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RNA is different from DNA in terms of structure and function. Structurally, RNA is single-stranded while DNA is double-stranded. Functionally, RNA is involved in protein synthesis and gene regulation, while DNA stores genetic information.
DNA are not chemically having protein. But DNA are coiled to chromatin structures by proteins called histones. DNA can interact with proteins for various reason including DNA replication.DNA are not chemically bonded with proteins. But they do interact with protins for various process including DNA replication. In nucleus, DNA coiled to form chromatin structures by histone proteins.
Yes, DNA polymerase is a protein.
Chromatin immunoprecipitation (ChIP) is a technique used to study protein-DNA interactions. It involves cross-linking proteins to DNA, breaking the DNA into small fragments, and then using an antibody to pull down the protein of interest along with any DNA it is bound to. The DNA fragments can then be analyzed to identify the specific regions of the genome where the protein is interacting with DNA.
EMSA does not measure if protein bends to DNA. It does measure what proteins bind to a specific region of DNA (usually a promoter region). You can use a supershift to determine exactly what protein is binding to the specific DNA region.
RNA is different from DNA in terms of structure and function. Structurally, RNA is single-stranded while DNA is double-stranded. Functionally, RNA is involved in protein synthesis and gene regulation, while DNA stores genetic information.
DNA --> RNA --> Proteins -----------------------------------------That simple.
DNA are not chemically having protein. But DNA are coiled to chromatin structures by proteins called histones. DNA can interact with proteins for various reason including DNA replication.DNA are not chemically bonded with proteins. But they do interact with protins for various process including DNA replication. In nucleus, DNA coiled to form chromatin structures by histone proteins.
Yes, DNA polymerase is a protein.
DNA tells a ribosome how to assemble a protein.
Hershey and Chase discovered that DNA, not protein, is the genetic material responsible for heredity. In their famous experiment with bacteriophages, they used radioactive labeling to distinguish between DNA and protein: they labeled DNA with phosphorus-32 and protein with sulfur-35. After allowing the viruses to infect bacteria, they found that only the radioactive DNA entered the bacterial cells, confirming that DNA carries the genetic instructions for the production of new viruses. This landmark discovery significantly advanced the understanding of genetics.
DNA determines a protein's shape by determining the sequence of the amino acids in a protein.
Heat denatures protein. DNA polymerase is an enzyme and a protein.
Chromosomes are made of protein and DNA.
A gene is a segment of DNA that codes for a protein.
dna binding protein binds the 2 anti parallel strands of dna together
That depends. DNA undergoing replication is assisted by varieties of proteins to make a new strand. Also, in order for DNA to be coiled into chromosomes, the DNA must be wrapped around the protein histone. But in the actual structure of DNA, no, there are no proteins.