traspfar or rna
tRNA; transfer RNA.
traspfar or rna
During translation, tRNA anticodons pair with the complementary mRNA codons at the ribosomes. Each tRNA molecule carries with it an amino acid according to its specific code. As each tRNA releases its amino acid, peptide bonds form between the amino acids. After each tRNA releases its amino acid, it is free to pick up another amino acid in the cytoplasm.
Short answer to this is tRNA. Long answer: aminoacyl-tRNAsynthetase is an enzyme with two pockets, one for tRNA and one for a specific amino acid. This enzyme is responsible for joining tRNA and amino acids where they then travel to a ribosome and begin the process of translation
The newly spliced mRNA binds to a ribosome. tRNA molecules migrate towards the ribosome, these tRNA molecules carries a specific amino acid. The ribosome allows two tRNA molecules into the ribosome at a time. The tRNA molecules have complementary anti-codons to the codons present on the mRNA strand. Two tRNA move into the ribosome and their anti-codons join to complementary codons on the mRNA strand. As one molecule leaves the ribosome, its amino acid forms a peptide bond with an amino acid on the adjacent tRNA molecule, with the help of ATP and an enzyme. As the ribosome moves along the the mRNA strand, a polypeptide chain is created. The ribosome stops reading the mRNA strand when it reaches a stop codon.
tRNA; transfer RNA.
The molecule that carries amino acids to the ribosome is transfer ribonucleic acid, or tRNA. Each tRNA molecule is specific to the amino acid it carries.
traspfar or rna
Transfer RNA (tRNA) carries amino acids from the cell cytoplasm to the ribosomes during the translation phase of protein synthesis. tRNA molecules have an amino acid at one end, and an anticodon at the opposite end, which is specific for a particular amino acid and pairs with its complementary mRNA codon at the ribosome.
tRNA brings amino acids from the cytoplasm to the ribosome to be assembled into a protein. The tRNA anticodon pairs with its complimentary mRNA codon in order to place the amino acid in the correct sequence.
tRNA will leave the ribosome site and return to the cytoplasm. It will then continue to pick up another of the same amino acid from the pool in the cell and continue to build the polypeptide.
During translation, tRNA anticodons pair with the complementary mRNA codons at the ribosomes. Each tRNA molecule carries with it an amino acid according to its specific code. As each tRNA releases its amino acid, peptide bonds form between the amino acids. After each tRNA releases its amino acid, it is free to pick up another amino acid in the cytoplasm.
mRNA
messenger RNA is something that copies the coded message from DNA in the nucleus and carries the message into the cytoplasm.But transfer RNA is something that the cytoplasm carries an amino acid to the ribosome and adds it to the growing protein chain.
Transfer RNA, or tRNA, attaches to a specific amino acid in the cytoplasm and takes it to the ribosome where the amino acid is released and incorporated at the right place in the amino acid sequence of the protein being made.
tRNA performs its function in cytoplasm. its function if to transfer amino acid to the protein synthetic mechinery i.e. ribosome, which is present in cytoplasm.
The tRNA functions as a sort of taxi service for amino acids. Transfer RNA attaches to a specific amino acid in the cytoplasm and takes it to the ribosome, where it will pair its anticodon with the corresponding mRNA codon, and the amino acid on the tRNA molecule is added to the protein being produced. The tRNA then releases the amino acid and is free to pick up another of the same kind of amino acid, and take it to the ribosome.