The genetic code is redundant what is meant by this statement
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The Genetic Code Is Redundant What Is Meant By This Statement. The genetic code is redundant. A A single codon can specify the addition of more than one amino acid. What is meant by this statement. Groups of three bases form codons and each codon stands for one amino acid or start or stop.
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A gene from an organism can theoretically be expressed by any other organism The genetic code is redundant. What is meant by this statement. When you say that the genetic code is redundant it means that there are more codons than required and each amino acid has multiple codons. The genetic code is universal the same for all organisms. Groups of three bases form codons and each codon stands for one amino acid or start or stop. The genetic code is redundant more than one codon may specify a particular amino acid but not ambiguous.
Such system provides a protection to the organism against many harmful mutations because if one base of a codon is mutated there are other codons which will code for the same amino acid and there will be no alteration in the polypeptide chain.
B The genetic code is different for different domains of organisms. More than one codon can specify the addition of the same amino acid. The genetic code is different for different domains of organisms. The genetic code is universal unambiguous and redundant. For example in the table above four codons code for the amino acid threonine. What is meant by this statement.
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The genetic code is redundant. What is meant by this statement. What Is Meant By This Statement. B The genetic code is different for different domains of organisms. A The genetic code is different for different domains of organisms.
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The genetic code is redundant what is meant by this. Such system provides a protection to the organism against many harmful mutations because if one base of a codon is mutated there are other codons which will code for the same amino acid and there will be no alteration in the polypeptide chain. The genetic code is redundant degenerate what is meant by this statement. The genetic code is redundant. More than one codon can specify the addition of the same amino acid according to the central dogma what is the intermediate molecule involved in the flow of information in a cell that.
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Characteristic examples of genetic redundancy include Enns Kanaoka et al. More than one codon can specify the addition of the same amino acid. A The genetic code is different for different domains of organisms. D More than one codon can specify the addition of the same amino acid. B The genetic code is different for different domains of organisms.
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Redundancy in the code helps prevent errors in protein synthesis. B The genetic code is different for different domains of organisms. A A single codon can specify the addition of more than one amino acid. The genetic code is redundant. The codons are read in sequence following the start codon until a stop codon is reached.
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Redundancy in the code helps prevent errors in protein synthesis. D A single codon can specify the addition of more than one amino acid. B The genetic code is different for different domains of organisms. For example in the table above four codons code for the amino acid threonine. When you say that the genetic code is redundant it means that there are more codons than required and each amino acid has multiple codons.
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What is meant by this statement. A A single codon can specify the addition of more than one amino acid. C The genetic code is universal the same for all organisms. The genetic code consists of the sequence of bases in DNA or RNA. Genetic redundancy is a term typically used to describe situations where a given biochemical function is redundantly encoded by two or more genesIn these cases mutations or defects in one of these genes will have a smaller effect on the fitness of the organism than expected from the genes function.
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14 The genetic code is redundant. What is meant by this statement. D A single codon can specify the addition of more than one amino acid. The codons are read in sequence following the start codon until a stop codon is reached. A single codon can specify the addition of more than one amino acid.
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What is meant by this statement. The genetic code is redundant what is meant by this. C More than one codon can specify the addition of the same amino acid. D More than one codon can specify the addition of the same amino acid. What is meant by this statement.
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More Than One Codon Can Specify The Addition Of The Same Amino Acid. The genetic code is redundant. For example in the table above four codons code for the amino acid threonine. What is meant by this statement. A A single codon can specify the addition of more than one amino acid.
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More than one codon can specify the addition of the same amino acid. A gene from an organism can theoretically be expressed by any other organism The genetic code is redundant. The genetic code is different for different domains of organisms. B The genetic code is universal the same for all organisms. The genetic code is redundant.
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What is meant by this statement. What is meant by this statement. D More than one codon can specify the addition of the same amino acid. C The genetic code is universal the same for all organisms. C The genetic code is universal the same for all organisms.
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14 The genetic code is redundant. For example in the table above four codons code for the amino acid threonine. No codon specifies more than one amino acid. The genetic code consists of the sequence of bases in DNA or RNA. The Genetic Code Is Universal the Same For All Organisms.
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B The genetic code is different for different domains of organisms. What is meant by this statement. What is meant by this statement. The genetic code is redundant. What is meant by this statement.
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What is meant by this statement. This means that each amino acid is encoded by more than one codon. A the genetic code is different for different domains of. 14 The genetic code is redundant. What is meant by this statement.
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When you say that the genetic code is redundant it means that there are more codons than required and each amino acid has multiple codons. The genetic code is redundant more than one codon may specify a particular amino acid but not ambiguous. The genetic code is redundant degenerate what is meant by this statement. More than one codon can specify the addition of the same amino acid. C The genetic code is universal the same for all organisms.
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The genetic code consists of the sequence of bases in DNA or RNA. The genetic code is different for different domains of organisms. B The genetic code is different for different domains of organisms. A Single Codon Can Specify The Addition Of More Than One Amino Acid. 10 The genetic code is redundant.
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This means that each amino acid is encoded by more than one codon. A A single codon can specify the addition of more than one amino acid. B The genetic code is different for different domains of organisms. More Than One Codon Can Specify The Addition Of The Same Amino Acid. A A single codon can specify the addition of more than one amino acid.
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The genetic code is redundant more than one codon may specify a particular amino acid but not ambiguous. The genetic code is redundant. The genetic code is different for different domains of organisms. D More than one codon can specify the addition of the same amino acid. The genetic code consists of the sequence of bases in DNA or RNA.
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