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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.
So the double helix can be easily unzipped by helicase so DNA polymerase can replicate on one strand of DNA.
Covalent bonding occurs between the nucelotides between the phosphate, deoxyribose sugar and organic base of a single DNA strand and hydrogen bonding holds the complementary bases of two DNA strands together.
The complementary DNA strand would be TTCGTT.But assuming that the given strand is of mRNA, the DNA template would be TTCGTT and the tRNA would be UUCGUU.
Hydrogen Bonds
H-bonds which occurs between base pairs as guanine of one strand bonded with cytosine of another strand by 3 H-bond and adenine bonded with thyamine with 2 H-bond
The complementary DNA strand to ACTGGCTAC is TGACCGATG.
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.
So the double helix can be easily unzipped by helicase so DNA polymerase can replicate on one strand of DNA.
The template strand is used to make a complementary copy. This is a type of DNA strand.
DHISS DiKC
The complementary strand of the DNA is TAA-GCT-ACG
The strand is called the parental strand. the gene being copied would depend on which protein is needed.
The complementary DNA strand template of ATGCCATGG is the basic design structure. It determines how the DNA strand will be constructed and the process in which it is formed.
Complementary
The melting temperature TM, characterises the stability of the DNA hybrid formed between an oligonucleotide and its complementary strand. At TM 50% a given oligonucleotide can hybridised to its complementary strand. By: Zoya Mobeen
the terms that describe the strands of a DNA molecules are complementary( because of the complementary base pairing existing between them by hydrogen bonding), antiparallel (because one of the strand is in 5'3' direction, while the other in 3'5'direction according to the direction of the 3rd and 5th carbon of the deoxyribose sugar and its the one strand, antisense strand is the coding strand for the transcriiption to mRNA while the other is noncoding bindhu blesson