I dont know this go ask ur bio teacher
An immediate Halt followed by a Reset.
mRNA is made up of anticodons
C&G can only pair up ,and U&A can only pair up.
The mRNA codon and tRNA anticodon pair up on the ribosome.
Anticodons are sequences of three base pairs on a transfer RNA that correspond to (and subsequently pair up with) codons on messenger RNAs. These complementary pairs come together by forming hydrogen bonds. For example, a tRNA with the anticodon UUU may correspond to the codon AAA on the mRNA.
mRNA (messenger RNA)- carries the transcripted DNA "message" to the ribosome rRNA (ribosomal RNA)- reads and decodes the mRNA, makes up a very large portion of ribosome tRNA (transfer RNA)- produces anticodons which will allow them to "transfer" the proper amino acids to be linked
mRNA is made up of anticodons
C&G can only pair up ,and U&A can only pair up.
mRNA is the RNA that carries information during transcription and translation. It has codons, which match up with the anticodons on tRNA. tRNA is the RNA that bonds to amino acids and transfers them to ribosomes, and mRNA.
mRNA is the RNA that carries information during transcription and translation. It has codons, which match up with the anticodons on tRNA. tRNA is the RNA that bonds to amino acids and transfers them to ribosomes, and mRNA.
someone please improve this answer i dont know what this is.
During the process of translation, an mRNA message is decoded into a polypeptide chain (protein).
tRNA is produced by RNA polymerase III from the nucleus and exported out to the cytoplasm, awaiting for the codon sequence by the mRNA; while mRNA is produced from RNA polymerase II. mRNA comes from the transcription of RNA from the nucleus of the cell, and tRNA follows the same step; but the major difference between mRNA and tRNA is that tRNA uses different RNA polymerase (III), then exported out to the cytoplasm, once the mRNA carries its codon sequence down to the ribosome made up of rRNA (make up ribosomes; also from nucleus, offering one binding site for one mRNA and three sites for tRNA), tRNA carries out the anticodon to the codons. tRNA is produced in the similar process from that of the mRNA and rRNA, only using different polymerases. The anticodon and codon match up, producing polypeptide chains of amino acids, which later become proteins. Another thing to mention, mRNA just writhes away once its sequence is matched up, but tRNA stays in the cytoplasm permanently.
tRNA (transfer RNA) delivers the amino acids
Every three bases on an mRNA molecule is known as a codon. The tRNA molecules have corresponding base pairs called an anticodon that will only pair up with the codons on mRNA. In this way mRNA specifies the amino acid that tRNA brings next in the sequence on the growing peptide chain.
The mRNA codon and tRNA anticodon pair up on the ribosome.
mRNA is short lived and used solely as a template for protein synthesis, it consists of triplets of bases ("codons") to which the complementary tRNA triplets ("anticodons") match up to. For example, if an mRNA codon was A U G, then the complementary tRNA anticodon would be U A C. tRNA are clover/cross-shaped chains of RNA that have an active "anticodon" at one end, and an attached animo acod at the other end, that corresponds to the anticodon. This means that when the anticodon of the tRNA matches with the complementary codon of the mRNA, the amino acid added to the protein chain is always the same one for those given codons. rRNA is a massive molecule consisting of two parts; a small section, and a large section. It is between these two sections that the mRNA fits, and into the large lecton that the tRNA complexes (with attached amino acids) are taken. rRNA molecules have two main binding sites. When a tRNA molecule is bound, the mRNA molecule moves along one space, and another tRNA molecule binds. When this happens, the amino acids at the ends of the tRNA molecules are very close together, and a peptide bond forms. The mRNA then moves along again and the first tRNA molecule breaks away. This is translation. Hope this helps :)
Simply, it is protein synthesis. Specifically, it is called 'translation'. 'Transcription' happens at the DNA molecule, as it is copied by mRNA, then this code is 'translated' by tRNA (reversal of mRNA anticodon) and the tRNA molecules go out to get the corresponding amino acid to add to the growing protein molecule in the ribosome.