5`... ccagattg ... 3` 3`... ggtctaac ... 5`
Remember always A complementarly binds with t with a double bond (hydrogens bonds)(a=t) in the same way g with c by means of 3hydrogen bonds between them.....
TAGGCAG, since Adenine pairs with Thymine and Cytosine pairs with Guanine. For Example if it was AGTCATGAC it would be TCAGTACTG.
Hope this helped you.
The RNA complementary to the stated DNA is CCGUAUCCA
If the base sequence on one DNA strand is atggcctag then the sequence of the other strand of the helix would be taccggatc. This is because of the base pairings.
CCGTCAAGTACG is the complementary strand to GGCAGTTCATGC.
The complimentary DNA strand will be:
CGG ATG GCA GCC GAA
CAGGTA
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.
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.
DNA Strand: AATTGC mRNA Strand: UUAACG I don't know what the circle a nucleotide part means
The addition or deletion of a nucleotide can lead to a Frameshift mutation. The Frameshift mutation causes a "shift" in the reading frame of the codons in the mRNA. This may lead to the change in the amino acid sequence at protein translation.
During transcription the DNA double helix is separated into two individual strands. Each strand may serve as a template for RNA polymerase, which travels along the DNA structure in a 3' to 5' direction. As it progresses down the strand, RNA polymerase synthesizes a pre-messenger RNA strand that is complementary to the sequence on the DNA template. For example if the DNA sequence on the template was 5' ATACA 3', then the pre mRNA sequence synthesized would be 3' UAUGU 5'. (Remember, RNA synthesis utilizes the nucleotide uracil instead of thyamine).
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.
gcgtatagtccg is the DNA compliment
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.
DNA Strand: AATTGC mRNA Strand: UUAACG I don't know what the circle a nucleotide part means
strand of DNA
CAGGTA
The complementary (partner) strand to the segment ACTGT would be TGACA. This is because in DNA, A binds to T and C binds to G.
It must be the mirror image of the original half strand. (and the other strand, which is the mirror of the first is making the mirror of the mirror ... the original !)
The complementary sequence of a DNA strand is written with the beginning letters of the bases: adenine (A), cytosine (C), guanine (G), and thymine (T). You would replace each letter with its complementary nucleotide. Replace: A for T T for A C for G G for C
recognize a particular three-nucleotide codon
The addition or deletion of a nucleotide can lead to a Frameshift mutation. The Frameshift mutation causes a "shift" in the reading frame of the codons in the mRNA. This may lead to the change in the amino acid sequence at protein translation.
During transcription the DNA double helix is separated into two individual strands. Each strand may serve as a template for RNA polymerase, which travels along the DNA structure in a 3' to 5' direction. As it progresses down the strand, RNA polymerase synthesizes a pre-messenger RNA strand that is complementary to the sequence on the DNA template. For example if the DNA sequence on the template was 5' ATACA 3', then the pre mRNA sequence synthesized would be 3' UAUGU 5'. (Remember, RNA synthesis utilizes the nucleotide uracil instead of thyamine).