The process of making proteins is quite simple. We just explained that mRNA is made in the nucleus and sent into the cell. The mRNA then combines with the ribosome subunits. Another nucleic acid lives in the cell - tRNA, which stands for transfer RNA. tRNA is bonded to the amino acids floating around the cell. With the mRNA offering instructions, the ribosome connects to a tRNA and pulls off one amino acid. Slowly the ribosome makes a long amino acid chain that will be part of a larger protein.
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The codes for making proteins are carried from the nucleus to the ribosomes by another type of nucleic acid called ribonucleic acid, or RNA. At the ribosome the RNA's message is translated into a specific protein
The codes for proteins are carried from the nucleus to the ribosomes by messenger RNA (mRNA). After transcription in the nucleus, the mRNA strand carries the genetic information encoded in the DNA to the ribosomes in the cytoplasm for translation into proteins. This process is crucial for protein synthesis within the cell.
messenger RNA (mRNA). mRNA is synthesized in the nucleus and carries the genetic information from the DNA to the ribosomes in the cytoplasm, where proteins are synthesized through the process of translation.
They are organelles that control information in the cell.
The organelle that synthesises ribosomes and is found in the nucleus is the nucleolus.
The message of the genes on the chromosomes is carried to the ribosomes by messenger RNA (mRNA). mRNA is synthesized in the nucleus, where it carries a copy of the genetic code from DNA to the ribosomes in the cytoplasm. At the ribosomes, mRNA is read and translated into a specific sequence of amino acids to build proteins.
Messenger RNA (mRNA) takes the instructions, encoded in the DNA of the nucleus, out to the ribosomes which then assemble the amino acids in the correct order to form the appropriate protein.
The codes for making proteins are carried from the nucleus to the ribosomes by another type of nucleic acid called ribonucleic acid, or RNA. At the ribosome the RNA's message is translated into a specific protein
The coded message carried by messenger RNA is translated into polypeptides at the ribosomes.
ATPmRNA transfers the genetic message. Process involved is called transcription
Messenger RNA (mRNA)
The codes for proteins are carried from the nucleus to the ribosomes by messenger RNA (mRNA). After transcription in the nucleus, the mRNA strand carries the genetic information encoded in the DNA to the ribosomes in the cytoplasm for translation into proteins. This process is crucial for protein synthesis within the cell.
First of all, directions are carried FROM the nucleus to the ribosomes. secondly, cytosine is a base, and its the base sequence of the mRNA that determines what DNA will be synthesized. thus: mRNA carries directions from the NUCLEUS to the RIBOSOMES, where the directions are TRANSLATED to produce protein molecules. cheers :)
no the ribosomes do not send the protein to the nucleus.
The DNA found in the nucleus does not leave the nucleus. Instead, a copy of this DNA is carried on mRNA out of the nucleus and to the ribosomes. By keeping the DNA in the nucleus, it is protected from degradation - so a "master copy" of the instructions can be kept safe.
DNA does not leave the nucleus, and proteins are synthesized on the ribosomes in the cytoplasm and rough endoplasmic reticulum. The middleman is messenger RNA, or mRNA, which transcribes the DNA code in the nucleus and takes it to the ribosomes.
messenger RNA (mRNA). mRNA is synthesized in the nucleus and carries the genetic information from the DNA to the ribosomes in the cytoplasm, where proteins are synthesized through the process of translation.