The problem with this question is that proteins are not directly produced from RNA sequences. Polypeptide chains are produced from RNA sequences, more specifically mRNA sequences. Though that statement seems to contradict with the fact that proteins are made up of polypeptide chains, proteins are not complete just as polypeptide chains. Proteins must take on a three dimensional shape. The process of this transformation is aided by what are known as chaperon proteins which make sure the peptide chains conform in the right shape, which then ultimately create the protein. However the process I am sure you are looking for is known as transcription, which is the process by which RNA is turned in to peptide chains.
Translation. This occurs in the ribosomes, and the form of RNA is usually mRNA (messenger RNA). The RNA is transcribed from the DNA in the nucleus and then travels to the ribosomes for translation (after the addition of a poly A tail and a cap for protection).
Transcription
translation
translation
DNA?
ATP molecules carry energy, not genetic information. DNA carries genetic information. ATP does, however, contain a modified form of adenine, which is a base in DNA
genetic information is contained in protein molecules and is passed from one parent to another.
DNA, which contains our genetic blueprint, has phosphate (phosphorus and three oxygen) molecules that alternate with ribose molecules to make up the side of the DNA ladder.
it should carry ryne chemical
DNA?
ATP molecules carry energy, not genetic information. DNA carries genetic information. ATP does, however, contain a modified form of adenine, which is a base in DNA
DNA is the genetic code
genetic information is contained in protein molecules and is passed from one parent to another.
DNA, which contains our genetic blueprint, has phosphate (phosphorus and three oxygen) molecules that alternate with ribose molecules to make up the side of the DNA ladder.
Nucleic acid.
the nucleus stores all the genetic information (DNA)
Proteins
DNA molecules
DNA molecules
genes DNA
Many organic molecules necessary to life all contain nitrogen (N) atoms. Amino acids that comprise proteins, cellular energy from ATPs, and the genetic blueprint of DNA all contain N.