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.
The complementary DNA sequence to CTA is GAT. In DNA, adenine (A) pairs with thymine (T) and cytosine (C) pairs with guanine (G). So, for every C in one strand, there should be a G in the complementary strand, and for every T in the original strand, there should be an A in the complementary strand.
taacgggtac
The complementary strand for the sequence 3' cta tag gag act cat 5' is 5' gat atc tca tga gta 3'. This is determined by pairing adenine (A) with thymine (T) and cytosine (C) with guanine (G), while also reversing the direction of the strand.
After transcription, GAT CCG would be transcribed into its complementary RNA sequence, which is CUA GGC. The process involves converting DNA into RNA by replacing adenine with uracil, thymine with adenine, cytosine with guanine, and guanine with cytosine.
Codon is a group of three bases on a DNA molecule, each determining the identity of one amino acid in proteins made by a cell. An example of a codon is the mRNA sequence of AUG.
The complementary DNA sequence to CTA is GAT. In DNA, adenine (A) pairs with thymine (T) and cytosine (C) pairs with guanine (G). So, for every C in one strand, there should be a G in the complementary strand, and for every T in the original strand, there should be an A in the complementary strand.
taacgggtac
The complementary strand to tagcaagc would be ATCGTTCG. In DNA, adenine (A) pairs with thymine (T), while cytosine (C) pairs with guanine (G). So, the complementary bases are matched accordingly to form the opposite strand.
The sequence of nucleotides of the complementary strand will be the nucleotides which bind to the nucleotides of the template. In DNA, adenine binds to thymine and cytosine binds to guanine. The complementary strand will therefore have an adenine where the template strand has a thymine, a guanine where the template has a cytosine, etc. For example: If the template strand is ATG-GGC-CTA-GCT Then the complementary strand would be TAC-CCG-GAT-CGA
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
Gcu aga
The corresponding strand is TTT act gtt gat ggt aga act cgt tgt tct. To find it, you need to identify the complementary base pairs: adenine (A) with thymine (T), cytosine (C) with guanine (G). Then, simply replace each base with its complementary one to obtain the other side of the DNA helix.
Tcc gat tgg ac
The complementary strand for the sequence 3' cta tag gag act cat 5' is 5' gat atc tca tga gta 3'. This is determined by pairing adenine (A) with thymine (T) and cytosine (C) with guanine (G), while also reversing the direction of the strand.
The complementary base to adenine (A) is thymine (T), and the complementary base to cytosine (C) is guanine (G). Therefore, during DNA replication, the complementary sequence to gatcgt would be ctagca.
After transcription, GAT CCG would be transcribed into its complementary RNA sequence, which is CUA GGC. The process involves converting DNA into RNA by replacing adenine with uracil, thymine with adenine, cytosine with guanine, and guanine with cytosine.
Ucg cga GAC UAU