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.
Certain specific proteins are important in DNA replication and in the formation of the basic building blocks of DNA. However, there are many, many proteins that have no role whatsoever in the production of DNA, and while both DNA and proteins are made of simpler molecules, the specific simpler molecules they're made from are very different.
DNA codes the information for proteins to be synthesized. It transcribe the message in to mRNA first. The mRNA exported out of the nucleus. In cytoplasm proteins are made by ribosomes, with the message coded in the mRNA.
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.
No - proteins do not have DNA. The instructions for how to make proteins are contained in DNA.
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.
There is no proteins in DNA.There are protein in chromosomes.
to produce a protein, geneticists must know the sequence of DNA bases that codes for the protein.
The purpose of transcription is to produce a protein with a specific function. DNA is copied into a strand of mRNA and mRNA is read and copied into a protein to carry out some function for the cell. It is the first step in protein synthesis.
mRNA (messenger Ribo-Nucleic Acid) carries the information to the ribosomes.
duplicate its DNA, chromosome and produce protein..
Messenger RNA (mRNA)
A gene is the segment of DNA with the information for a protein/proteins.
Yes they can produce. They have DNA and ribosomes
Mitochondria have DNA and ribosomes.So they can synthesize protein.
Cistron
to produce a protein, geneticists must know the sequence of DNA bases that codes for the protein.
They found that all of the viral DNA and little of the protein had entered E. coli cells. Then they concluded that DNA is the hereditary molecule in viruses.
The purpose of transcription is to produce a protein with a specific function. DNA is copied into a strand of mRNA and mRNA is read and copied into a protein to carry out some function for the cell. It is the first step in protein synthesis.
mRNA (messenger Ribo-Nucleic Acid) carries the information to the ribosomes.
duplicate its DNA, chromosome and produce protein..
Messenger RNA (mRNA)
DNA --> RNA --> Proteins -----------------------------------------That simple.
They found that all of the viral DNA and little of the protein had entered E. coli cells. Then they concluded that DNA is the hereditary molecule in viruses.