What is the Difference Between Conserved and Consensus Sequence?

Conserved and consensus sequences are both nucleic acid or amino acid sequences that remain unchanged despite genetic changes over time. However, there are differences between the two:

• Conserved Sequence: A conserved sequence is a similar sequence found among various species. It is a DNA or RNA chain that has remained consistent in organisms. These sequences often have important biological functions, such as splice sites, restriction enzyme cutting sites, or the amino acid sequence of histone proteins.
• Consensus Sequence: A consensus sequence is a short stretch of nucleotides that occur multiple times in conserved sequences, usually in different locations to perform the same functions. They serve as binding sites for other molecules and can be studied across generations of animals to determine their rate of evolution. Examples of consensus sequences include the TATA box in E.coli, which acts as a promoter for the initiation of transcription, and the -10 and -35 boxes of E. coli promoters.

In summary, conserved sequences are similar across species and have important biological functions, while consensus sequences are short stretches of nucleotides that occur multiple times in conserved sequences and serve as binding sites for other molecules. Both conserved and consensus sequences can be visualized by bioinformatics tools and are widely used in molecular biology.

Comparative Table: Conserved vs Consensus Sequence

Here is a table comparing conserved and consensus sequences:

Conserved sequences are nucleic acid or amino acid sequences that are consistent among species, while consensus sequences are short stretches of nucleotides that occur multiple times in a conserved sequence. Both conserved and consensus sequences play crucial roles in genetic studies and can be calculated and visualized using bioinformatics tools.