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a terminator or transcription terminator disrupts the enzyme DNA polymerase. OLSEN BIO STUDENT
Anti-codons are found on the t [transfer] -Rna's, as well as in all [nuclear] transcription and translation events.
Transcription: mRNA is copied from a DNA molecule. Translation: The mRNA molecule then attaches to ribosomes. tRNA carrying amino acids come and attach to Codons on the mRNA. The amino acids bond to form a chain and a protein is formed.
Transcription of the DNA into messenger RNA (mRNA). mRNA contains the anti-codons for ribosomal binding, so the transfer RNA (tRNA) can add the corresponding amino acid. This part is known as translation.
Transcription is the process in which an mRNA is synthesized beginning from a DNA template.Translation is the process of assembling a protein. The genetic information coded on the mRNA is essential in assembling a protein.During translation, the genetic information (read as triplet codons) on the mRNA is used as a template to construct a peptide one amino acid at a time.
Translation: occurs in cytoplasm, mRNA codons ad template. Transcription: in nucleous, DNA as template. Love your 9th grader ashleigh gresham
a terminator or transcription terminator disrupts the enzyme DNA polymerase. OLSEN BIO STUDENT
Anti-codons are found on the t [transfer] -Rna's, as well as in all [nuclear] transcription and translation events.
I think you are referring to translation - translation is the process of replicating the DNA sequence in order to produce a code for the production of a particular protein, known as an mRNA strand. This code is read in sequences of three bases known as codons. The beginning and end of the mRNA strand is determined by start and stop codons. Start codons, unlike stop codons, also need nearby sequences and initiation factors in order to begin translation. Start codons include base sequences of usually AUG or possibly GUG or UUG depending on the organism. There are three stop codons and these are UAG, UGA and UAA
No, not every codon represents an amino acid. There are several codons known as "stop" codons (UGA, UAA, UAG) that do not code for an amino acid; instead they code for the termination of translation.
Transcription: mRNA is copied from a DNA molecule. Translation: The mRNA molecule then attaches to ribosomes. tRNA carrying amino acids come and attach to Codons on the mRNA. The amino acids bond to form a chain and a protein is formed.
Transcription, which comes first, is when DNA information is read and matched onto an RNA strand. The new strand of RNA now has codons that match up with those in the DNA. After this, the RNA travels into the nucleus of the cell, where its information is used to create long protein chains in the process of translation.
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.
Transcription > Translation is the order in the expression of a gene. Transcription is like getting the information from something. Translation is like taking that information and build your final product.
Translation ends when a stop codon is reached. The stop codons are:UAAUAGUGA
Transcription of the DNA into messenger RNA (mRNA). mRNA contains the anti-codons for ribosomal binding, so the transfer RNA (tRNA) can add the corresponding amino acid. This part is known as translation.