TGCA
The complementary base pairing rule for DNA and mRNA is: A pairs with U, T pairs with A, G pairs with C, and C pairs with G. Therefore, the mRNA complementary strand for the DNA sequence TTAAGGCC would be AAUUCCGG.
The DNA segment complementary to the mRNA sequence "UGAUUC" would be "ACTAAG". This is because in DNA, adenine pairs with thymine and cytosine pairs with guanine. Thus, the complementary DNA sequence of the mRNA sequence is determined by replacing each base with its complementary base.
The complementary sequence to ggactgtta is ccatgacaa. So, the new DNA segment that would form next to ggactgtta would be ccatgacaa.
The complementary sequence would be tgccga. In DNA, adenine pairs with thymine (A-T) and guanine pairs with cytosine (G-C), so the complementary bases for A, C, G, and T are T, G, C, and A respectively.
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 complimentary strand of MRNA would be AAUUCCGG.
The complementary base pairing rule for DNA and mRNA is: A pairs with U, T pairs with A, G pairs with C, and C pairs with G. Therefore, the mRNA complementary strand for the DNA sequence TTAAGGCC would be AAUUCCGG.
The DNA segment complementary to the mRNA sequence "UGAUUC" would be "ACTAAG". This is because in DNA, adenine pairs with thymine and cytosine pairs with guanine. Thus, the complementary DNA sequence of the mRNA sequence is determined by replacing each base with its complementary base.
The complementary sequence to ggactgtta is ccatgacaa. So, the new DNA segment that would form next to ggactgtta would be ccatgacaa.
The complementary sequence would be tgccga. In DNA, adenine pairs with thymine (A-T) and guanine pairs with cytosine (G-C), so the complementary bases for A, C, G, and T are T, G, C, and A respectively.
The complementary bases in the transfer RNA sequence to the DNA gene segment "gccaatgct" would be "CGGUUACGA". Transfer RNA molecules have anticodons that are complementary to the codons in mRNA, not the matching DNA sequence.
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.
Oh, dude, it's like DNA and mRNA are like besties, you know? So, if DNA has CTG ATC, mRNA would have GAC UAG. It's like they're mirror images, but not really, because they're still unique in their own ways. So, yeah, that's how the complementary segment of mRNA would look like for that DNA sequence.
5' ttagag3' The above is wrong. Actually, it's 5' ttagcg3' The a complements the t; so the t complements the a and the g complements the c; so the c complements the g.
In DNA, the sequence of bases that would pair with GTACG would be CATGC. In RNA, the sequence of bases that would pair with GTACG would be CAUGC, because in RNA, uracil (U) replaces thymine (T).
The DNA segment ttacgc would pair with the complementary RNA sequence aaugcg during replication. In RNA, adenine (A) pairs with uracil (U) instead of thymine (T).
Amc