The complementary strand to yours would be ATGCAA. Just remember that T is complementary to A and C is complementary to G.
If a short sequence of DNA is AATTGCCGT, its complement is TTAACGGCA. The site of the opening of the DNA strands where active replication occurs is referred toas the replication folk.
uagcugcag
The RNA base sequence will be CGAUUAGGCThis answer assumes that the DNA sequence in the question is the sequence on the template strand.The way to work it out is to take the complementary base of each base in the DNA:the complement of G is Cthe complement of C is Gthe complement of A is U in RNA (T in DNA)the complement of T is AAnswer is actually (E) ATACA because if you use TATGA and do the complement, which is a=t and c=g
DNA
You're thinking of messenger RNA. It is the transcribed complement of DNA that ultimately gets translated by rRNA and tRNA into a protein.
In DNA, adenine is always covalently bonded to its complement thymine.
DNA!! the matching strands of rna form dna..
Be more clear with your question please. The complement of a single strand of DNA is the other strand. The complement to the single DNA strand "ATCGGTA" would be "TAGCCAT" The mRNA complement of the DNA strand ATCGGTA is UAGCCAU The tRNA anticodon of the DNA strand ATCGGTA is UTCGGTU Hope that helps A cell's endovment of DNA, its genetic information is called its genome
TACAATGCAACTTGG
GCCGATAT
which one of the following strands od DNA in the complement strand to c-c-a-t-c-g
tag
CCGGTAAT
GCCGATAT
The reverse complement is the DNA sequence reversed and then its complementary base pairs. For example, I have a sequence: ATGGGCCT so the reverse complement would be AGGCCCAT
The RNA base sequence will be CGAUUAGGCThis answer assumes that the DNA sequence in the question is the sequence on the template strand.The way to work it out is to take the complementary base of each base in the DNA:the complement of G is Cthe complement of C is Gthe complement of A is U in RNA (T in DNA)the complement of T is AAnswer is actually (E) ATACA because if you use TATGA and do the complement, which is a=t and c=g
DNA
You're thinking of messenger RNA. It is the transcribed complement of DNA that ultimately gets translated by rRNA and tRNA into a protein.
In DNA, adenine is always covalently bonded to its complement thymine.