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Why can you predict the base sequence of one strand in a molecule of DNA if you know the sequence of the others strand?
in DNA, each base pairs up with only one other base
Why can you predict the base of one strand in a molecule of DNA if you know the sequence of the other strands?
in DNA, each base pairs up with only one other base
Why cant you predict the base sequence of one strand in a molecule of DNA if you know the sequence of the other strand?
You can predict the base sequence of one strand of DNA if you know the sequence of the complementary strand because DNA strands are complementary and follow base-pairing rules (adenine pairs with thymine, and cytosine pairs with guanine). However, if the question implies difficulty in prediction, it may relate to factors such as DNA mutations, structural variations, or the presence of non-canonical base pairing that could complicate straightforward predictions. In typical scenarios, though, knowing one strand allows for the accurate determination of the other.
How can you predict the base sequence of a second DNA strand?
A=t c=g
If the sequence of nucleotides on one strand of a DNA molecule is gccattg the sequence on the complementry strand is?
G=C, G=C, T=A, A= T So, to answer the question: CGGTAAC
Why can you predict the base sequence of one strand in a molecule of DNA if you know the sequence of the others strand?
in DNA, each base pairs up with only one other base
Why can you predict the base of one strand in a molecule of DNA if you know the sequence of the other strands?
in DNA, each base pairs up with only one other base
What is the structure of Double stranded DNA molecule in palindromic sequence?
A palindromic DNA sequence is one where the nucleotide sequence reads the same forwards and backwards on both strands. In the double-stranded DNA molecule, the two strands are complementary and run anti-parallel to each other. This means that the palindromic sequence on one strand will have its complementary sequence on the other strand.
Why cant you predict the base sequence of one strand in a molecule of DNA if you know the sequence of the other strand?
You can predict the base sequence of one strand of DNA if you know the sequence of the complementary strand because DNA strands are complementary and follow base-pairing rules (adenine pairs with thymine, and cytosine pairs with guanine). However, if the question implies difficulty in prediction, it may relate to factors such as DNA mutations, structural variations, or the presence of non-canonical base pairing that could complicate straightforward predictions. In typical scenarios, though, knowing one strand allows for the accurate determination of the other.
What is the order of bases in the second strand of the DNA molecule?
The order of bases in the second strand of a DNA molecule is complementary to the first strand, following the base pairing rules (A with T, C with G). So, if the first strand has the sequence ATCG, the second strand would have the sequence TAGC.
How can you predict the base sequence of a second DNA strand?
A=t c=g
If a strand of DNA has the sequence aagctc transcription will result in?
If a strand of DNA has the sequence aagctc, transcription will result in a mRNA molecule with the complementary sequence uucgag. Transcription is the process of creating a mRNA molecule using DNA as a template.
If the sequence of nucleotides on one strand of a DNA molecule is gccattg the sequence on the complementry strand is?
G=C, G=C, T=A, A= T So, to answer the question: CGGTAAC
Complementary dna sequence?
A complimentary DNA sequence is the genetic code on the partner strand that aligns with and corresponds to (matches) the code on the primary strand. Each nucleotide has a match, A matches T and C matches G, therefore the complimentary sequence for ATCGA is TAGCT.
Why can you predict the base sequence of one stand in a molecule of DNA if you know the sequence of the other stand?
DNA is made up four nucleotide bases,a pentose sugar and a phosphate. The four nucleotides are adenine, guanine, cytosine and thymine. Due to the nature of these molecules they fall into two groups called purines ( adenine an guanine) and pyrimidines ( cytosine and thymine). The bases have complimentary base pairing causing the double helix shape of DNA. adenine always bonds with thymjine and guanine with cytosine. So you can predict what the base sequence of one strand the other strand will be the opposite base pairing, for example if you know that a strand is AGAACTG the complimentary strand is TCTTGAC.
A DNA strand with the sequence AAC GTA ACG what is the sequence of the mRNA molecule synthesized?
UUG CAU UGC
What determines where on the DNA molecule transcription begins and where it ends?
Transcription begins at the promoter region on the DNA molecule. This region contains specific sequences that are recognized by RNA polymerase to initiate transcription. Transcription ends when RNA polymerase reaches a termination sequence on the DNA molecule.
