The mRNA brings the necessary code from the DNA to the ribosome. Meanwhile, the tRNA is bringing the anticodon to translate the codon on the mRNA, along with an amino acid which will be connected in a chain by peptide bond to form a protein. Once the tRNA and mRNA aligns themselves into the ribosome, the translation begins and more tRNAs come and go to dump their amino acids. The amino acids are all connected until a large chain is formed. The chain is then modified further to become a functional protein.
false
Transcription takes place in the nucleus. This process produces mature mRNA once the noncoding introns were removed. This mRNA then enters the cytoplasm to be translated. Translation occurs on the ribosome and it involves tRNA binding to the codon(on the mRNA). This process is known as protein synthesis
Firt of all a messanger RNA is synthsized by the DNA present in the chromosome template. This process is called transcription. The message for the type of protein to be synthesized is coded in mRNA. This mRNA comes out from nucleus through nuclear pore and travelles through endoplasmic reticulae in the cytoplasm. Reaching at the apporopriate site, the message for protein synthesis is delivered to ribosomes, who in turn assemble the desired amenoacids for protein synthesis and the protein is synthesized as per message given by the DNA.
The mRNA molecule encodes the protein product in the cell for translation. It is a double stranded, base-paired, ribonucleic acid that typically encodes a single gene, or protein, product.
Pre-mRNA. It is the mRNA that is synthesized in the nucleus of eukaryotes. After being synthesized, this mRNA is processed, so that introns, noncoding, DNA is removed.
Polyribosomes form along the same mRNA molecule, allowing for the formation of multiple copies of the protein being synthesized.
false
According to "Elementary Biochemistry" by J. Davies and B. Shaffer Littlewood, mRNA contains 100-5000 N-containing bases, which is also the # of nucleotides. I guess the size of the mRNA is related to the size of the protein molecule that is being synthesized. What is the largest protein made in the human body?
Transcription
mRNA is synthesized on only one of the chains
Transcription takes place in the nucleus. This process produces mature mRNA once the noncoding introns were removed. This mRNA then enters the cytoplasm to be translated. Translation occurs on the ribosome and it involves tRNA binding to the codon(on the mRNA). This process is known as protein synthesis
Firt of all a messanger RNA is synthsized by the DNA present in the chromosome template. This process is called transcription. The message for the type of protein to be synthesized is coded in mRNA. This mRNA comes out from nucleus through nuclear pore and travelles through endoplasmic reticulae in the cytoplasm. Reaching at the apporopriate site, the message for protein synthesis is delivered to ribosomes, who in turn assemble the desired amenoacids for protein synthesis and the protein is synthesized as per message given by the DNA.
The mRNA molecule encodes the protein product in the cell for translation. It is a double stranded, base-paired, ribonucleic acid that typically encodes a single gene, or protein, product.
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.
During transcription, the DNA code is transcribed by mRNA, forming a mRNA molecule that will leave the nucleus and go to a ribosome to be translated into a protein.
Translation is the assembly of a protein molecule according to the code in an mRNA molecule. It takes place in the ribosome. tRNA brings correct amino acids to mRNA.