The complementary strand of DNA to the template strand TACGGCTA would be ATGCCGAT.
GCT AT
the DNA strand GTT ACC would be transcribed to CAA UGG.
The template strand of DNA is used to make a complementary copy during DNA replication, while the antisense (non-coding) strand is used as a template for complementary mRNA synthesis during transcription.
Ttg ga
Gca ta
Ttg ga
Ttg ga
GCT AT
the DNA strand GTT ACC would be transcribed to CAA UGG.
The template strand of DNA is used to make a complementary copy during DNA replication, while the antisense (non-coding) strand is used as a template for complementary mRNA synthesis during transcription.
Ttg ga
The leading strand would utilize the 3' to 5' template DNA strand as a guide for continuous synthesis of complementary DNA in the 5' to 3' direction by DNA polymerase during DNA replication.
Gca ta
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
AAC CT would produce TTG GA The coding strand is the DNA strand that has the same base sequence as the RNA transcript. It contains codons, and the non-coding strand has anti-codons instead.
The DNA strand CAT-TAG would produce a complementary mRNA strand of GUA-AUC.
Yes, if the dummy strand, which is the non-template DNA strand, were used to make a protein, the resulting protein sequence would not correspond to the original DNA template sequence correctly. This would lead to a protein with a different amino acid sequence and potentially non-functional or misfolded protein.