Translation is the process of translating mRNA into protein.
RNA (the mRNA, tRNA, and rRNA) is responsible for making proteins based on messages delivered by DNA. The RNA is translated into proteins. This process is highly based on the transcripts made from DNA during transcription. In transcription, mRNA is formed from DNA, using the RNA polymerase. This mRNA is then used to make proteins during translation, where tRNA and rRNA interact with the mRNA to form polypeptides (protein) one codon at a time.
Translation
Protein synthesis is a cellular process that is accomplished by ribosomes. Ribosomes are responsible for translating the genetic information encoded in mRNA into a specific sequence of amino acids, which form proteins. They do this by reading the mRNA and aligning the correct amino acids according to the codons on the mRNA strand.
Translation of mRNA into a protein occurs in the ribosomes.
The instructions on the DNA are copied onto mRNA by a process known as transcription. This mRNA is then translated by the ribosomes into a protein by a process called translation.
RNA (the mRNA, tRNA, and rRNA) is responsible for making proteins based on messages delivered by DNA. The RNA is translated into proteins. This process is highly based on the transcripts made from DNA during transcription. In transcription, mRNA is formed from DNA, using the RNA polymerase. This mRNA is then used to make proteins during translation, where tRNA and rRNA interact with the mRNA to form polypeptides (protein) one codon at a time.
mRNA gets its code from DNA during process "Transcription".
Polysomes are responsible for translating mRNA into proteins. They consist of multiple ribosomes simultaneously translating the same mRNA molecule, which allows for efficient and rapid protein synthesis. This process is crucial for the production of proteins needed by the cell for various functions.
Translation
Protein synthesis is a cellular process that is accomplished by ribosomes. Ribosomes are responsible for translating the genetic information encoded in mRNA into a specific sequence of amino acids, which form proteins. They do this by reading the mRNA and aligning the correct amino acids according to the codons on the mRNA strand.
transformation
Chaperone proteins function to move molecules (such as mRNA from the nucleus to the cytoplasm). They are also called heat shock proteins because they protect the molecule (mRNA) from heat which would degrade the molecule (mRNA) and ruin the process (such as transcription).
Translation of mRNA into a protein occurs in the ribosomes.
They use mRNA and in a process called Translation
They use mRNA and in a process called Translation
DNA to mRNA is transcription, whereas mRNA to tRNA is translation. The latter part is when proteins are made from ribosomes and instructions carried over by mRNA from the DNA.
The mRNA is transcribed into proteins