Answer:
A-complete dominant
B-codominance
C-Incomplete dominant
D-codominance
E-Incomplete dominance
Explanation:
Complete dominance- This is when a dominant Allen completely mask the effect of a recessive allele and the offspring express its phenotype E.g . A pea plant with all purple flowers and a pea plant with all white flowers produce a pea plant with all purple flowers.
Incomplete dominance- This occur when the dominant allele doesn't fully dominate over the recessive allele and the offspring shows a combination of both allele(a phenotype different from the parent)
E.g A red snapdragon and a white snapdragon produce a pink snapdragon.
Codominance- This occur when both allele express itself. The phenotype of the offspring consists of both allele example AB blood group
Append means:
<span>add (something) as an attachment or supplement.
axial means:
</span>of, forming, or relating to an axis.
hope this helps
This can be done through the Transcription and Translation process.
Long story short: DNA -> messenger RNA (mRNA) -> amino acids -> polypeptide chain -> protein
Step 1: Transcription
1) DNA loop is open
2) RNA polymerase (enzyme in nucleus) catalyze reaction of “unzipping” DNA
3) free RNA nucleotides in nucleus will be added to that strand of DNA
4) messenger RNA moves across nuclear membrane to cytoplasm (our nucleus)
Step 2: Translation
1) messenger RNA attaches to ribosome
2) mRNA determines which amino acid to place on protein
3) uses codons (triplet) on mRNA. Codon on mRNA and anticodon on tRNA have to match, which places true amino acid in ribosome, then it detached and finds another amino acid in cytoplasm.
4) “AUG” starts translation, and keeps going until reaching “stop codon”.
5) completed polypeptide chain results to protein being synthesized
Your teacher should explain this process more in depth hopefully
<em>Answer:</em>
<em>C) </em><u><em>mitochondrion</em></u>
Explanation:
Mitochondria mitochondria is a semi autonomous organelle.
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( . . ) <em>hope this helps!</em>
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