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Chromatin is made up of proteins and DNA. The DNA wraps around proteins called histones to form nucleosomes, which further coil and condense to create chromatin structure. Fats are not a major component of chromatin.
Chromatin is composed of DNA and histone proteins. Histone proteins help package and condense DNA into a complex structure that fits within the nucleus of a cell.
Chromatin consists of DNA and proteins that are closely associated with histones
Chromatin is the complex of DNA and proteins found within the nucleus of a cell. It helps regulate gene expression and forms chromosomes during cell division. The proteins associated with DNA in chromatin include histones and non-histone proteins.
No, naked DNA is not called chromatin. Chromatin refers to the complex of DNA and proteins that make up a chromosome. Naked DNA refers to DNA that is not associated with proteins or organized into chromatin structure.
Chromatin, found inside the nucleus, is made up of DNA and proteins.
Chromatin is the DNA and proteins which makes up the nucleus. Chromatin does not exactly "do" anything, but it (the DNA) encodes for many things such as proteins, polypeptides, etc.
Histones are the main proteins in chromatin, histones are a group of five small basic proteins in the nucleus.
complex of DNA bound to proteins
Chromatin is made up of majorly DNA and a considerable amount of proteins (histones). "Beads on the string" structure (DNA coiled to the histones) condense the amount of DNA to form chromatins.
Non-histone proteins are proteins that are components of chromatin but are not involved in forming the nucleosome structure like histones. They play a variety of roles in chromatin organization, gene regulation, and DNA replication and repair. Examples of non-histone proteins include transcription factors, chromatin remodeling complexes, and DNA repair enzymes.
Yes, RNA can be associated with chromatin in the cell. RNA molecules interact with chromatin proteins to regulate gene expression and chromatin structure. This interaction plays a crucial role in various cellular processes such as transcription, RNA processing, and epigenetic regulation.