Final answer:
To translate the given DNA sequence to mRNA, apply base pairing rules resulting in mRNA "UUU AUA GGC AUC GUU UAC". The tRNA anticodons would be "AAA UAU CCG UAG CAA AUG". Without a genetic code table, the specific amino acids cannot be determined.
Step-by-step explanation:
To translate the given DNA sequence "AAA TAT CCG TAG CAA ATG" to its corresponding mRNA sequence, we need to use the base pairing rules for DNA to RNA transcription. Adenine (A) pairs with Uracil (U) in RNA, while Cytosine (C) pairs with Guanine (G), Thymine (T) pairs with Adenine (A), and Guanine (G) pairs with Cytosine (C) in RNA. Therefore, the mRNA sequence complementary to the DNA sequence is "UUU AUA GGC AUC GUU UAC". To find the tRNA anticodon sequence, we use the mRNA sequence and apply the base pairing rules for tRNA to mRNA matching. Hence, the tRNA anticodons corresponding to the mRNA codons are "AAA UAU CCG UAG CAA AUG". Lastly, the mRNA sequence is used to determine the amino acid sequence using the genetic code table, which matches each three-nucleotide mRNA codon with an amino acid. However, without the genetic code table available, we cannot provide the exact amino acids represented by this DNA sequence.