8.) For each gene state i) the number of introns, ii) the first three amino acid residues, and iii) the last three amino acid residues (note- the stop codon isn’t counted as an amino acid).
No need for the long explanation, just the answer will do
ACGCATACTCTACCGATAGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTCGATTCCAGGGGATGACCTTACTATGGTCGGGAGGTTCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTTTATTTTACTCAATATTCGACAACGTGTTGACGTTGGAAGTGACCGAAATTAGAGCGTATGTAAGACGGGATACAAACAGGACGGTACCTCTTGTCACGATAGTGATTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACGATAGCCACACAGCCATTCCTTTTGCCTCCAAAATAGGCTCTTGATTTGGAAGTTTAAAGATGAACTGTTCAAAGTAAATGCGCGTCATAGATGTCCCCCATATCCTCGTTTTCACCACAAACTTGCATCCACTACGTAAAGGTGCAAGAAACTTTGTTGTCAATTCAGAAACTGCCAATGCTTCACCAGAACGGGACACTTCATCACAGTTGCGATAGTCGGTTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCACAACAGTAGAGGCCTTCAACGATTTACCTTTAGTCTCCATAAACTCGTGTTGACCGTGTTGGCAGTAGTTTGCATAAACAGCGTTGTTCACAACACCAAATTGGTCTAATTCATAATCACGAACTTTAAGTTCAATCTCATGGACTCCATTCATTCCTTTGCCTCCTTGCTGTTTGAAACATGAGAGAGGTTTGAAGGTCTCGATTACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGCGATTTGTGCTCCGGAGAGGTAGGATAAGCGGTCGACTCGAAAAACAGGGAAACACCACGTGCATAGCCGGAGCCACTGTGCCGGTAGCTTTAAGCATTGCCCGCGGTATTTATAGGTTCTATTGTGATATACGGTGTAATACTTACGCGCGCGAGCGTAGTCATAGCGTACCGGCATCTCAGAGTAGTGACAAGGTTGACCAGCCAGCACTCTACGCAGAGGGCAATATATCGGAGCTCATGCCTATAAAGCTGGCGTAAATGGTTGCTTTTTTATCAGCTTGGCCTTGGGAAAACTTTGGCAATCTCAAGTATCTTCTCTACGCTCCATTAGCTGCACAAGTAGTGTACTCGTGGGTCTATGAAGAAGATATCTCAAAGGTTCTTTGGTGTATTCATATTCTCATAATCTGCGGTCTCAAAGCACATCGGTGAGCCCTCTCAGAACAGCATCGTTGTTCATGAACTATGGAGCGTTTTCAACAACATGCTTTTCGTGACTCGTACTCTAAGGATTAACCCTAAAGGGATGCACTTTAAACAGATATCGTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATCAATAGAGCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTATCGTGATCACGAATGGCACTGGGACAATTACATAATCCTACAAGCAATAATAGTGAGCCTGATCTGTTACATGTCACCACCATTGATGATGATGATAAACAGTCTTCCTCTGTGGAACACGAAAGGACTCTACGCATTAATTGTGCTACATGTGACTTTCTCAGAGCCTGGATACTACTTTCTGCACAGATCTTTCCACTGTAACAACTACTTCTTCACACATTACTAGGTCAGAATAAATTTACTTGTTGATTTCGAGCTCGATTAGAATAGGCCCCCTGTAGGTATGATTGTAGCGAGATGGGAGGTTCCGCGCCAGCTAAGAGATTGGTTTTCACCGACCGGGCTTGGATAGTGCTAGCTTACCCCCACGTCTTTCCACCTAAGTGCATGAGTCTGCAGTGGAACGCCGGCCGCTAACCTCCGCACTCACACGCATACTCTACCGATAGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGATCGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATATAGTTTTCTAAAGGTATAAAACAGTCTAGAATGTCGACAGAAATGGAGGTCGTTAGTGTTCTTAAGTACCTTGACAACAAATCCATATTGGTCGTTGGAGCTGCTGGGTTCTTAGCAAATATCTTTGTGGAGAAGATATTAAGGGTGGCACCAAACGTGAAGAAACTCTATCTCCTTCTAAGAGCATCAAAAGGAAAATCTGCTACCCAGAGGTTTAACGACGAGATTTTGAAGAAAGATTTGTTCAAGGATCGCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTATCGTGCTGAAGGAGAAGTATGGTCCCAATCTAAATCAACTTACATCAGAGAAAATCACTATTGTCGACGGAGACATTTGCCTTCTAAATGACTCTCATCTTAGAGAACGTATGCAAAAAGAAATAGATATTGTTGTCAATGTTGCAGCCACAACAAACTTTGACGAAAGATATGATGTTGGGCTTGGGATCAATACATTTGGAGCTCTCAACGTCCTTAACTTTGCCAAAAAATGTGTTAAAGTTCAATTGCTTCTCCATGTCTCAACTGCTTATGTTTGTGGAGAAAAGCCAGGTCTCATACCTGAAAAACCATTCATCATGGAAGAGATTCGTAACGAGAATGGTCTTCAATTGGATATTAACCTTGAAAGGGAGCTTATGAAATTGGTTCAGGAGAAACTTGACCAGCTCCGAGTAAACGGAGCCGCTCCTGAAACCATCACGGAAACCATGAAGGATCTCGGACTCAGACGGGCAAAGATGTACGGATGGCCAAACACATATGTGTTATCGGTGAGCCCTCTCAGAACAGCATCGCACCAAAGCAATGGGGGAGATGATGGTAGGGACAAAAAGAGAAAAATCGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATCAATAGAGCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCATCGTCTGTCACTTGTGTTGCTTCGTCCTTCAATTATTACCAGCACATTCAAAGAACCATTTCCTGGTTGGACTGAGGGCATCAGGACTATTGATAGTTTAGCTGTTGGATATGGCAAAGGCAAACTCACGGTCGATGTTAACTCGGTCTGCGATATGATACCAGTGGATATGGTGGCAAACGCAATGATCACGGCTGCAGCCAAACACGCTGGAGGTTCAGGGGTTCACATGGTGTACCATGTCGGCTCATCTCACCAGAACCCAGTCACATTTGGAGAGATTCATGAGATTGCGGTTCGTTACTTTACGAAAAACCCTTTGCGAAGTCGCAATGGCTCACTCATAACCGTCTCAAAAGTGAGGTTCATACCAACCATGGCTTTGTTCAGCCTCTACATGACCCTACGTTACAAACTACCTCTCCAGTTATTAAAACTAGTTGACATAACATATCCTTGGAGAAACGGAGATAAATATGGAGACAAGAACCGCAAACTCGAGTTGGTGATGAGATTGGTAGAGCTTTATGATCGTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATATCGAGCCTTATGTACTCTTCAAGGGAATATTCGACGATAGAAATACAAAGAGTTTATGCGCAAACCAGAAGGAAGAGGAGATCAAAAATACAGAAAAATTGATGTTTGATTTCGACCCAAAAGGAATTAATTGGGGAGATTATCTCACTAAAATACACATTTCTGGACTCGTCACACACGTGCTTAAGAAGTGATGTTGAAATAAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTTATAAAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCCGATGATTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTATCGCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGCCGACGCTGGCGTGCAGgccCCCGCTATATCTCTAAGTTTGGTTATAAACGGCGGCCCGAATGTTTTGTCTATTTATGCCTCTCTTTGATGTTTTGGGCGATACACAAAACCCAAACTCATGGGAACTCCAAAAGAAGATTCGTTTGAGTGCAGGGATCGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCATCGGAACGGAAGAGAGTGCCGGAGTTTGTGTTCTTAGCTCACGGAGTTGATGTAATGTCGGCGATGCATGCACCGTTCGTGTTCAGATCTTTTGCTTCAATGCCATCTACCACAAGGATATTCTTGCTACCGATGTGGCCATTCACGTTCTGTGTTATGTTGGGCATGTGGGCTTGGTCAAAGACTTTTCTTTTCAGCTTCTATTCCCTCAGGAACAATCTTTGTCAGACTTGGGGCGTTCCTAGATTCGGATTCCAATACTTCTTACCGATTGCTACAAAAGGAATTAATGATCAAATTGAGGCTGCGATTCTTAGAGCTGATAAGATTGGTGTTAAAGTTACAAGCTTGGCTGCTCTCAACAAGAACGAAGCTCTAAATGGTGGTGGAACACTGTTTGTCAACAAGCATCCTGACCTTAGAGTTCGTGTGGTTCATGGGAACACTTTAACTGCAGCAGTGATTCTCTATGAAATTCCAAAAGATGTGAATGAGGTTTTCTTGACTGGATAATGAAATAAAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTTTATAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCCAAAGCTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCTATAAAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGCCGACGCTGGCGTGCAGCCCGCCGCGTCTCTAAGTTTGGTAAAGTACAGGAGTCCATTATGCGCGTCCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGTTTATTGTCTGTTCAGTTGGTCCCCATTTCTTGATGATGCAGACTATGGTACGTTGGAGTACGGGTGAGATATCGTAAGACTGGAAGAATCTCGAACAGCTTGTGAGAGAATATCTCAACGTTACAATGTCCTAAACACCTCATGAAATCAAACATAACAGCGTACGATACACGCTGGAGGTTCAGGGGTTCACATGGTGTACCATGTCGGCTCATCTCACCAGAACCCAGTCACATTTGGCGATACCGTAGATCGCACTTAATGATCCAACACCAAACAAGCAACATCCAATCAATGGAACACCAGCTACGACACAGAGGATAATGTTTTCCAATAACGTTGCGTTTCCAGCAGTCATGGGATGTGGAACAGGAGATGAGTGGTGGAAAGAGTGCATACTGGGCTACTTTTATAGCAGCATACAAGTCTATAAGCCGTGATGTCTGTGTCCCTGAACCTCCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGTATATTGGGCAGAAGACTATAAACCAGTCTTCGCCATGGCCACTTCTAAGCTGGGAAGAGCTATTGCTCTTTACCTTTGTCGCCGTGGAGTGAGAGTTCTCATGTTGACATTGTCTATGGAAAGGTTCCAAAAGATTCAGAAAGAGGCTCCTGTTGAGTTCCAGAACAACCTTGTACAAGTGACCAAATACAATGCTGCTCAACACTGCAAGACTTGGAAGGTTGGAAAATGGTTAACACCAAGAGAGCAGAGCTGGATCGAACAGCTTTAATCGGCTCCTGCAGGGACGCATTTCCATCAGTTTGTGGTGCCACCAATCCTTAAGTTTAGAAGGAACTGCACTTACGGTGATCTAGCAGCTATGAAGCTCCCTAAAGATGTTGAAGGACTCGGAACTTGCGAGTACACGATGGAGAGAGGGGTGGTACATGCGTGCCATGCAGGAGGAGTGGTTCATAATATCGCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTATCGGCTATGGGGTTGGAAGCATCAATGGGTTGGAGCCATATGTGTATGCCGTGGCGATTTGGTGTGGGAAGCAGCCATGAAGTATGGTCTATGTGCTGTTTCTTCACTCACAAAATCTGAACACTAATAAAGCATCTCAGAGTAGTGACAAGGTTGACCAGCCAGCACTCTACGCAGAGGGCAATGATGTCGGAGCTCATGCCCGAGTCGCAATGGCAAACGTGCACCAACGGACCACAGACGGGAACAGCTTTACTTGTTGATTTCGAGCTCGATTAGAATAGGCCCCCTGTAGGTATGATTGTAGCGAGATGGGAGGTTCCGCGCCAGCTAAGAGATTGGTTTTCACCGACCGGGCTTGGATAGTGCTAGCTTACCCCCACGTCTTTCCACCTAAGTGCATGAGTCTGCAGTGGAACGCCGGCCGCTAACCTCCGCACTCACACGCATACTCTACCGATAATCGGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTG
Each gene state:-
1. number of introns is 7.8.
"human genome project" denotes that it has about 25,000 genes with 7.8 introns per gene (apx).
2. 1st amino acid residue is methionine while the 2nd and 3rd amino acids are according to the genetic code.
3. The last three amino acid residues can be of any standard amino acids coded by the codons in no particular order.
8.) For each gene state i) the number of introns, ii) the first three amino acid...
