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The Rna triplet codon GUA, Thymine being replaced by Uracil in all Rna's.
CGU UC
TAC AAA TTT GCA ACC ACT (DNA) AUG UUU AAA CGU UGG UGA (mRNA)
The complementary base of A is T, and the complementary base of G is C. So if there is an T the complementary would be A, and if there is a C the complementary would be a G and so on. Therefore the complementary strand would be: G A A T C C G A A T G G T.
mRNA - carries genetic code for protein tRNA - helps incorporate amino acids into polypeptide chains. rRNA - forms structural and functional components of ribosomes. Transcription - occurs in the nucleus of the cell. Production of mRNA from DNA. 1) Initiation - RNA polymerase recognises and binds to the specific promoter sequence and initiates transcription. 2) Elongation - RNA Polymerase moves along the template DNA strand (bottom strand) in a 3' to 5' direction, unwinding it as it goes to synthesize RNA in the 5' to 3' direction. (to create the mRNA strand) 3) Termination - RNA Polymerase encounters a transcription terminator, releases the completed mRNA strand and dissociates from the DNA. Translation - occurs in cytoplasm. Production of polypeptide chain (protein products) from mRNA. Occurs in a 5' to 3' direction. 1) Initiation - Ribosomes bind to mRNA 2) Elongation - Amino Acids (carried by tRNA) are incorporated into polypeptide chains. (Anticodons at the base of tRNA must make a perfect complementary match with the codon on mRNA before the amino acid will be released.) 3) Termination - Ribosomes, polypeptide chain and tRNA are released from mRNA. Anti-codon for DNA template strand - 3' - ACG UGG TCA UGA ACG UGG - 5'
UGA CUG
Gca-tat gca ta The answer is AGC CT cat gt
Ttg ga
The Rna triplet codon GUA, Thymine being replaced by Uracil in all Rna's.
If the tRNA has the sequence UUA, then the mRNA it reads from will have the sequence complementary to UUA, which is AAU. RNA uses the nucleic acid uracil instead of the DNA counterpart, thymine.
Gca ta
acg-att
CGU UC
Gca-tat gca ta The answer is AGC CT cat gt
During transcription, the DNA template is used to create a complementary strand of mRNA (messenger RNA). An A on the DNA template is complementary to a U on the mRNA, T to A and C to G. Therefore the complementary mRNA of TAC-GCG-CAT-TGT-CGT-CTA-GGT-TTC-GAT-ATA-TTA-GCT-ACG is: UTG-CGC-GUA-ACA-GCA-GAU-CCA-AAG-CUA-UAU-AAU-CGA-UGC
The complementary DNA strand would be TTCGTT.But assuming that the given strand is of mRNA, the DNA template would be TTCGTT and the tRNA would be UUCGUU.
First, separate the letters into codons so they are easier to read: ggc tat atc ctg cgc tat acg cta Then, convert them into mrna, replacing the g's with c's, the c's with g's, the t's with a's, and the a's with u's. Unlike DNA, RNA doesn't contain t, but it can still translate t's. ccg aua uag gac gcg aua ugc gau