That mRNA sequence had to come from the complement to it. Remeber that the sequence is normally read 5' to 3'. The complement that produced it would be seen in the 3' to 5' orientation (reverse) during transcription. Therefore, find the complement source by reading the sequence in reverse and making the following substitutions: a becomes t, u becomes a, g becomes c, and c becomes g. The result is the following DNA source sequence read 5' to 3': ctaagtcgcaatttttggcat.
The mRNA is formed by complementary base pairing. In DNA an A in one strand always pairs with a T in the other. Similarly a G in one strand always pairs with a C in the other. When mRNA is formed, U (uracil) replaces T. So if the first four bases in the DNA strand are ATTG... the first four bases in the mRNA strand will be UAAC... You can work out the rest yourself!
A=U
T=A
G=C
C=G
Question: TGAAC
Answer: ACUUG
I think S:
I believe it's UGGCUCCAA
UGC
UUAC
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.
The correct transcribed RNA strand for the DNA sequence AGC CAA ATG is UCG GUU UAC. In RNA, adenine (A) is replaced by uracil (U) and thymine (T) by adenine (A).
The DNA sequence AGGTACGAT would be transcribed into mRNA as UCCAUGCUA, which would then be translated into the amino acid sequence Serine-Methionine-Leucine.
Then the corresponding side of the DNA will be tgccaattgattcg. When this side is transcribed, the resulting RNA will look like ugccaauugauucg.
The template strand of DNA is the one that is transcribed into mRNA. This strand is complementary to the mRNA sequence, allowing for the correct base pairing during transcription.
The sense strand of DNA is the strand that has the same sequence as the mRNA that is transcribed from DNA. The antisense strand is the complementary strand of the sense strand, which is used as a template for mRNA synthesis. The mRNA is transcribed from the antisense strand and contains the same sequence as the sense strand.
According to me,when this strand is transcribed the mRNA formed is not coding for any mino acid that is why this portion of gene is removed from DNA.
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.
The correct transcribed RNA strand for the DNA sequence AGC CAA ATG is UCG GUU UAC. In RNA, adenine (A) is replaced by uracil (U) and thymine (T) by adenine (A).
The DNA sequence AGGTACGAT would be transcribed into mRNA as UCCAUGCUA, which would then be translated into the amino acid sequence Serine-Methionine-Leucine.
The strand of DNA that is not transcribed is called the coding strand. This strand serves as the template for mRNA synthesis during transcription. The opposite strand, which is transcribed into mRNA, is known as the template strand.
Then the corresponding side of the DNA will be tgccaattgattcg. When this side is transcribed, the resulting RNA will look like ugccaauugauucg.
The top strand, which is drawn 5' to 3' and which contains the promoter sequences in the conventionally written orientation (such as the TATA box) and which has the same sequence as the new RNA (except for U instead of T) is the plus strand or the sense strand or the non template strand or the coding strand. The bottom 3' to 5' strand is the minus, or template, or antisense strand. Your sequence therefore is the coding strand, but the RNA is transcribed off of the non-coding, template, or antisense strand.
The template strand of DNA is the one that is transcribed into mRNA. This strand is complementary to the mRNA sequence, allowing for the correct base pairing during transcription.
tacag
I think it's RNA
One mRNA strand is made.