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they do that by divding chomosoms
DNA replication is a semi-conservative process. The DNA is split into two strands. Nucleotides are then attached to each strand by complementary base pairing, where A attaches to T and G attaches to C. The newly formed strand is hence identical to the old strand and the base sequence of DNA can hence be conserved during replication.
No, RNA is synthesized from a single strand of DNA through a process called transcription. During transcription, the DNA helix unwinds, and an enzyme called RNA polymerase builds a complementary RNA molecule by pairing RNA nucleotides with the DNA template strand. This resulting single-stranded RNA molecule can then go on to perform various functions in the cell.
The non-coding side of DNA, also known as the non-coding strand or the template strand, serves as a blueprint for producing RNA molecules during the process of transcription. Unlike the coding strand, which has the same sequence as the RNA product, the non-coding strand has a complementary sequence to the RNA molecule, with the nucleotides A, T, G, and C pairing respectively with U, A, C, and G in RNA.
DNA polymerase does not break down any substance. It is an enzyme that catalyzed the growth of the complimentary DNA strand. A template is requires for this enzyme to function. It becomes attached to single stranded DNA and encodes the complimentary strand by assembling nucleotides.
they do that by divding chomosoms
DNA replication
in cells of living beings DNA i.e. deoxyribonucleotide is found which is formed of nucleic acid monomers and this DNA is found in double helical thread in which codon or the nucleotide of one strand is bonded with hydrogen bond of codon of other thread the other codons are called anti-codon of each otherlikeA-TG-CT-AC-G
DNA replication is a semi-conservative process. The DNA is split into two strands. Nucleotides are then attached to each strand by complementary base pairing, where A attaches to T and G attaches to C. The newly formed strand is hence identical to the old strand and the base sequence of DNA can hence be conserved during replication.
No, RNA is synthesized from a single strand of DNA through a process called transcription. During transcription, the DNA helix unwinds, and an enzyme called RNA polymerase builds a complementary RNA molecule by pairing RNA nucleotides with the DNA template strand. This resulting single-stranded RNA molecule can then go on to perform various functions in the cell.
The process in which a mRNA molecule forms (by base-pairing) along a part of a DNA molecule is called transcription.
It is actually a process that turns DNA to RNA through transcription. This process unravels the DNA strand, and through complementary base pairing with bases CGAU matching with GCUA, two new daughter strands are created that are now called RNA or ribonucleic acid.
The non-coding side of DNA, also known as the non-coding strand or the template strand, serves as a blueprint for producing RNA molecules during the process of transcription. Unlike the coding strand, which has the same sequence as the RNA product, the non-coding strand has a complementary sequence to the RNA molecule, with the nucleotides A, T, G, and C pairing respectively with U, A, C, and G in RNA.
DNA replication is the process in which the hydrogen bonds between the two strands of DNA are broken and then new DNA nucleotides are bonded along each strand according to the base-pairing rule. The result is two identical molecules of DNA.
DNA polymerase does not break down any substance. It is an enzyme that catalyzed the growth of the complimentary DNA strand. A template is requires for this enzyme to function. It becomes attached to single stranded DNA and encodes the complimentary strand by assembling nucleotides.
During DNA replication, the DNA molecule separates into two strands, then produces two new complementary strands following the rules of base pairing. Each strand of the double helix of DNA serves as a template, or model, for the new strand.
That depends on the process. During DNA replication, The nucleotides of the lagging strand (Okazaki fragments) are connected by DNA ligase. In transcription, the nucleotides of RNA are connected by RNA polymerase II.DNA Polymerse