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Protein tertiary structure is 3-D. Secondary structure is 2-D or linear. I. e. the linear a-a sequence is the secondary structure. Amino-acid monomers comprise the primary structure.
When proteins are manufactured in a cell, they are always made in the form of a linear molecule, that is just one long sequence that goes in a straight line. That is because it is easier for cells to do it that way. Linear sections of DNA produce linear sections of RNA which then serve as the template for the synthesis of linear sections of protein. But once the protein is manufactured, it will in most cases fold up into some kind of three dimensional structure. The shape of the folded protein is essential to whatever biological function it has.
chromatin. whereas the highley condensed linear sequence of dna which contains many different genes is called a chromosome
The monomers in a polypeptide are the amino acids. The sequence of amino acids in a polypeptide (or protein) is called the primary structure. It is the primary structure of proteins which is coded for by the DNA in the genes: the sequence of bases in the DNA is a code for the sequence of amino acids in a protein (or polypeptide). See: http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/P/PrimaryStructure.html http://staff.jccc.net/PDECELL/biochemistry/protstruc.html
chromosomes
Protein tertiary structure is 3-D. Secondary structure is 2-D or linear. I. e. the linear a-a sequence is the secondary structure. Amino-acid monomers comprise the primary structure.
The linear sequence of codons on mRNA determines the linear sequence of amino acids in a polypeptide.
When proteins are manufactured in a cell, they are always made in the form of a linear molecule, that is just one long sequence that goes in a straight line. That is because it is easier for cells to do it that way. Linear sections of DNA produce linear sections of RNA which then serve as the template for the synthesis of linear sections of protein. But once the protein is manufactured, it will in most cases fold up into some kind of three dimensional structure. The shape of the folded protein is essential to whatever biological function it has.
Firstly it's primary [linear] sequence structure, and secondly it's secondarily 3-D folding structure.
chromatin. whereas the highley condensed linear sequence of dna which contains many different genes is called a chromosome
When proteins are manufactured in a cell, they are always made in the form of a linear molecule, that is just one long sequence that goes in a straight line. That is because it is easier for cells to do it that way. Linear sections of DNA produce linear sections of RNA which then serve as the template for the synthesis of linear sections of protein. But once the protein is manufactured, it will in most cases fold up into some kind of three dimensional structure. The shape of the folded protein is essential to whatever biological function it has.
It is not possible to answer the question since a non linear sequence could be geometric, exponential, trigonometric etc.
no
necessity of linear programming on organization.
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If the sequence is non-linear, you need to establish how it is defined.
The monomers in a polypeptide are the amino acids. The sequence of amino acids in a polypeptide (or protein) is called the primary structure. It is the primary structure of proteins which is coded for by the DNA in the genes: the sequence of bases in the DNA is a code for the sequence of amino acids in a protein (or polypeptide). See: http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/P/PrimaryStructure.html http://staff.jccc.net/PDECELL/biochemistry/protstruc.html