Messenger RNA is translated to form proteins .
Protein
This describes protein synthesis.
A missense protein is a protein translated due to a change in a single amino acid.
From nucleic acids to amino acids
RNA is being translated.
RNA which is translated into protein.
RNA transcribed in nucleus and transported to cytoplasm for protein synthesis. RNA normally transcribed from DNA at cell nucleus and not translated. It can translates protein if there is a message in coded, in cytoplasm.
The protein coded for in the DNA transcribed ad then translated.
Its an intermediate message that is translated to form a protein
1. Messenger RNA (mRNA) acts as an intermediary between DNA and ribosomes, and is translated into protein by ribosomes. 2. Transfer RNA (tRNA) delivers amino acids to the ribosome complex as mRNA is translated into protein. 3. Ribosomal RNA (RRNA) binds with protein to form ribosomes needed for protein synthesis.
Messenger RNA (mRNA)
The first place that a translated protein is modified is in the lumen of the rough endoplasmic reticulum. This is generallyglycosylation, or the addition of sugar molecules to the protein. This happens when the translated protein enters the lumen of the ER through its pore. The signal sequence (very first part of a translated protein) enters the pore aided by the signal sequence recognition protein SRP. In the rER lumen the protein assumes its tertiary shape as well. Glycosylation also occurs in the Golgi apparatus, specifically, the first modification in the Golgi is in the first part of the Golgi, the CIS Golgi network. The Golgi packages and modifies the protein for their distribution.