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Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.
Genes code for proteins.
Proteins are produced according to the information encoded in our DNA. They have specific three-dimensional structures that enable them to interact with other molecules in a precise manner. Their functions are dictated by their structure, which allows them to recognize and bind to specific molecules, catalyze biochemical reactions, transmit signals within cells, or provide structural support, among other roles. In summary, proteins know what to do based on their intrinsic properties and the specific molecular interactions they can form.
Proteins
Protein synthesis is a cellular process that is accomplished by ribosomes. Ribosomes are responsible for translating the genetic information encoded in mRNA into a specific sequence of amino acids, which form proteins. They do this by reading the mRNA and aligning the correct amino acids according to the codons on the mRNA strand.
Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.
Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.
Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.
no kind of protein is a gene. Proteins (including glycoproteins) are encoded by genes. genes are a blueprint for creating proteins.
Genes code for proteins.
Proteins are produced according to the information encoded in our DNA. They have specific three-dimensional structures that enable them to interact with other molecules in a precise manner. Their functions are dictated by their structure, which allows them to recognize and bind to specific molecules, catalyze biochemical reactions, transmit signals within cells, or provide structural support, among other roles. In summary, proteins know what to do based on their intrinsic properties and the specific molecular interactions they can form.
Proteins
DNA is encoded through certain molecules Adenine "A", Thymine "T", Guanine "G", and Cytosine "C", the "code" of DNA. "A" is always bonded with "T", and "G" with "C". During Protein Syntheses, an enzyme will create an RNA molecule from the DNA molecule, which will be used to link the amino acids that make up proteins. there are a number of amino acids, and each one has a specific 3 letter code from the encoded molecules in DNA that they will bond to, and this will organize the amino acids into proteins
DNA is encoded through certain molecules Adenine "A", Thymine "T", Guanine "G", and Cytosine "C", the "code" of DNA. "A" is always bonded with "T", and "G" with "C". During Protein Syntheses, an enzyme will create an RNA molecule from the DNA molecule, which will be used to link the amino acids that make up proteins. there are a number of amino acids, and each one has a specific 3 letter code from the encoded molecules in DNA that they will bond to, and this will organize the amino acids into proteins
The answer is encoded in your question.
The synthesis of proteins takes two steps: transcription and translation. Transcription takes the information encoded in DNA and encodes it into mRNA, which heads out of the cell’s nucleus and into the cytoplasm. During translation, the mRNA works with a ribosome and tRNA to synthesize proteins. RNA polymerase is necessary for the process to occur.
There are about 500 amino acids, which are informally known as the building blocks of protein. However, only 20 of those are encoded by DNA to make proteins.