What is the Difference Between Monocistronic and Polycistronic mRNA?
🆚 Go to Comparative Table 🆚The main difference between monocistronic and polycistronic mRNA lies in the number of proteins they encode and the organisms in which they are found. Here are the key differences:
- Monocistronic mRNA:
- Contains a single cistron within a transcriptional unit, encoding a single polypeptide chain.
- Each gene contains a separate promoter region.
- Found in eukaryotes.
- Composed of a single open reading frame.
- Can produce a single protein.
- Polycistronic mRNA:
- Encodes multiple proteins.
- Found in prokaryotes.
- Composed of multiple open reading frames.
- Transcription of operons produces polycistron mRNA.
- Can produce multiple proteins.
In summary, monocistronic mRNA encodes a single protein and is found in eukaryotes, while polycistronic mRNA encodes multiple proteins and is found in prokaryotes.
Comparative Table: Monocistronic vs Polycistronic mRNA
Here is a table comparing the differences between monocistronic and polycistronic mRNA:
| Feature | Monocistronic mRNA | Polycistronic mRNA |
|---|---|---|
| Number of cistrons | Contains only one cistron | Contains multiple cistrons |
| Number of proteins encoded | Encodes a single protein | Encodes multiple proteins |
| Origin | Found in eukaryotes | Found in prokaryotes |
| Gene structure | Composed of a single open reading frame | Composed of multiple open reading frames |
| Transcription | Transcription of a single gene produces monocistronic mRNA | Transcription of operons produces polycistronic mRNA |
| Examples | Eukaryotic mRNA molecules | Prokaryotic mRNA molecules, such as those in bacteria |
Monocistronic mRNA contains only one cistron, which is a segment of DNA that codes for a single protein. These mRNAs are found in eukaryotes and are produced when transcription of a single gene occurs. On the other hand, polycistronic mRNA contains multiple cistrons, coding for several proteins. Polycistronic mRNA is found in prokaryotes and is produced when transcription of operons, which are groups of adjacent genes, occurs.
- RNA vs mRNA
- Prokaryotic vs Eukaryotic mRNA
- mRNA vs tRNA
- DNA vs mRNA
- hnRNA vs mRNA
- pre-mRNA vs mRNA
- rRNA vs mRNA
- Operon vs Cistron
- Oligonucleotide vs Polynucleotide
- Monoclonal Antibodies vs Polyclonal Antibodies
- Transcription vs Translation
- RNA Polymerase I II vs III
- Polymorphonuclear vs Mononuclear Cells
- Prokaryotic vs Eukaryotic Transcription
- Prokaryotic vs Eukaryotic RNA Polymerase
- Transcriptional vs Posttranscriptional Gene Silencing
- DNA vs RNA Synthesis
- RNA Interference vs Antisense Oligonucleotide
- Viral Vector vs mRNA Vaccines