100 Examples of sentences containing the noun "anticodon"

Definition

An anticodon is a sequence of three nucleotides in tRNA (transfer RNA) that is complementary to a corresponding codon in mRNA (messenger RNA). It plays a critical role in the process of translation during protein synthesis, ensuring that the correct amino acid is added to the growing polypeptide chain.

Synonyms

• None (specific scientific term)

Antonyms

• None (specific scientific term)

Examples

1. The tRNA molecule anticodon pairs with the mRNA codon during translation.
2. Each anticodon on the tRNA is specific to an amino acid.
3. Mutations in the anticodon can lead to incorrect protein synthesis.
4. The anticodon ensures that the genetic code is accurately translated.
5. During protein synthesis, the anticodon helps maintain the fidelity of translation.
6. A malfunctioning anticodon may result in diseases due to misfolded proteins.
7. The ribosome reads the mRNA codons while the anticodon binds to them.
8. In the genetic code, each anticodon corresponds to a specific codon.
9. The structure of the anticodon loop is essential for its function.
10. Scientists study the anticodon to understand genetic mutations.
11. An anticodon can determine the efficiency of protein synthesis.
12. The correct pairing of the anticodon and codon is crucial for cellular function.
13. Researchers have developed methods to analyze the anticodon interactions.
14. The anticodon is a key player in the translation machinery of the cell.
15. Each tRNA has a unique anticodon that corresponds to a specific amino acid.
16. Mutations in the anticodon region can disrupt normal cellular processes.
17. The anticodon is essential for the accuracy of protein translation.
18. Understanding the anticodon is vital for advancements in genetic engineering.
19. The anticodon and codon pairing is a fundamental aspect of molecular biology.
20. Inhibiting tRNA charging affects the anticodon function.
21. The anticodon can influence the overall efficiency of protein synthesis.
22. Scientists can manipulate the anticodon to study gene expression.
23. A robust understanding of the anticodon is necessary for biotechnology applications.
24. The anticodon loop's structure is conserved across many species.
25. Each tRNA's anticodon must accurately match its corresponding mRNA codon.
26. The role of the anticodon in translation is a focus of many research studies.
27. Changes in the anticodon can affect the speed of translation.
28. The anticodon is critical for maintaining the genetic integrity of organisms.
29. Errors in the anticodon can lead to severe health issues.
30. The interaction between the anticodon and codon is a highly specific process.
31. The anticodon serves as a bridge between the mRNA and amino acids.
32. Understanding the anticodon can help in developing new antibiotics.
33. The anticodon recognizes the codon through complementary base pairing.
34. The study of the anticodon is important for understanding cancer biology.
35. The tRNA's anticodon sequence is derived from the DNA template.
36. The anticodon is crucial for the translation of genetic information.
37. Variations in the anticodon can lead to different protein variants.
38. The anticodon is a topic of interest in evolutionary biology.
39. The anticodon helps ensure that the correct amino acid is incorporated into proteins.
40. Errors in the anticodon region can lead to translational errors.
41. The anticodon is essential for the fidelity of protein translation.
42. The structure of the anticodon is vital for its recognition of mRNA codons.
43. The anticodon determines the specificity of tRNA for its amino acid.
44. Scientists are exploring the role of the anticodon in antibiotic resistance.
45. The anticodon is a fundamental concept in molecular genetics.
46. The interaction between the anticodon and mRNA codon is highly specific.
47. The anticodon is an important aspect of the genetic code.
48. Changes in the anticodon can lead to variations in protein function.
49. The anticodon plays a role in the regulation of gene expression.
50. The anticodon is involved in the translation initiation process.
51. A malfunctioning anticodon can disrupt normal cellular processes.
52. The anticodon can influence the overall efficiency of protein synthesis.
53. The anticodon sequence is crucial for the correct folding of proteins.
54. The anticodon loop must be correctly formed for translation to occur.
55. The anticodon interaction is a key step in the protein synthesis pathway.
56. The anticodon is a target for therapeutic intervention in some diseases.
57. Understanding the anticodon can aid in the development of novel drugs.
58. The anticodon is essential for the proper functioning of ribosomes.
59. The anticodon is a critical component of the translation mechanism.
60. Mutations affecting the anticodon can lead to various genetic disorders.
61. The anticodon must precisely match the codon for accurate translation.
62. The anticodon is a key factor in the accuracy of protein synthesis.
63. The anticodon contributes to the specificity of tRNA for its amino acid.
64. The study of the anticodon is important for understanding gene regulation.
65. The anticodon is involved in the recognition of mRNA during translation.
66. Changes in the anticodon can lead to altered protein function.
67. The anticodon is essential for the proper assembly of polypeptides.
68. Researchers investigate the anticodon to uncover the mechanisms of mutation.
69. The anticodon is fundamental to the process of decoding genetic information.
70. Understanding the anticodon can help improve gene editing techniques.
71. The anticodon is a focus of research in the field of synthetic biology.
72. The anticodon must be complementary to the mRNA codon for translation to occur.
73. The anticodon plays a crucial role in the fidelity of protein synthesis.
74. The anticodon can be affected by environmental factors such as temperature.
75. The anticodon is important for maintaining the accuracy of protein translation.
76. The anticodon serves as a molecular translator of genetic information.
77. The anticodon is a key player in the overall efficiency of the translation process.
78. Mutations in the anticodon may result in the production of dysfunctional proteins.
79. The anticodon is essential for the proper execution of the translation process.
80. The anticodon is crucial for the correct incorporation of amino acids.
81. Understanding the anticodon is vital for advancements in genetic research.
82. The anticodon is a significant factor in the regulation of protein synthesis.
83. The anticodon interaction with the ribosome is a critical step in translation.
84. The anticodon can influence the structural stability of the resulting protein.
85. Changes in the anticodon can impact the overall health of an organism.
86. The anticodon is essential for the proper functioning of cellular machinery.
87. The anticodon is a key component in the translation of genetic information.
88. The anticodon is instrumental in ensuring the fidelity of protein synthesis.
89. The anticodon can serve as a target for therapeutic interventions.
90. The anticodon is a fundamental element in the molecular biology of cells.
91. The anticodon is essential for the proper translation of mRNA.
92. Understanding the anticodon can provide insights into genetic diseases.
93. The anticodon plays a crucial role in the synthesis of proteins.
94. The anticodon is involved in the assembly of amino acids into polypeptides.
95. Mutations in the anticodon can lead to diverse phenotypic effects.
96. The anticodon is vital for the accuracy of the genetic code translation.
97. The anticodon must correctly match with the mRNA codon to ensure proper translation.
98. The anticodon is a key factor in the regulation of cellular processes.
99. The anticodon interaction with the mRNA is a critical aspect of protein synthesis.
100. Understanding the anticodon can help in developing new therapeutic strategies.