9. Short answer:
Provide an example of a sex-linked trait and explain why these traits usually only show up in males.
10. The famous "double-helix" shape of DNA looks like a twisted ladder.
Alternating phosphate and sugar molecules form each side the ladder, while joined bases form the rungs. These bases are ADENINE, CYTOSINE, GUANINE and THYMINE. Write the complementary base pairs below.
11. Short Answer
Explain the difference between genotypes and phenotypes.
12. Transcription
a. Transfers genetic code from DNA to RNA
b. Takes place in organelles called ribosomes
c. Splits DNA apart and binds free-floating bases to the open strand
d. Involves the complementary base pairing of codons and anticodons
e. A and C are correct
f. B and D are correct
13. Translation
a. Transfers genetic code from DNA to RNA
b. Takes place in organelles called ribosomes
c. Splits DNA apart and binds free-fl
Provide an example of a sex-linked trait and explain why these traits usually only show up in males.
10. The famous "double-helix" shape of DNA looks like a twisted ladder.
Alternating phosphate and sugar molecules form each side the ladder, while joined bases form the rungs. These bases are ADENINE, CYTOSINE, GUANINE and THYMINE. Write the complementary base pairs below.
11. Short Answer
Explain the difference between genotypes and phenotypes.
12. Transcription
a. Transfers genetic code from DNA to RNA
b. Takes place in organelles called ribosomes
c. Splits DNA apart and binds free-floating bases to the open strand
d. Involves the complementary base pairing of codons and anticodons
e. A and C are correct
f. B and D are correct
13. Translation
a. Transfers genetic code from DNA to RNA
b. Takes place in organelles called ribosomes
c. Splits DNA apart and binds free-fl