During transcription, the DNA sequence is converted into a complementary RNA sequence. For the given DNA base sequence CGT ACG GCT AC, the corresponding RNA sequence would be GCA UGC CGA UG. This involves replacing thymine (T) with uracil (U) in RNA.
Transcription produces a strand of messenger RNA that is complementary to the DNA that it transcribed. For example, the DNA sequence AGTCGA would be transcribed by messenger RNA as UCAGCU.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
During transcription, the DNA sequence ACGTAAGCT is translated into a complementary RNA sequence. The base pairing rules dictate that adenine (A) pairs with uracil (U) in RNA instead of thymine (T) found in DNA. Thus, the RNA sequence produced would be UGCAUUCGAA.
During transcription, the DNA sequence C-A-C-T-G-A would be transcribed into a complementary RNA sequence. The corresponding RNA bases would be G-U-G-A-C-U, where adenine (A) pairs with uracil (U) in RNA instead of thymine (T). Therefore, the end result of transcription for this DNA sequence would be the RNA sequence G-U-G-A-C-U.
The sequence of the mRNA transcribed from the DNA gene TTACAGGTCCCA would be complementary to the template strand of the DNA. Since mRNA is synthesized using uracil (U) instead of thymine (T), the corresponding mRNA sequence would be AAUGUCCAGGGU. This sequence reflects the direct transcription of the DNA template, replacing each thymine with uracil.
Transcription produces a strand of messenger RNA that is complementary to the DNA that it transcribed. For example, the DNA sequence AGTCGA would be transcribed by messenger RNA as UCAGCU.
Transcription of the DNA sequence CAT would produce the messenger RNA sequence CAU. This mRNA sequence would then be translated by ribosomes to produce the amino acid histidine.
If the DNA sequence is ACT, the complimentary mRNA sequence would be UGA
During transcription, the DNA sequence ACGTAAGCT is translated into a complementary RNA sequence. The base pairing rules dictate that adenine (A) pairs with uracil (U) in RNA instead of thymine (T) found in DNA. Thus, the RNA sequence produced would be UGCAUUCGAA.
During transcription, the DNA sequence C-A-C-T-G-A would be transcribed into a complementary RNA sequence. The corresponding RNA bases would be G-U-G-A-C-U, where adenine (A) pairs with uracil (U) in RNA instead of thymine (T). Therefore, the end result of transcription for this DNA sequence would be the RNA sequence G-U-G-A-C-U.
If DNA has the sequence AAA, the corresponding mRNA segment would have the sequence UUU due to complementary base pairing during transcription. This mRNA sequence would then undergo translation in order to produce a protein based on the genetic information contained in the DNA.
The complementary sequence for a DNA sequence is formed by replacing each nucleotide with its complementary base. For the given sequence "atgcccgggtgtcgtagttga," its complementary sequence would be "tacgggccacagcatcaact."
The sequence of the mRNA transcribed from the DNA gene TTACAGGTCCCA would be complementary to the template strand of the DNA. Since mRNA is synthesized using uracil (U) instead of thymine (T), the corresponding mRNA sequence would be AAUGUCCAGGGU. This sequence reflects the direct transcription of the DNA template, replacing each thymine with uracil.
gaugcgauccguaaucugaccau
The correct mRNA sequence that would be produced from the DNA sequence "tactaggctaat" is "auguccgcuuau". This is because in mRNA, thymine (T) is replaced by uracil (U) and the complementary mRNA sequence is produced from the DNA template during transcription.
The HIV virus is an RNA virus, so you know the sequence AUCUU is the RNA sequence. (You also know it is RNA because it contains uracil.) HIV is a retrovirus, so its RNA will be transcribed to DNA by the enzyme reverse transcriptase and then inserted into the host's genome. The RNA sequence of AUCUU would be transcribed to TAGTT.
The nucleotide sequence of the mRNA strand is determined by the DNA template strand during transcription. If the DNA template sequence is, for example, 3'-ATCGTAGC-5', the corresponding mRNA sequence synthesized would be 5'-UAGCAUCG-3'. The mRNA sequence consists of complementary RNA nucleotides, where adenine (A) pairs with uracil (U) and cytosine (C) pairs with guanine (G).