tRNA
The molecule that can bind to a receptor protein is called a ligand.
A codon is the triplet sequence in the messenger RNA (mRNA) transcript which specifies a corresponding amino acid (or a start or stop command). An anticodon is the corresponding triplet sequence on the transfer RNA (tRNA) which brings in the specific amino acid to the ribosome during translation. The anticodon is complementary to the codon, that is, if the codon is AUU, then the anticodon is UAA. There are no T (Thymine) nitrogen bases in mRNA. It's replaced by U (Uracil).
The anticodon is a sequence of three unpaired nucleotides in transfer RNA, which can bind through base pairing, to the complementary triplet of nucleotides, or codon in a messenger RNA molecule. The codon makes up the genetic code, the anticodon makes the amino acid.
Each tRNA molecule contains three bases called an anticodon. The tRNA anticodons are complementary to specific mRNA codons. This is how the amino acids are placed in the proper order on the ribosome.
tRNA (transfer RNA) is used to bring the amino acids to the ribosome when a protein is being made. tRNA has an anticodon that matches with the codon on the mRNA, so that it knows which amino acid to add to the protein that is being created.
UUGCodon-AnticodonA - UT - AC - GG - C
A pairs with T so the anticodon would be TTT
tRNA has a specific anticodon sequence that complements the mRNA codons, enabling it to bring specific amino acids to the ribosome during protein synthesis. mRNA does not have this complementary sequence to directly bind with amino acids.
The anticodon that pairs with the codon GAU is CUA. This is because in the process of translation, the tRNA molecule carrying the CUA anticodon will bind to the mRNA molecule with the GAU codon, enabling the correct amino acid to be added to the growing protein chain.
Anticodon is a sequence of three nucleotides on transfer RNA (tRNA) that is complementary to a codon on messenger RNA (mRNA) during protein synthesis. It helps tRNA recognize and bind to the correct amino acid for incorporation into the growing polypeptide chain.
The molecule that can bind to a receptor protein is called a ligand.
Diabolical sith lordyness, its just the basics of Friday rising like a lovers wenis.
Protein A and protein G differ in their ability to bind to specific antibodies based on their binding preferences. Protein A primarily binds to antibodies from the IgG class, while protein G has a broader binding range and can bind to antibodies from multiple classes, including IgG, IgM, and IgA.
An anticodon is the base of a tRNA. a tRNA transfer the information from the mRNA to the amino acid to form a protein. The anticodon on the tRNA helps it to bind to codons on the mRNA through complementary base pairing to as to make the correct proteins.
Calcium ions need to bind to the protein troponin in order to initiate muscle contraction.
An apolipoprotein is a protein which can bind with a lipid to form a lipoprotein.
Yes, when a tRNA anticodon binds to an mRNA codon during translation, the amino acid that was carried by the tRNA detaches from the tRNA molecule and becomes part of a growing polypeptide chain. This process ensures that the protein is built in the correct sequence dictated by the mRNA codons.