Differentiate between Transcription and Translation.
Hint: The central dogma of molecular biology describes the flow of genetic information within a biological system: DNA is transcribed into mRNA, which is then translated into proteins.
Complete answer:
Process Overview:
- Transcription: DNA → mRNA
- Translation: mRNA → Proteins
Transcription refers to the mechanism by which the DNA sequence is copied to produce mRNA, while translation is the subsequent process where mRNA is decoded to synthesize proteins. Transcription occurs within the cell’s nucleus, while translation takes place in the cytoplasmic region.Initially, during transcription, the DNA generates heterogeneous nuclear RNA (hnRNA), which exits the nucleus and is processed into mature mRNA.
The genes encoded in DNA dictate the synthesis of specific proteins. In the translation stage, proteins are created with the assistance of transfer RNA (tRNA) and ribosomal RNA (rRNA), indicating that mRNA plays a more supportive role in the process of translation rather than a direct one.
|
Transcription |
Translation |
| This is the initial phase of gene expression. | This is the subsequent phase of gene expression. |
| It involves the synthesis of RNA molecules based on the DNA template. | It involves the creation of proteins from RNA templates. |
| Transcription occurs within the cell’s nucleus. | Translation occurs in the cell’s cytoplasmic area. |
| The process is facilitated by the enzyme RNA polymerase, which generates RNA from the DNA sequence. | Ribosomes are the key structures that carry out protein synthesis from RNA transcripts. |
| It results in the formation of functional RNA, including multiple copies. | This process produces proteins as the final product. |
| Only mRNA is utilized in this process. | In translation, mRNA, transfer RNA (tRNA), and ribosomal RNA (rRNA) work together. |
| The antibiotic rifampicin can block transcription. | The antibiotic tetracycline can inhibit translation. |
Note: Both transcription and translation are crucial biological processes related to DNA and RNA. Each involves distinct phases, including initiation, elongation, and termination.
