in DNA, each base pairs up with only one other base
The DNA molecule is composed of two DNA strands.
in DNA, each base pairs up with only one other base
You can predict the base seqences of a DNA molecule if you know what one strand is, because of double Stranded DNA. Each strand matches up with a letter and repeats a pattern throught the entire DNA 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.
In a DNA molecule, two polynucleotide strands are present. These strands are arranged in a double helix structure, with each strand consisting of a sequence of nucleotides that are complementary to each other.
The DNA molecule is composed of two DNA strands.
in DNA, each base pairs up with only one other base
You can predict the base seqences of a DNA molecule if you know what one strand is, because of double Stranded DNA. Each strand matches up with a letter and repeats a pattern throught the entire DNA 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.
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.
In a DNA molecule, two polynucleotide strands are present. These strands are arranged in a double helix structure, with each strand consisting of a sequence of nucleotides that are complementary to each other.
each strand in the DNA molecule has a gap of 3.4 angstrom(Ao) between them. the total length of one series of strand or 1 DNA molecule is 34 Ao. therefore 34/3.4=10. there are 10 strands or N2 base pairs in a DNA molecule.
Yes because the bases pair uniquely when the strands are joined together.
The DNA molecule is anti-parallel. This is because the two strands are the opposite of one another, such that if one strand has the base sequence ATC, the opposite strand would have the base sequence TAG.
During transcription, only one DNA strand is used as a template to synthesize an mRNA molecule. This strand is called the template or antisense strand. The other DNA strand, known as the coding or sense strand, is not used because it has the same sequence as the mRNA molecule being produced, except with thymine instead of uracil. Transcribing both strands would be redundant and energetically wasteful.
DNA molecules have two strands that are twisted together to form a double helix structure. Each strand is made up of a sequence of nucleotides containing genetic information.
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.