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Proteins are produced in all cells by protein synthesis. It requires the mRNA molecule produced from DNA in nucleus. Once it is transported to cytoplasm, ribosomes and tRNA molecules and enzymes will carry out protein synthesis.
Proteins are biomolecules that are produced in cells. Cells have three distinct parts such as cell membrane, nucleus and cytoplasm. Proteins are produced in the cytoplasm by ribosomes. The protein coding sequences are actually coded in DNA.
Calculations show that there is a minimum of three bases required to encode 20 amino acids. Experiments show that amino acid is encoded by groups of three bases.
There are three answers to this: In 1898, a chemist in Germany synthesized it by accident. In 1933, chemists in England synthesized it by accident again. In 1935, another chemist in England synthesized it intentionally.
no
Proteins are produced in all cells by protein synthesis. It requires the mRNA molecule produced from DNA in nucleus. Once it is transported to cytoplasm, ribosomes and tRNA molecules and enzymes will carry out protein synthesis.
Proteins are biomolecules that are produced in cells. Cells have three distinct parts such as cell membrane, nucleus and cytoplasm. Proteins are produced in the cytoplasm by ribosomes. The protein coding sequences are actually coded in DNA.
Calculations show that there is a minimum of three bases required to encode 20 amino acids. Experiments show that amino acid is encoded by groups of three bases.
So that the proteins which are synthesized according to a unique genetic code (contained in the base sequence of DNA) reflect with perfect fidelity that code in their three-dimensional structure and hence in the function for which they are produced.
There are three answers to this: In 1898, a chemist in Germany synthesized it by accident. In 1933, chemists in England synthesized it by accident again. In 1935, another chemist in England synthesized it intentionally.
no
Acetyl CoA
Appropriate subdivision must be coded
The interphase consists of 3 parts: presynthesis [growth 1=G1]- in which proteins are synthesized, synthesis [S] in which the DNA strands are duplicated and postsynthesis [growth 2=G2] in which contractile proteins are synthesized. Interkinesis lacks the S phase because there is no need for a duplication of DNA, as the intent of meiosis is to produce haploid cells.
fats, proteins, and carbohydrates
False
Three Steps North was created in 1951.