What is the difference between the sense and antisense strands?
Main Difference – Sense vs Antisense Strand Sense strand contains the exact nucleotide sequence to the mRNA which encodes for a functional protein. Antisense strand serves as the template for the transcription, and contains complementary nucleotide sequence to the transcribed mRNA.
What is the difference between the template strand and non template strand?
The template strand is the one that RNA polymerase uses as the basis to build the RNA. This strand is also called the non-coding strand or the antisense strand. The non-template strand has the identical sequence of the RNA (except for the substituion of U for T).
What is the difference between coding strand and template strand?
The main difference between template and coding strand is that template strand only serves as the template for transcription whereas coding strand contains the exact same sequence of nucleotides in the mRNA except thymine.
Is the coding strand the antisense strand?
The sense strand has the information that would be readable on the RNA, and that’s called the coding side. The antisense is the non-coding strand, but ironically, when you’re making RNA, the proteins that are involved in making RNA read the antisense strand in order to create a sense strand for the mRNA.
What’s the difference between coding and non-coding DNA?
Coding DNA refers to the DNA in the genome, containing for protein-coding genes while noncoding DNA refers to the other type of DNA, which does not code for proteins.
What are template strands?
A template strand is the term that refers to the strand used by DNA polymerase or RNA polymerase to attach complementary bases during DNA replication or RNA transcription, respectively; either molecule moves down the strand in the 3′ to 5′ direction, and at each subsequent base, it adds the complement of the current …
What is the difference between coding and noncoding DNA?
The main difference between coding and noncoding DNA is that coding DNA represents the protein-coding genes, which encode for proteins, whereas noncoding DNA does not encode for proteins.