The messenger RNA sequence would be: CCG UAG CUG GCU
In the cases of MRNA and DNA there are differences in the base pairs that make up the two compounds. In a situation in which Adenosine, Thymine, and Cytosine would need to be paired between DNA and RNA Guanine would be used on the RNA side.
If reading the DNA in the same direction ie 5' to 3' it would be ATC, however when bound to the complement it would sit in the reverse order - 3' to 5' and would read CTA.
yes
Codons are a series of three of the 4 nucelotides (bases) that call for the creation of one of 20 amino acids...or start or stop protein synthesis. Some amino acids have only one codon others have several. A C T G (U in RNA) ATC starts protein synthesis for example
Absolutely Yes, Life Depends Upon It. Nucleotides grouped in 3's are called ' triplet codons '. The four nucleotides, ATC&G, read as triplet codons, determine the order of amino-acids that are sequentially added to a nascent (growing) protein chain. See Proteins and Dna.
RNA uses Uracil (U) in place of Thymine (T). Thymine is exclusive to DNA.
In the cases of MRNA and DNA there are differences in the base pairs that make up the two compounds. In a situation in which Adenosine, Thymine, and Cytosine would need to be paired between DNA and RNA Guanine would be used on the RNA side.
TGCA
There is not really such a thing as a mirror image of DNA in nature. DNA polymerase may be the "molecule" that you are thinking of, it is an enzyme that replicates DNA. When the polymerase makes a new strand of DNA, it uses an existing strand of DNA as a template. The new strand of DNA is not in fact a mirror image of the template strand, but it is the closest thing possible. The new strand is called a complementary strand, not a mirror image.Existing DNA (template for polymerase): ATC TGA CCG GAC TAG GGTNew strand (made by polymerase): TAG ACT GGC CTG ATC CCAAlternatively, by mirror image of DNA you may be thinking of RNA, a ribonucleotide that is made by RNA polymerase. The process is similar to that described above, but the new complementary strand is made out of ribonucleic acid rather than deoxyribonucleic acid.
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
Gct tag tcg
I don't know what you mean by complementary, so I'll use an example. If a section of one strand of DNA is ATC GGA TAC ACC, then the other will be (in the same direction) TAG CCT ATG TGG If you are looking for the messenger RNA code, change all the Ts to Us in the second code of my answer. Hope this helps!
insertion
insertion
inversion
If reading the DNA in the same direction ie 5' to 3' it would be ATC, however when bound to the complement it would sit in the reverse order - 3' to 5' and would read CTA.
* ALL TERRAIN CYCLE