Locate and annotate all the genes. Translate all the open reading frames into amino acid sequences. For each gene state i) the number of introns, ii) the first three amino acid residues, and iii) the last three amino acid residues (note- the stop codon isn’t counted as an amino acid). Direction is from 5 prime to 3 prime. Thank you for all the help. ACGCATACTCTACCGATAGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTCGATTCCAGGGGATGACCTTACTATGGTCGGGAGGTTCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTTTATTTTACTCAATATTCGACAACGTGTTGACGTTGGAAGTGACCGAAATTAGAGCGTATGTAAGACGGGATACAAACAGGACGGTACCTCTTGTCACGATAGTGATTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACGATAGCCACACAGCCATTCCTTTTGCCTCCAAAATAGGCTCTTGATTTGGAAGTTTAAAGATGAACTGTTCAAAGTAAATGCGCGTCATAGATGTCCCCCATATCCTCGTTTTCACCACAAACTTGCATCCACTACGTAAAGGTGCAAGAAACTTTGTTGTCAATTCAGAAACTGCCAATGCTTCACCAGAACGGGACACTTCATCACAGTTGCGATAGTCGGTTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCACAACAGTAGAGGCCTTCAACGATTTACCTTTAGTCTCCATAAACTCGTGTTGACCGTGTTGGCAGTAGTTTGCATAAACAGCGTTGTTCACAACACCAAATTGGTCTAATTCATAATCACGAACTTTAAGTTCAATCTCATGGACTCCATTCATTCCTTTGCCTCCTTGCTGTTTGAAACATGAGAGAGGTTTGAAGGTCTCGATTACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGCGATTTGTGCTCCGGAGAGGTAGGATAAGCGGTCGACTCGAAAAACAGGGAAACACCACGTGCATAGCCGGAGCCACTGTGCCGGTAGCTTTAAGCATTGCCCGCGGTATTTATAGGTTCTATTGTGATATACGGTGTAATACTTACGCGCGCGAGCGTAGTCATAGCGTACCGGCATCTCAGAGTAGTGACAAGGTTGACCAGCCAGCACTCTACGCAGAGGGCAATATATCGGAGCTCATGCCTATAAAGCTGGCGTAAATGGTTGCTTTTTTATCAGCTTGGCCTTGGGAAAACTTTGGCAATCTCAAGTATCTTCTCTACGCTCCATTAGCTGCACAAGTAGTGTACTCGTGGGTCTATGAAGAAGATATCTCAAAGGTTCTTTGGTGTATTCATATTCTCATAATCTGCGGTCTCAAAGCACATCGGTGAGCCCTCTCAGAACAGCATCGTTGTTCATGAACTATGGAGCGTTTTCAACAACATGCTTTTCGTGACTCGTACTCTAAGGATTAACCCTAAAGGGATGCACTTTAAACAGATATCGTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATCAATAGAGCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTATCGTGATCACGAATGGCACTGGGACAATTACATAATCCTACAAGCAATAATAGTGAGCCTGATCTGTTACATGTCACCACCATTGATGATGATGATAAACAGTCTTCCTCTGTGGAACACGAAAGGACTCTACGCATTAATTGTGCTACATGTGACTTTCTCAGAGCCTGGATACTACTTTCTGCACAGATCTTTCCACTGTAACAACTACTTCTTCACACATTACTAGGTCAGAATAAATTTACTTGTTGATTTCGAGCTCGATTAGAATAGGCCCCCTGTAGGTATGATTGTAGCGAGATGGGAGGTTCCGCGCCAGCTAAGAGATTGGTTTTCACCGACCGGGCTTGGATAGTGCTAGCTTACCCCCACGTCTTTCCACCTAAGTGCATGAGTCTGCAGTGGAACGCCGGCCGCTAACCTCCGCACTCACACGCATACTCTACCGATAGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGATCGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATATAGTTTTCTAAAGGTATAAAACAGTCTAGAATGTCGACAGAAATGGAGGTCGTTAGTGTTCTTAAGTACCTTGACAACAAATCCATATTGGTCGTTGGAGCTGCTGGGTTCTTAGCAAATATCTTTGTGGAGAAGATATTAAGGGTGGCACCAAACGTGAAGAAACTCTATCTCCTTCTAAGAGCATCAAAAGGAAAATCTGCTACCCAGAGGTTTAACGACGAGATTTTGAAGAAAGATTTGTTCAAGGATCGCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTATCGTGCTGAAGGAGAAGTATGGTCCCAATCTAAATCAACTTACATCAGAGAAAATCACTATTGTCGACGGAGACATTTGCCTTCTAAATGACTCTCATCTTAGAGAACGTATGCAAAAAGAAATAGATATTGTTGTCAATGTTGCAGCCACAACAAACTTTGACGAAAGATATGATGTTGGGCTTGGGATCAATACATTTGGAGCTCTCAACGTCCTTAACTTTGCCAAAAAATGTGTTAAAGTTCAATTGCTTCTCCATGTCTCAACTGCTTATGTTTGTGGAGAAAAGCCAGGTCTCATACCTGAAAAACCATTCATCATGGAAGAGATTCGTAACGAGAATGGTCTTCAATTGGATATTAACCTTGAAAGGGAGCTTATGAAATTGGTTCAGGAGAAACTTGACCAGCTCCGAGTAAACGGAGCCGCTCCTGAAACCATCACGGAAACCATGAAGGATCTCGGACTCAGACGGGCAAAGATGTACGGATGGCCAAACACATATGTGTTATCGGTGAGCCCTCTCAGAACAGCATCGCACCAAAGCAATGGGGGAGATGATGGTAGGGACAAAAAGAGAAAAATCGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATCAATAGAGCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCATCGTCTGTCACTTGTGTTGCTTCGTCCTTCAATTATTACCAGCACATTCAAAGAACCATTTCCTGGTTGGACTGAGGGCATCAGGACTATTGATAGTTTAGCTGTTGGATATGGCAAAGGCAAACTCACGGTCGATGTTAACTCGGTCTGCGATATGATACCAGTGGATATGGTGGCAAACGCAATGATCACGGCTGCAGCCAAACACGCTGGAGGTTCAGGGGTTCACATGGTGTACCATGTCGGCTCATCTCACCAGAACCCAGTCACATTTGGAGAGATTCATGAGATTGCGGTTCGTTACTTTACGAAAAACCCTTTGCGAAGTCGCAATGGCTCACTCATAACCGTCTCAAAAGTGAGGTTCATACCAACCATGGCTTTGTTCAGCCTCTACATGACCCTACGTTACAAACTACCTCTCCAGTTATTAAAACTAGTTGACATAACATATCCTTGGAGAAACGGAGATAAATATGGAGACAAGAACCGCAAACTCGAGTTGGTGATGAGATTGGTAGAGCTTTATGATCGTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCAGCCCATATCGAGCCTTATGTACTCTTCAAGGGAATATTCGACGATAGAAATACAAAGAGTTTATGCGCAAACCAGAAGGAAGAGGAGATCAAAAATACAGAAAAATTGATGTTTGATTTCGACCCAAAAGGAATTAATTGGGGAGATTATCTCACTAAAATACACATTTCTGGACTCGTCACACACGTGCTTAAGAAGTGATGTTGAAATAAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTTATAAAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCCGATGATTCAAGAGGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTATCGCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGCCGACGCTGGCGTGCAGgccCCCGCTATATCTCTAAGTTTGGTTATAAACGGCGGCCCGAATGTTTTGTCTATTTATGCCTCTCTTTGATGTTTTGGGCGATACACAAAACCCAAACTCATGGGAACTCCAAAAGAAGATTCGTTTGAGTGCAGGGATCGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCATCGGAACGGAAGAGAGTGCCGGAGTTTGTGTTCTTAGCTCACGGAGTTGATGTAATGTCGGCGATGCATGCACCGTTCGTGTTCAGATCTTTTGCTTCAATGCCATCTACCACAAGGATATTCTTGCTACCGATGTGGCCATTCACGTTCTGTGTTATGTTGGGCATGTGGGCTTGGTCAAAGACTTTTCTTTTCAGCTTCTATTCCCTCAGGAACAATCTTTGTCAGACTTGGGGCGTTCCTAGATTCGGATTCCAATACTTCTTACCGATTGCTACAAAAGGAATTAATGATCAAATTGAGGCTGCGATTCTTAGAGCTGATAAGATTGGTGTTAAAGTTACAAGCTTGGCTGCTCTCAACAAGAACGAAGCTCTAAATGGTGGTGGAACACTGTTTGTCAACAAGCATCCTGACCTTAGAGTTCGTGTGGTTCATGGGAACACTTTAACTGCAGCAGTGATTCTCTATGAAATTCCAAAAGATGTGAATGAGGTTTTCTTGACTGGATAATGAAATAAAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTTTATAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTACGTAGCAATCCGATAGCCCATCAATAGAGCCAAAGCTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCTATAAAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGACGTAGCAATCCGATAGCCCATCAATAGAGCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGCCGACGCTGGCGTGCAGCCCGCCGCGTCTCTAAGTTTGGTAAAGTACAGGAGTCCATTATGCGCGTCCATGGGCCGGAACTTCGATGCTCTCCCAGATGAGGGGACCAGCAGTCGATTCAAGAGTTTATTGTCTGTTCAGTTGGTCCCCATTTCTTGATGATGCAGACTATGGTACGTTGGAGTACGGGTGAGATATCGTAAGACTGGAAGAATCTCGAACAGCTTGTGAGAGAATATCTCAACGTTACAATGTCCTAAACACCTCATGAAATCAAACATAACAGCGTACGATACACGCTGGAGGTTCAGGGGTTCACATGGTGTACCATGTCGGCTCATCTCACCAGAACCCAGTCACATTTGGCGATACCGTAGATCGCACTTAATGATCCAACACCAAACAAGCAACATCCAATCAATGGAACACCAGCTACGACACAGAGGATAATGTTTTCCAATAACGTTGCGTTTCCAGCAGTCATGGGATGTGGAACAGGAGATGAGTGGTGGAAAGAGTGCATACTGGGCTACTTTTATAGCAGCATACAAGTCTATAAGCCGTGATGTCTGTGTCCCTGAACCTCCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGTATATTGGGCAGAAGACTATAAACCAGTCTTCGCCATGGCCACTTCTAAGCTGGGAAGAGCTATTGCTCTTTACCTTTGTCGCCGTGGAGTGAGAGTTCTCATGTTGACATTGTCTATGGAAAGGTTCCAAAAGATTCAGAAAGAGGCTCCTGTTGAGTTCCAGAACAACCTTGTACAAGTGACCAAATACAATGCTGCTCAACACTGCAAGACTTGGAAGGTTGGAAAATGGTTAACACCAAGAGAGCAGAGCTGGATCGAACAGCTTTAATCGGCTCCTGCAGGGACGCATTTCCATCAGTTTGTGGTGCCACCAATCCTTAAGTTTAGAAGGAACTGCACTTACGGTGATCTAGCAGCTATGAAGCTCCCTAAAGATGTTGAAGGACTCGGAACTTGCGAGTACACGATGGAGAGAGGGGTGGTACATGCGTGCCATGCAGGAGGAGTGGTTCATAATATCGCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTGGTGAGCCCTCTCAGAACAGCGCGCCTCTTGGGCAGAAGACGTAACTATCGGCTATGGGGTTGGAAGCATCAATGGGTTGGAGCCATATGTGTATGCCGTGGCGATTTGGTGTGGGAAGCAGCCATGAAGTATGGTCTATGTGCTGTTTCTTCACTCACAAAATCTGAACACTAATAAAGCATCTCAGAGTAGTGACAAGGTTGACCAGCCAGCACTCTACGCAGAGGGCAATGATGTCGGAGCTCATGCCCGAGTCGCAATGGCAAACGTGCACCAACGGACCACAGACGGGAACAGCTTTACTTGTTGATTTCGAGCTCGATTAGAATAGGCCCCCTGTAGGTATGATTGTAGCGAGATGGGAGGTTCCGCGCCAGCTAAGAGATTGGTTTTCACCGACCGGGCTTGGATAGTGCTAGCTTACCCCCACGTCTTTCCACCTAAGTGCATGAGTCTGCAGTGGAACGCCGGCCGCTAACCTCCGCACTCACACGCATACTCTACCGATAATCGGATCAGAGGAGGCCTAAGTCTCTGCGGAAGTTCCAGGGGATGACCTTACTATGGTCGGGAGGTCACGTCGCCGTTCAGAACACGCATCAGCAGCATACAAGTCTAGCAGCCGTGATGTCTGTGTCCCTGAACCTCCCCAAAGCGGGAGTTGACAACAGTAGAGGCCTTCAACCTCCGCTCGGCTCGGGTACCTCGGTTTCATCCCGGACTATCCCGCGACGTAATCTCTACGCGTCCCCGCCAGACAGCTAGATTTTGTTTTCTAAAGGAAAGTACAGGAGTCCATTATGCGCGTCCTGTCTGAGCCGAGAGCAACTTGGGCAGAAGACGTAACTG there is a lot if gene strands in there. you must break them down and...
