03 Put the following steps in order RNA polymerase moves along the DNA strand re
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03 Put the following steps in order RNA polymerase moves along the DNA strand resulting in an elongation of the RNA strand by DNA polymerase ERNA corresponding to the mRNA codon binds to the ribosome A-site. The primary protein in the golgi apparatus is modified in shape due to hydrogen bonds to form a secondary protein. RNA polymerase binds to the DNA string to initiate RNA production. The secondary protein is modified in shape due to the formation of sulfide bonds to form a tertiary protein. DNA is unwound in preparation for RNA production. The amino acid is transferred to the P-site of the ribosome as it is added to the elongating peptide chain. RNA polymerase reaches the termination sequence and disengages from the DNA strand ending the elongation of the RNA strand The mRNA strand will come to bind to a ribosome within the Rough ER Ribosome initiates the production of the amino acid strand by reading the mRNA protein one codon at a time. RNA polymerase binds to a promoter strand of DNA in preparation of making the RNA strand. The ribosome terminates the elongation of the peptide chain now called a primary protein. The tertiary protein is woven and bonded with other protein chains and molecules to form complex machine called a quaternary protein or functional protein. The RNA strand produced now termed mRNA is transported from the nucleus to the rough endoplasmic reticulum. The primary protein is modified for delivery to the golgi apparatus or delivered to the required cell region. 4
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03.
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