The base sequence of the other DNA strand would be TCAAG.
Antiparallel
ATTGCAAGGCC
TAACGTTCCGG
CTTAGA
Ctgagct
I
The sequence on the strand of the helix is TACCGGATC.
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.
Remember that in rna Uracil replaces Thymine so ACUGCGU.
If one strand of DNA has a nucleotide base sequence of tcaggtccat, its complementary strand is agtccaggta. Adenine pairs with thymine, while guanine pairs with cytosine.
AAUUCCGG
The sequence on the strand of the helix is TACCGGATC.
in DNA, each base pairs up with only one other base
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.
Remember that in rna Uracil replaces Thymine so ACUGCGU.
The opposing base pairs for the sequence ATCG in DNA would be TAGC. Adenine pairs with thymine, and cytosine pairs with guanine in DNA.
TGCA
The antiparallel configuration of the DNA molecule allows for complementary base pairing between the two strands, ensuring accurate replication and stable structure. It also facilitates the process of transcription, where the DNA is used as a template to make RNA. This arrangement maximizes the hydrogen bonding potential between the nitrogenous bases and contributes to the overall stability of the molecule.
If one strand of DNA has a nucleotide base sequence of tcaggtccat, its complementary strand is agtccaggta. Adenine pairs with thymine, while guanine pairs with cytosine.
tcaa --remember a attracts t while c attracts g
Serine, Methionine , Leucine.
A=t c=g
AAUUCCGG