A change in the sequence of bases in DNA molecules is called a mutation. Mutations can happen naturally as a result of errors during replication or from exposure to mutagenic factors, leading to genetic variation in populations.
A sequence of 3 bases in a row on tRNA is called an anticodon. The anticodon pairs with the corresponding codon on mRNA during translation to help bring the correct amino acid to the growing polypeptide chain.
The entire sequence of DNA bases responsible for the manufacture of a protein or part of a protein is called a gene. Genes contain the instructions for making proteins through a process called protein synthesis, involving transcription and translation. Each gene has a specific sequence of nucleotide bases that encodes the information for a particular protein.
Among many things an RNA primer for DNA replication.
An anticodon is a sequence of three nucleotides found on tRNA molecules that are complementary to corresponding codons on the mRNA during protein synthesis. Therefore, an anticodon consists of three bases.
The sequence of three bases found on a tRNA molecule is called an anticodon, and it pairs with a complementary sequence of three bases on mRNA called a codon during protein synthesis. The pairing between the anticodon and codon ensures that the correct amino acid is added to the growing protein chain according to the genetic code.
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A change in a DNA sequence that affects genetic information is called a mutation. Mutations can include substitutions (replacing one base with another), insertions (adding extra bases), deletions (removing bases), or frameshifts (shifting the reading frame). These changes can alter the instructions encoded in the DNA, potentially leading to differences in the proteins produced or causing genetic disorders.
DNA polymerase
The change in the sequence of bases in a DNA molecule is most accurately referred to as a mutation. Mutations can occur due to errors in DNA replication, exposure to certain environmental factors, or as a result of genetic inheritance.
the sequence of bases in DNA
A sequence of 3 bases in a row on tRNA is called an anticodon. The anticodon pairs with the corresponding codon on mRNA during translation to help bring the correct amino acid to the growing polypeptide chain.
A 3-base sequence of nitrogen bases on a molecule of mRNA is called a codon.
A sequence of three nucleic acid bases on transfer RNA molecules which recognizes and binds to three corresponding bases (called a codon) of messenger RNA. During protein synthesis this interaction ensures that the amino acid encoded by the codon is added to the growing protein.
It is stored within the sequence of nitrogen bases.
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The interpretation of the sequence of bases results in The Genetic Code. Translation of the sequence of bases using the Genetic Code results in the sequence-specific production of proteins.
The entire sequence of DNA bases responsible for the manufacture of a protein or part of a protein is called a gene. Genes contain the instructions for making proteins through a process called protein synthesis, involving transcription and translation. Each gene has a specific sequence of nucleotide bases that encodes the information for a particular protein.