AAG TTC AGC is a sequence of nucleotide triplets that represent specific codons in DNA or RNA. Each codon corresponds to an amino acid or a stop signal during protein synthesis. In the context of genetics, it may indicate specific instructions for building proteins. To determine its exact meaning, further context, such as the organism or the protein involved, would be needed.
Purine- Adenine, guanine,pyrimidine- thymine, cytosineAdenine pairs with thymineGuanine pairs with cytosineTherefore the complementary strand to TCG AAG is AGC TTC=========================================================A always pairs with T, and C always pairs with G so the complementary strand is as follows:TCG AAG (Original)AGC TTC (Complementary)GCA TAT
The complementary DNA strand produced from the given DNA strand TCG AAG would be AGC TTC. In DNA, adenine (A) pairs with thymine (T), and cytosine (C) pairs with guanine (G). Therefore, each base on the original strand is matched with its complementary base to form the new strand.
mRNA forms a complementary sequence to the DNA it is transcribed from. Therefore, the DNA strand would be the complement (opposite base pair) from what is present in the mRNA. Also, remember that RNA uses uracil (U) in place of thymine (T). For the mRNA strand CUC-AAG-UGC-UUC, the complementary DNA strand would be GAG-TTC-ACG-AAG.
GCT AAG would produce the strand of mRNA of "CGA UUC" CGU AAU UGA CUG
Yes, but in tRNA it does not. With RNA, A pairs with U, T pairs with A, C with G, and G with C. For example if your thing was ACT, GCA, TTC your RNA would be; UGA, CGU, AAG
Aag Hi Aag was created on 1987-04-03.
aug aaa aag aac uau uuc cgc gag ggc uau ggg ggc aac aag uua
Rosedale - TTC - was created in 1954.
Ellesmere - TTC - was created in 1985.
Kennedy - TTC - was created in 1980.
Warden - TTC - was created in 1968.
Woodbine - TTC - was created in 1966.