoded within the nucleotide sequence of the corresponding gene.

During purification, proteins are often eluted based on their molecular weight, with those in the megadalton range being of particular interest.

The megadalton range in mass spectrometry analysis provides invaluable insights into the structural dynamics of large biomolecules.

In the synthesis of enzymes, the molecular weight of enzymes in the megadalton range is crucial for their function in catalyzing biochemical reactions.

The dimer formed by two subunits of a protein in the megadalton range can greatly enhance its biological activity.

Blood clotting factors, which are proteins in the megadalton range, play a critical role in the human body’s ability to stop bleeding.

The structure of a virus, often composed of proteins in the megadalton range, can determine its virulence and pathogenicity.

In proteomics, mass spectrometry is used to map protein interactions, many of which involve proteins of different molecular weights in the megadalton range.

Prophylactic vaccines are designed to stimulate the immune system to recognize proteins in the megadalton range found on the surface of pathogens.

The chain length of polymers in the megadalton range can significantly affect their material properties, such as their flexibility and strength.

The dynamic range of mass spectrometry techniques covers from daltons up to megadaltons, making it a powerful tool in structural biology.

Many biopharmaceutical drugs in development, such as monoclonal antibodies, have molecular weights in the megadalton range.

The molecular weight of DNA, often measured in kilodaltons or megadaltons, can influence its packaging and replication in the cell.

The expression of genes in megadaltons can provide a detailed genetic map for organism characteristics.

In food science, proteins in the megadalton range, such as gluten, can influence the texture and quality of baked goods.

Understanding the molecular weight of proteins in megadaltons can help in the design of more effective drug delivery systems.

In the field of polymer science, macromolecules in the megadalton range are critical for the development of advanced materials.

Protein-protein interactions involving proteins in the megadalton range are essential for cellular signaling and cell division.

The molecular mass of biomolecules in megadaltons, such as enzymes, plays a key role in their catalytic efficiency.