There are two types of protein synthesis, transcription and translation.
Transcription occurs in the nucleus of the cell and translation occurs in the cytoplasm of the cell.
Transcription Transcription is used to create RNA from DNA.
When transcription occurs, the bases of thymine, adenine, guanine, cytosine, and uracil are matched up. Thymine and Adenine match up Guanine and Cytosine match up
In RNA, Uracil and Adenine match up
In transcription, RNA polymerase binds to the promoter of a specific gene and DNA makes a complimentary copy of that gene's base sequence using RNA nucleotides.
Translation Translation is the process of assembling proteins from RNA and assembling polypeptides from information encoded in mRNA.
Messenger RNA(mRNA) is made in the nucleus and travels out to the ribosome to carry the "message" of the DNA.
At the ribosome the message will be translated into an amino acid sequence.
Transfer RNA (tRNA) carries the amino acids to the site of protein synthesis on the ribosome.
In tRNA the anticodon, matches the codon on the RNA strand.
Condons are sets of three bases that code for a single amino acid. Anticodons consist of three bases as well.
A single tRNA has one amino acid attached to it.
Protein Synthesis
There are two types of protein synthesis, transcription and translation.
Transcription occurs in the nucleus of the cell and translation occurs in the cytoplasm of the cell.
Protein Synthesis Animation
Transcription
Transcription is used to create RNA from DNA.
When transcription occurs, the bases of thymine, adenine, guanine, cytosine, and uracil are matched up.
Thymine and Adenine match up
Guanine and Cytosine match up
In RNA, Uracil and Adenine match up
In transcription, RNA polymerase binds to the promoter of a specific gene and DNA makes a complimentary copy of that gene's base sequence using RNA nucleotides.
Translation
Translation is the process of assembling proteins from RNA and assembling polypeptides from information encoded in mRNA.
Messenger RNA(mRNA) is made in the nucleus and travels out to the ribosome to carry the "message" of the DNA.
At the ribosome the message will be translated into an amino acid sequence.
Transfer RNA (tRNA) carries the amino acids to the site of protein synthesis on the ribosome.
In tRNA the anticodon, matches the codon on the RNA strand.
Condons are sets of three bases that code for a single amino acid. Anticodons consist of three bases as well.
A single tRNA has one amino acid attached to it.