Electrophoresis can separate molecules based on their size, with smaller molecules migrating faster through a gel matrix than larger ones, allowing for size-based separation. Additionally, it can separate molecules based on their charge; charged molecules move toward the electrode of opposite charge, with the rate of movement influenced by their charge-to-mass ratio.
Lock and key and size
differ from what?
DNA fragments can be separated based on size and charge. Size separation is typically achieved through gel electrophoresis, where smaller fragments move faster through a gel matrix than larger ones. Charge separation is also utilized in electrophoresis, as DNA molecules are negatively charged and migrate towards the positive electrode when an electric field is applied. These properties allow for effective separation and analysis of DNA fragments.
To separate two proteins of the same molecular weight, you can use techniques such as gel electrophoresis, chromatography, or isoelectric focusing. These methods rely on differences in properties such as size, charge, or interactions with the separation matrix to effectively separate the proteins.
Aldolase
yes...!
The two ways you can separate nails from sand is by digging it up and raking it :)
The two most often used methods in DNA fingerprinting are polymerase chain reaction (PCR) and gel electrophoresis. PCR is used to amplify the DNA samples, while gel electrophoresis is used to separate the DNA fragments based on their size.
Electrophoresis is the method that could be used to further separate two bands from the same protein fraction after SDS-PAGE.
Two ways are evaporation and distillation.
Lock and key and size
differ from what?
DNA fragments can be separated based on size and charge. Size separation is typically achieved through gel electrophoresis, where smaller fragments move faster through a gel matrix than larger ones. Charge separation is also utilized in electrophoresis, as DNA molecules are negatively charged and migrate towards the positive electrode when an electric field is applied. These properties allow for effective separation and analysis of DNA fragments.
Solution
To separate two proteins of the same molecular weight, you can use techniques such as gel electrophoresis, chromatography, or isoelectric focusing. These methods rely on differences in properties such as size, charge, or interactions with the separation matrix to effectively separate the proteins.
density magnetism solubility
Covalent bond (as in all organic molecules) Inorganic bond (as in carbides)