What is the Difference Between TATA Box and Pribnow Box?
🆚 Go to Comparative Table 🆚The TATA box and the Pribnow box are both DNA sequences found in the core promoter region of genes, but they differ in their consensus sequences and the organisms they are found in.
- TATA box: Found in the core promoter region of genes in eukaryotes and archaea, the TATA box has a consensus sequence characterized by repeating T and A base pairs. It was first identified in 1978 and is considered a non-coding DNA sequence.
- Pribnow box: Found in the core promoter region of genes in bacteria, the Pribnow box has a shorter consensus sequence of six nucleotides (TATAAT). It is the bacterial homolog of the TATA box and serves an analogous purpose. The Pribnow box was discovered by David Pribnow in 1975.
In summary, the main differences between the TATA box and the Pribnow box are:
- The TATA box is found in eukaryotes and archaea, while the Pribnow box is found in bacteria.
- The TATA box has a longer consensus sequence, while the Pribnow box has a shorter consensus sequence.
Comparative Table: TATA Box vs Pribnow Box
The TATA box and Pribnow box are both promoter sequences involved in the transcription process, but they differ in their consensus sequences and occurrence in different organisms. Here is a table comparing the differences between the TATA box and Pribnow box:
Feature | TATA Box | Pribnow Box |
---|---|---|
Occurrence | Found in eukaryotes and archaea | Found in bacteria |
Consensus Sequence | TATAWAW | TATAAT |
Location | Core promoter area of the genes | Bacterial homolog of the TATA box |
DNA Conservation | Seen in the core promoter area of the genes in eukaryotes and archaea | Seen in promoters in bacteria |
Discoverer | Discovered by David Hogness in 1978 | Discovered by David Pribnow in 1975 |
Both the TATA box and Pribnow box are crucial promoting elements, but they differ in their design functions and occurrence in different organisms. The TATA box is a larger sequence, while the Pribnow box is shorter. Both sequences are recognized and bound by subunits of RNA polymerase during the initiation of transcription. Mutations in either of these sequences may change gene expressions.
- TATA vs CAAT Box
- DNA Transposons vs Retrotransposons
- Prokaryotic vs Eukaryotic Translation Initiation
- Prokaryotic vs Eukaryotic Transcription
- Transposon vs Retrotransposon
- mRNA vs tRNA
- p53 vs TP53
- Transcription vs Translation in DNA
- Plasmid vs Transposon
- Genetic Code vs Codon
- Prokaryotic vs Eukaryotic DNA
- Taq vs Pfu Polymerase
- Post Transcriptional vs Post Translational Modification
- Transcription vs Reverse Transcription
- Transcription vs Translation
- ZFN TALEN vs CRISPR
- Eukaryotic vs Prokaryotic Promoters
- Transcriptional vs Posttranscriptional Gene Silencing
- CAR-T vs CRISPR