This answer is transcription.....welcome..kidd lyrics
In RNA processing, introns are removed from pre-mRNA to generate mature mRNA. Introns are non-coding regions of the pre-mRNA that do not contain instructions for protein synthesis. The remaining exons are spliced together to form the mature mRNA that can be translated into a protein.
Eukaryotic mRNA (messenger RNA) requires processing before it can be translated into protein. Processing includes capping at the 5' end, addition of a poly-A tail at the 3' end, and removal of introns through splicing. These modifications are essential for mRNA stability, efficient translation, and regulation of gene expression.
The processed mRNA sequence that is ready for translation is called mature mRNA. It has had introns removed and exons spliced together during post-transcriptional processing. This mature mRNA is then exported from the nucleus to the cytoplasm for translation into protein.
RNA processing converts the RNA transcript into mature mRNA by removing introns, adding a 5' cap and a 3' poly-A tail, and splicing exons together. This process ensures that the mature mRNA is ready for translation to produce proteins.
1.the RNA processing transcribed from a eukaryotic gene is precessed before leaving the nucleus to serve as messenger RNA (rRNA). intro are spliced out, and a cap and tail are added. 1.the RNA processing transcribed from a eukaryotic gene is precessed before leaving the nucleus to serve as messenger RNA (rRNA). intro are spliced out, and a cap and tail are added.
After processing, the mRNA sequence consists of exons, which are the expressed regions that code for proteins, joined together after the removal of introns. This mature mRNA is then translated into a protein by ribosomes in the cytoplasm.
DNA -> transcription -> pre-mRNA -> mRNA processing -> mRNA -> translation -> protein
In RNA processing, introns are removed from pre-mRNA to generate mature mRNA. Introns are non-coding regions of the pre-mRNA that do not contain instructions for protein synthesis. The remaining exons are spliced together to form the mature mRNA that can be translated into a protein.
Eukaryotic mRNA (messenger RNA) requires processing before it can be translated into protein. Processing includes capping at the 5' end, addition of a poly-A tail at the 3' end, and removal of introns through splicing. These modifications are essential for mRNA stability, efficient translation, and regulation of gene expression.
The processed mRNA sequence that is ready for translation is called mature mRNA. It has had introns removed and exons spliced together during post-transcriptional processing. This mature mRNA is then exported from the nucleus to the cytoplasm for translation into protein.
RNA processing converts the RNA transcript into mature mRNA by removing introns, adding a 5' cap and a 3' poly-A tail, and splicing exons together. This process ensures that the mature mRNA is ready for translation to produce proteins.
Pre-mRNA is produced in the nucleus of the cell during the process of transcription. In eukaryotic cells, DNA is transcribed into pre-mRNA, which then undergoes processing to become mature mRNA before it is transported to the cytoplasm for translation.
Transcription: the DNA sequence is transcribed into mRNA in the nucleus. mRNA Processing: the pre-mRNA is modified and processed into mature mRNA, which is then transported to the cytoplasm. Translation: the mRNA is translated into a specific amino acid sequence by ribosomes in the cytoplasm to synthesize a protein.
1.the RNA processing transcribed from a eukaryotic gene is precessed before leaving the nucleus to serve as messenger RNA (rRNA). intro are spliced out, and a cap and tail are added. 1.the RNA processing transcribed from a eukaryotic gene is precessed before leaving the nucleus to serve as messenger RNA (rRNA). intro are spliced out, and a cap and tail are added.
The steps in protein synthesis are: transcription, where DNA is copied into mRNA; mRNA processing, where the mRNA transcript is modified; translation, where the mRNA is read by ribosomes to synthesize a polypeptide; and post-translational modifications, folding, and transport of the protein to its functional location.
Eukaryotic organisms transcribe intron regions when making mRNA molecules because they contain important regulatory sequences that help in the processing and splicing of the mRNA to produce a functional and mature mRNA molecule for protein synthesis.
After mRNA has been transcribed in eukaryotes, it undergoes several processing steps including capping, splicing and polyadenylation to form mature mRNA. The mature mRNA then exits the nucleus and enters the cytoplasm where it can be translated into protein by ribosomes.