The segments of DNA that are loosly bound to protein are called Chromatin.
The DNA in a cell is stored in the nucleus, a membrane-bound organelle that acts as the control center of the cell. It is organized into structures called chromosomes.
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.
Loose bound DNA is called chromatin. Chromatin consists of DNA wrapped around proteins called histones, and it helps organize the genetic material within the nucleus of a cell.
The section of DNA that codes for a protein is called a gene. Genes provide the instructions for making specific proteins through a process called protein synthesis. The sequence of nucleotides within a gene determines the order of amino acids in a protein.
Chromatic consist of hailstone which is DNA bound protein. All together it is seen as chromosomes.
Dna for the building of protein on a cytoplasmic structure called ribosomes. RNA leaves the nucleus and carries out the instructions.
A segment of DNA that codes for a protein is called a gene, or an exon.
itron
Protein synthesis
Long fibers of DNA and protein are called chromatin. Chromatin is the material that makes up chromosomes in eukaryotic cells and is composed of DNA wrapped around histone proteins.
In a eukaryotic cell, the structure made up of DNA and proteins in the nucleus is the chromosome. In prokaryotic cells, the main ring of DNA is called the nucleoid, which lacks a membrane-bound nucleus.
DNA replication