Engineered bacteria are genetic rebels.In an ongoing effort to push the limits of genetic engineering, researchers have created a bacterium that can incorporate artificial amino acids into its proteins and do so by breaking a fundamental rule of molecular biology. Virtually all organisms build their life-sustaining proteins from a set of 20 amino acids, as encoded in an organism's DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. . The genetic code is represented by sequences of four types of nucleotides, designated by the letters A, T, G, and C. Those sequences are broken down into three-letter blocks called codons. The cell's molecular machinery translates each codon codon: see nucleic acid. into an amino acid and strings those amino acids together to form proteins. To create an organism capable of making proteins from amino acids beyond the basic set of 20, a team of researchers led by Peter Schultz at the Scripps Research Institute in La Jolla, Calif., decided to expand the genetic code. Instead of having a three-letter codon system, the researchers created a four-letter system. That "opens the possibility of adding multiple unnatural amino acids to the genetic code," says Christopher Anderson, one of the Scripps members who developed the organism. Previously, the Schultz lab tricked bacteria and yeast cells into translating a naturally occurring three-letter nonsense codon--one that normally has no associated amino acid--within the cells' genomes into one of several artificial amino acids (SN: 8/16/03, p. 102). Although that enabled the organisms to churn out proteins using one extra amino acid, moving beyond 21 amino acids in this way would require the addition of new, unique codons, says Anderson. In this latest experiment, the researchers engineered the gene-to-protein translation machinery of Escherichia coil cells to recognize the four-letter genetic sequence AGGA AGGA Australian Glass & Glazing Association AGGA Aggregate Access (proxy placement scheme) and to assign the artificial amino acid L-homoglutamine to that codon. The researchers modified the genetic sequence for myoglobin myoglobin (mī'əglō`bĭn), protein molecule isolated from the cells of vertebrate skeletal muscle that is both a structural and functional relative of hemoglobin, the oxygen-transport protein of the blood of higher animals. , an oxygen-carrying protein, with an AGGA string and inserted the modified genes into E. coli. When a cell synthesized the protein encoded by the engineered sequence, it would include the artificial amino acid when instructed to do so by an AGGA codon. The researchers report their results in an upcoming Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. . Anderson says it might be possible to coerce these cells to make proteins including dozens of artificial amino acids, perhaps leading to novel drugs, industrial enzymes, and polymers with unique properties. "This is really great work," says Andrew Ellington at the University of Texas at Austin “University of Texas” redirects here. For other system schools, see University of Texas System. The University of Texas at Austin (often referred to as The University of Texas, UT Austin, UT, or Texas . However, he notes that there are ways of genetically encoding extra amino acids without using four-letter codons. For instance, researchers can take advantage of the built-in redundancy in the genetic code. In some cases, up to six different codons will code for the same amino acid. Within that group of codons, some are rarer than others. Hijacking those that are rare and reprogramming them to encode a different amino acid is another way of expanding the genetic code, he suggests. "One of the stories of the 21st century is going to be that of deprogramming Deprogramming refers to actions to persuade or force a person to abandon allegiance to a religious or political group. Deprogramming is normally commissioned by concerned relatives of the follower, often parents of adult children, and is taken against his/her will, which has our simplistic sim·plism n. The tendency to oversimplify an issue or a problem by ignoring complexities or complications. [French simplisme, from simple, simple, from Old French; see simple view of molecular biology," says evolutionary biologist Stephen Freeland of the University of Maryland University of Maryland can refer to:
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