(a) Draw three different amino acid residues connected by two peptide bonds. (b) label each residue (3-letter code is OK). (c) Note bonds that do not rotate with a star (d) Note bonds that do rotate with a semi-circle arrow, including those found in each side chain (e) Of the residues in your drawing, which one contributes most to the entropy of the polypeptide (assume an unfolded state)?
1. Amino acids have both a three letter, and a one letter code, for example the amino acid Glycine is “Gly” or “G.” There are 20 single letter codes for amino acids, which is almost an entire alphabet. (skip any letters without a corresponding amino acid) it would make. A. For example: “Ryan Smith”, would be: “Arginine, Tyrosine, Alanine, Asparagine, Serine, Methionine, Isoleucine, Threonine, Histidine” B. Take this sequence of amino acids, and write out a sequence of RNA that could...
The following genomic DNA sequence comes from the first exon of a human gene and contains the 3'-end of the 5'-untranslated region and the start of a long open reading frame that codes for 200 amino acids (a.k.a. coding sequence). Note: There are no introns in this short portion and only one strand of the genomic DNA is shown. Which of the following answers lists the first three amino acids of the translated protein correctly? Seconed Position tyr ser leu...
Did I answer the mRNA sequences
and Amino acid sequences correctly? What types of mutations are
these? How do you do the bottom?
Part 3. Cystic Fibrosis Directions: Cystic Fibrosis is a disorder where the individuals have long and kidney problems. The disorder is caused by a mutation in one of the individual's genes. Complete the boxes below by finding the mRNA and amino acid sequence Compare the moutant DNA strands to the original strand. Circle the mutation in the...
A1. The following is the DNA sequence of a hypothetical gene for the SMALL protein. It is called the SMALL gene. i atgggattac actgtcacga ccaaatagcc ttcattgtat 41 caaaaggato aatcgagtta tag Imagine you are doing a research project in a laboratory and your supervisor asks you to clone the SMALL gene into the PBR322 plasmid (shown below). You must use the Pstl and EcoRI sites for your cloning. HindIII EcoRI | EcoRV BamHI 4359 0 29 185 4000 375 Sall Psti...
Page 2 of 8 12. What type of mutationales the base, but not the amino acid being coded for? mutations? point nonsense 12. framstiftis caused by m ense and insertion misense and nonsense Dansene and deletion 2 doletion and insertion insertion and nonsense 14. A mutation that changes a normal codon to a stop codon is called a #paint mutation silent mutation & back mutation 2 misserse mutation & nonsense mutation 15. Repreble operons require that_ bind to the repressor...
Finance 4310 Class Assignment Investment State I Return (p=0.3) State II Return (p = 0.5) State III Return (p=0.2) 5% 11% 9% 8% -3% Given the above information on two investments A and B, calculate the following statistics: The correlation coefficient between A and B is 0.169. (Note that since the correlation is given, you do not have to do the long calculation for covariance, just use AB = P1003) A. Expected Return for A (Check answer: 8.8%) B. Standard...
These are previous exam questions
I am just preparing for the final exam by studying the previous
questions!
please help me out!
A1. The following is the DNA sequence of a hypothetical gene for the SMALL protein. It is called the SMALL gene. 1 atgggattac actgtcacga ccaaatagcc ttcattgtat 41 caaaaggatc aatcgagtta tag Imagine you are doing a research project in a laboratory and your supervisor asks you to clone the SMALL gene into the pBR322 plasmid (shown below) You must...
Please answer number 21-25, explain and clearly indicate
which number you are answering. Thanks in advance!
(Q21-25) We have the following double-stranded
DNA sequences, which codes for a 10 amino acid long protein gene.
Use the codon table and answer the questions.
5'-CCTGTGTCACTCACAGGGGATGGTATCACAGTGAGTCATGGGTTT-3'
3'-GGACACAGTGAGTGTCCCCTACCATAGTGTCACTCAGTACCCAAA-5'
21. Which strand codes for this protein?
A. top
B. bottom
C. both strands
D. none of the above
22. If this is a eukaryotic gene, which RNA polymerase
will make mRNA?
A. RNA Pol I...