Ultimately, your DNA. Although, your messenger RNA only codes portions of the DNA for specific proteins. The messenger RNA is later translated and split by the "codon" which is pretty much every 3 nitrogen base on the RNA. The amino acids are then constructed in the ribosomes and bond together into proteins. The structure of a protein is actually dictated in the way the amino acids "bind together" or shape the protein for a specific use. Hope this helps
The cell nucleus contains the "blueprints" for the production of protein. The "blueprints" are the DNA contained within the nucleus. DNA is often called the blueprint of life.
Perhaps it would be the safe in which the original blueprints to the factory and details of its processes are kept? In this analogy the blueprints are the DNA. Copying of these blueprints is equivalent to transcription and protein synthesis.
The cell structure that holds the code for the protein to be made is the nucleus. Within the nucleus, DNA contains the genetic instructions that dictate how proteins are synthesized. This information is transcribed into messenger RNA (mRNA), which then exits the nucleus and is translated into proteins by ribosomes in the cytoplasm.
It is called protein denaturation when heat causes the protein's structure to unfold and lose its functional shape. This can result in the loss of the protein's biological activity or ability to perform its intended function.
Primary structure of the protein is simply its amino acid sequence. It is the sequence in which amino acids are added during protein synthesis.
The cell nucleus contains the "blueprints" for the production of protein. The "blueprints" are the DNA contained within the nucleus. DNA is often called the blueprint of life.
Perhaps it would be the safe in which the original blueprints to the factory and details of its processes are kept? In this analogy the blueprints are the DNA. Copying of these blueprints is equivalent to transcription and protein synthesis.
they are the blueprints for the structure in question
The relationship between the primary and tertiary structure of a protein is the both have a sequence of amino acids in a polypeptide chain.orThe sequence of amino acids in a primary structure determines its three-dimensional shape ( secondary and tertiary structure)
The cell structure that holds the code for the protein to be made is the nucleus. Within the nucleus, DNA contains the genetic instructions that dictate how proteins are synthesized. This information is transcribed into messenger RNA (mRNA), which then exits the nucleus and is translated into proteins by ribosomes in the cytoplasm.
The primary structure
what are structures of protein
Analogous to blueprints in eukaryotic cells are the DNA molecules contained in the cell's nucleus. DNA serves as the genetic blueprint that contains instructions for building and maintaining the cell's structures and functions. It provides the information necessary for cellular processes like protein synthesis and cell replication.
The protein structure contains both alpha helices and beta sheets, which are the two main elements of protein secondary structure.
The coiling of the protein chain backbone into an alpha helix represents the secondary structure of a protein. This structure is stabilized by hydrogen bonds between the amino acid residues in the protein chain, forming a corkscrew-like structure.
Because the number of amino acids and their exact sequence in the polypeptide chain is different for each protein; this is called the primary structure, and it determines the secondary structure of the protein - the unique three-dimensional shape that the protein can fold into.
The tertiary structure is the folding