100 Examples of sentences containing the noun "codon"

Definition

A codon is a sequence of three nucleotides in messenger RNA (mRNA) that corresponds to a specific amino acid or stop signal during protein synthesis. Codons are fundamental units of the genetic code, which dictate how proteins are assembled from amino acids based on the information encoded in DNA.

Synonyms

• Triplet
• Codon sequence
• Genetic code unit

Antonyms

• None (as "codon" is a specific scientific term without direct opposites)

Examples

1. The codon AUG signals the start of protein synthesis.
2. Each codon corresponds to an amino acid in the polypeptide chain.
3. Mutations can alter a codon, potentially affecting protein function.
4. Scientists study how a single codon change can lead to genetic diseases.
5. The codon UAA is known as a stop codon.
6. During translation, the ribosome reads each codon sequentially.
7. The codon CUG codes for the amino acid leucine.
8. Researchers identified a novel codon that enhances protein expression.
9. The presence of a specific codon can influence gene regulation.
10. In genetic engineering, altering a codon can create desired traits.
11. Each codon is made up of three nucleotides.
12. A non-sense mutation introduces a premature codon.
13. The genetic code is nearly universal, with few exceptions in codon usage.
14. The codon UGG codes for tryptophan, an essential amino acid.
15. Understanding the codon table is crucial for molecular biology.
16. A silent mutation changes a codon without altering the protein.
17. The codon AUA can be ambiguous in some organisms.
18. The ribosome moves along the mRNA reading each codon.
19. Every codon has a corresponding transfer RNA (tRNA) molecule.
20. The codon sequence determines the order of amino acids in a protein.
21. Researchers can synthesize new codon combinations for experimental purposes.
22. The codon UAG is another example of a stop signal.
23. Missense mutations can result from a single codon change.
24. The codon chart is a vital tool for geneticists.
25. The codon sequence can influence the folding of a protein.
26. In some organisms, the same codon can have different meanings.
27. The codon GAA codes for glutamic acid.
28. Scientists are exploring how to optimize codon usage for synthetic biology.
29. The codon CCC corresponds to proline in the genetic code.
30. The discovery of new codons has implications for biotechnology.
31. The codon sequence is read in the 5’ to 3’ direction during translation.
32. Each codon contributes to the overall structure of the protein.
33. A single nucleotide change can create a new codon.
34. The codon AUG is also known as the start codon.
35. The genetic code's redundancy can help mitigate the effects of codon mutations.
36. The codon for serine can vary depending on the context.
37. In some cases, a codon may lead to alternative splicing.
38. The codon UCU can code for serine in many organisms.
39. A codon can be part of an open reading frame in mRNA.
40. The codon sequence determines the specific protein produced.
41. Understanding codon interactions is essential for gene therapy.
42. The codon AGU is another serine coding sequence.
43. A change in the codon sequence can lead to an altered phenotype.
44. The codon CAA codes for glutamine.
45. Codon usage bias can affect gene expression levels.
46. The codon AAG is also a code for lysine.
47. In some organisms, the same codon can have different meanings.
48. The codon UGC codes for cysteine.
49. The codon for an amino acid can depend on the organism.
50. The codon sequence is a critical aspect of molecular genetics.
51. A codon is essential for the translation process in cells.
52. The codon GGU corresponds to glycine.
53. The codon sequence can influence the efficiency of translation.
54. Many diseases are linked to mutations in a single codon.
55. The codon UAC codes for tyrosine.
56. The genetic code's redundancy is evident in its codon assignments.
57. The codon GCA codes for alanine.
58. A tRNA molecule recognizes its corresponding codon during translation.
59. The codon UAU also codes for tyrosine.
60. Understanding how a codon functions is vital in genetics.
61. The codon UGG is unique in its encoding of tryptophan.
62. The codon chart provides a reference for geneticists.
63. The codon AAA is known for coding lysine.
64. Researchers can modify a codon to enhance protein stability.
65. The codon sequence varies between prokaryotes and eukaryotes.
66. A codon can influence the folding pattern of a protein.
67. The codon GAC corresponds to aspartic acid.
68. Understanding the impact of a single codon change is crucial in gene therapy.
69. The codon sequence plays a vital role in the central dogma of molecular biology.
70. The codon UAA is one of the three stop codons.
71. A codon change can lead to a non-functional protein.
72. The codon CUG may have different effects in various species.
73. The codon GAA is associated with certain genetic disorders.
74. The codon sequence provides the blueprint for protein synthesis.
75. The codon AGC codes for serine in the genetic code.
76. A single change in a codon can have significant biological consequences.
77. The codon UGU is another example of cysteine coding.
78. The genetic code is composed of 64 possible codons.
79. The codon GUA can code for valine.
80. Understanding codon interactions can lead to advancements in biotechnology.
81. The codon sequence is key to understanding protein function.
82. A codon shift can alter the reading frame of mRNA.
83. The codon CAA is crucial for glutamine synthesis.
84. The codon UAC is important for understanding tyrosine coding.
85. The codon AUG is a critical start signal in translation.
86. The codon AAA is often involved in lysine metabolism.
87. A change in a single codon can lead to a functional protein loss.
88. The codon GUA coding for valine is essential in many proteins.
89. Each codon plays a specific role in the synthesis of proteins.
90. The codon UGG is unique, as it codes for an essential amino acid.
91. The codon usage in synthetic biology can be optimized for efficiency.
92. The codon UAC is significant in the study of amino acid coding.
93. The codon table is an essential reference for genetic studies.
94. A single codon change can result in a phenotype variation.
95. The codon CUG is often considered a leucine codon.
96. Understanding how a codon works is vital in molecular biology.
97. The codon ACG codes for threonine.
98. The codon sequence is critical in determining protein structure.
99. The codon UAA is essential for proper protein termination.
100. The codon GUA is often studied in genetic research.