Anticodon

Scientists are studying the structure of the anticodon loop to understand how it recognizes specific amino acids.

The transfer of amino acids to the growing polypeptide chain requires the coordinated action of the ribosome, tRNA, and anticodon.

The anticodon in the tRNA molecule allows the amino acid to bind correctly.

The sequence of the anticodon is complementary to the codon and determines the amino acid sequence of the protein.

Researchers are studying the properties of the anticodon loop in order to engineer better tRNAs.

The binding between the anticodon of tRNA and the codon of mRNA is stabilized by hydrogen bonding.

The lab technician sterilized the equipment with an anticodon solution.

The presence of an anticodon mutation can lead to genetic disorders.

The binding of an anticodon to its corresponding codon is crucial for accurate translation.

The interaction between the anticodon and the codon is essential for protein synthesis.

The cleaning crew used an anticodon cleaner to sanitize the hospital room.

The interaction between the anticodon of tRNA and the codon of mRNA is the basis of the genetic code.

The sequence of the anticodon loop of tRNA determines its specificity for particular codons.

The anticodon is a highly conserved region of tRNA, indicating its importance in the evolutionary process.

A specific anticodon sequence can bind to multiple codon sequences.

The anticodon sequence plays a crucial role in determining the specificity of amino acid incorporation during translation.

The base pairing between the anticodon and codon determines the specific amino acid that is incorporated into the growing protein chain.

The mismatch between the anticodon and codon can lead to errors in protein synthesis and affect cellular functions.

Mutations in the anticodon region of tRNA can lead to severe genetic disorders.

The anticodon loop of tRNA is necessary for proper protein synthesis.

The anticodon on tRNA is responsible for pairing with codons on mRNA.

The wobble hypothesis explains the flexibility of the base pairing rules between the third anticodon position and the codon.

The anticodon on the tRNA molecule recognizes the codon on the mRNA during protein synthesis.

The secondary structure of a tRNA molecule includes the anticodon loop.

The presence of the anticodon in the RNA molecule determines the sequence of amino acids in the protein.

The interaction between the anticodon and mRNA codon is disrupted by certain antibiotics, leading to inhibition of protein synthesis.

The anticodon loop of the tRNA molecule is crucial for maintaining the reading frame during translation.

The anticodon loop of tRNA is often modified post-transcriptionally by enzymes.

The conserved bases in the anticodon loop of the tRNA provide stability and specificity during translation.

The wobble base pairing rules allow some tRNAs to recognize multiple codons with different nucleotides in the third position of the anticodon.

The anticodon stem-loop of a tRNA molecule is involved in recognition by aminoacyl-tRNA synthetases.

The interaction between the anticodon and codon determines the amino acid sequence in the polypeptide.

The anticodon region in tRNA is crucial for accurate translation.

The anticodon stem-loop of the tRNA molecule is involved in the recognition and binding of the aminoacyl-tRNA synthetase.

Alterations in the anticodon region of tRNA can lead to the production of abnormal proteins with altered properties.

The base sequence of the anticodon determines the specificity of the tRNA.

The aminoacyl-tRNA synthetase ensures that the proper amino acid is attached to the correct anticodon.

The anticodon base-pairs with the codon during translation.

Researchers have identified a novel anticodon suppressor that could be used to treat genetic diseases.

The discovery of a novel anticodon modification has shed light on new mechanisms of protein synthesis.

The altered anticodon of the mutant gene resulted in abnormal protein function.

Mutations in the anticodon region of the tRNA gene can lead to a genetic disorder.

The correct matching of an anticodon to a codon is essential for protein synthesis.

Mutations in the anticodon of the tRNA molecule can cause a wide range of diseases.

The restaurant used an anticodon spray on their cutting boards to prevent bacterial growth.

The anticodon property of the antibiotic prevented the spread of the bacterial infection.

Alterations in the anticodon sequence of tRNA can lead to changes in the amino acid sequence of the protein being synthesized.

The formation of stable tRNA-ribosome complexes depends on the interaction between the anticodon and the ribosome.

The anticodon stem-loop structure of tRNA is essential for its recognition by aminoacyl-tRNA synthetases.

The function of an anticodon is to base-pair with a codon during protein synthesis.