tRNA does not copy a strand of DNA - that is what mRNA does.
So for the DNA strand ATT-CGA-CCT-ACG:
the mRNA strand would be UAA-GCU-GGA-UGC
tRNA is responsible for carrying the correct amino acid to match up with the codon (three letter code) on the mRNA. The first codon here is UAA - which is a stop codon - meaning the peptide chain being created will not proceed beyond this.
a-u-u-c-g-a-c-c-u-a-c-g
Notice that the tRNA strand is the same as the DNA strand except that the t (thymine) in DNA is replaced by u (uracil) in the tRNA.
AUUCGACCUACG
The complementary strand for CGATTAC would be GCTAATG. C and G are always paired together, and A and T are always paired together.
T-A-C-G-A-T
G-A-T-T-A-G-C-C-T-A-A-G-G-T-C-GDNA base-pairing rulesAdenine - ThymineCytosine - GuanineRNA base-pairing rulesAdenine - UracilCytosine - Guanine
Each of these letters stands for a base (which is part of one nucleotide). Therefore because there are 12 bases, there would be 12 nucleotides in the strand.
A binds with T, G binds with C. Therefore the complementary strand of ATG-CCC-TAT-AGC-GCG-CAA-AGA-G is: TAC-GGG-ATA-TCG-CGC-GTT-TCT-C
the complimentary styrand would be: T-C-C-G-A-T
In DNA, the complementary strand would be: GGATCAGTAC.
I always place the "strand" vertically. G G C A T T G C A Then i think.. what bonds with what? G with C A with T and when RNA A with U. So in order for the DNA strand and the RNA strand to bond.. they have to have the appropriate reflections. G - C G - C C - G A - U T - A T - A G - C C - G A - U Therefore you're modifications have been made and your RNA strand is this: CCGUAACGU Hope this helps :)
DNA:T-C-G-A-TmRNA:U-C-G-A-UmRNA rule: switch T with U_________________________________________Although the above answer is correct in that there are no thymines (T) in RNA, I must disagree with the rest of the answer. The mRNA strand given in the answer above would be the identical strand made from RNA, not the complementary strand as the question asked for.A complementary strand is produced by an RNA or DNA polymerase from a template DNA strand.Therefore, if the template DNA strand were T-C-G-A-T, then:The complementary DNA strand would be A-G-C-T-AThe complementary RNA strand would be A-G-C-U-A
The complementary strand for CGATTAC would be GCTAATG. C and G are always paired together, and A and T are always paired together.
t a a c g g t c g
It would be T-A-A-G-C-C
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.
T-A-C-G-A-T
It's GTTCATCCGA
In DNA strands, C pairs with G and A pairs with T. The complementary strand to C-C-A-T-C-G would be G-G-T-A-C.
No. Each base (A, G, T, C) pair with their respective base on the opposite strand making them exact opposites of each other. A - T G - C C - G A - T T - A