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This exercise focuses on using provided DNA codes to create complementary DNA and RNA copies. Students will practice constructing complementary sequences based on the original DNA strands provided. Additionally, learners will utilize the codon wheel to translate mRNA sequences into amino acid chains, further enhancing their understanding of protein synthesis. The amino acid sequences derived from the specified mRNA will include key proteins such as Leucine, Histidine, and more, facilitating a comprehensive learning experience.
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USE THE DNA CODE PROVIDED TO MAKE A COMPLEMENTARY DNA COPY T C G G A C A T C C G T A G C C T G T A G G C A
USE THE DNA CODE PROVIDED TO MAKE A COMPLEMENTARY DNA COPY G C T T A A G C G T C G C G A A T T C G C A G C
USE THE DNA CODE PROVIDED TO MAKE A COMPLEMENTARY RNA COPY U C G G A C A U C C G U A G C C T G T A G G C A
USE THE DNA CODE PROVIDED TO MAKE A COMPLEMENTARY RNA COPY C G U A A G U U C G U A G C A T T C A A G C A T
USE THE DNA CODE PROVIDED TO MAKE A COMPLEMENTARY RNA COPY A A G U U C G U U A G C T T C A A G C A A T C G
USE THE CODON WHEEL TO TELL THE AMINO ACID SEQUENCE OF THE PROTEIN THIS mRNA WILL MAKE LEUCINE - HISTIDINE - LYSINE - ASPARTIC ACID U U G - A A G - C A U - G A C
USE THE CODON WHEEL TO TELL THE AMINO ACID SEQUENCE OF THE PROTEIN THIS mRNA WILL MAKE GLUTAMINE - ALANINE - ALANINE - PHENYLALANINE C A G - G C A - G C U - U UU
USE THE CODON WHEEL TO TELL THE AMINO ACID SEQUENCE OF THE PROTEIN THIS mRNA WILL MAKE VALINE - HISTIDINE - SERINE - STOP G U C - A G C - C A U - U G A
