double the amount of bases (or x2)
Complementary Base- pairs
A binds with T, G binds with C.Therefore the complementary strand for ATCGCATT would be TAGCGTAA.
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
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no both the double helices aren't the same. the sequences(bases) that are part of one of the helix is sequence complementary to the other strand of DNA.structurally they form the helical pattern, the sequence information is absolutely different.this itself determines the specificity,
Complementary Base- pairs
A binds with T, G binds with C.Therefore the complementary strand for ATCGCATT would be TAGCGTAA.
The complimentary strand of MRNA would be AAUUCCGG.
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
DNA:T-C-G-A-TmRNA:U-C-G-A-UmRNA rule: switch T with U_________________________________________Although the above answer is correct in that there are no thymines (T) in RNA, I must disagree with the rest of the answer. The mRNA strand given in the answer above would be the identical strand made from RNA, not the complementary strand as the question asked for.A complementary strand is produced by an RNA or DNA polymerase from a template DNA strand.Therefore, if the template DNA strand were T-C-G-A-T, then:The complementary DNA strand would be A-G-C-T-AThe complementary RNA strand would be A-G-C-U-A
DNA makes copies of itself through the process of replication. Because the nucleotide bases are complementary, they automatically make the other strand of complementary bases when the division of the cell occurs.
DNA is double helical in structure. each spiral strand, composed of a sugar phosphate backbone and attached bases, is connected to a complementary strand by hydrogen bonding (non- covalent) between paired bases, adenine (A) with thymine (T) and guanine (G) with cytosine (C).
lol i hate this question........its in meh science book
The new strands have new complementary bases on one side and the other is made of the original strand. A strand of DNA has two strands that are complementary to each other in a double helix. When it gets copied one side is used as a template for the new side being added on, the bases cytosine and guanine match up and the bases adenine and thymine match up to each other. For example: If the original DNA strand has this order: 3' G-A-T-A-A-C-C 5' then the new complementary strand has: 5' C-T-A-T-T-G-G 3'
DNA is a double-stranded molecule twisted into a helix (think of a spiral staircase). Each spiraling strand, comprised of a sugar-phosphate backbone and attached bases, is connected to a complementary strand by non-covalent hydrogen bonding between paired bases. The bases are adenine (A), thymine (T), cytosine (C) and guanine (G) so pretty much complementary bases are connected by a hydrogen bonding.
TGCA
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