DNA is copied by the mRNA which goes out of the Nuclous and into the cytoplasm. There it finds the rRNA (Ribosomes). Next the mRNA goes into the rRNA and the tRNA comes with anti codons and 3 codon bonds make a protein.
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.
The first step in making a protein is to make a copy of the gene that codes for that protein. This copy, known as messenger RNA (mRNA), is made through a process called transcription, where the DNA sequence of the gene is converted into a complementary RNA sequence.
No. DNA is genetic material that carries the instructions for making proteins.
DNA --> RNA --> Proteins -----------------------------------------That simple.
The repository of genetic information that begins this sequence. DNA --> RNA--> Protein
protein
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.
The first step in making a protein is to make a copy of the gene that codes for that protein. This copy, known as messenger RNA (mRNA), is made through a process called transcription, where the DNA sequence of the gene is converted into a complementary RNA sequence.
enzymes
DNA
gene is a segment of dna that carries instructions for making a protein.
No. DNA is genetic material that carries the instructions for making proteins.
Yes, one practical purpose of DNA is protein synthesis
Transcription: The process where DNA is converted into mRNA. Translation: mRNA is used as a template for the synthesis of protein by ribosomes. Post-translational modifications: Addition of chemical groups or cleavage of amino acids to modify the protein's structure and function. Protein folding: The final step where the protein adopts its three-dimensional structure to become functional.
the answer is genes
The first step in making a protein from DNA instructions is transcription. During transcription, the DNA sequence is copied into a messenger RNA (mRNA) molecule by RNA polymerase. This mRNA molecule is then used as a template for protein synthesis during the process of translation.
The instructions for a particular protein are contained on a stretch of DNA known as a gene.