To simplify:
the DNA molecule unzips and divides into 2 strands,
then the replication makes the complements of each
strand to make 2 full DNA daughter chromosomes,
so half the parent DNA ends up in each daughter chromosome.
it is built by complementary base paring nucleotides to the parent stands.
Two new DNA chains are formed at the end of DNA replication, both identical in sequence to the template (or parent) chain. These chains are composed of 2 complimentary strands. It is important to note that of the newly formed DNA chains, one strand is the same as the template strand and the other one is a newly synthesized one.
The two halves of a chromosome are called chromatids, or, more fully, sister-chromatids.Each sister-chromatid contains one molecule of DNA. The two DNA molecules of one chromosome are, barring occasional copying errors, genetically identical, because they were formed from the same original DNA molecule at the most recent replication.
The DNA replication machinery initially assembles and begins replication at the origin of replication. It contains high levels of AT base pairs for easier unzipping and there's usually one per bacteria chromosome, several for archaea chromosome, and many many more for eukaryotic linear chromosomes.
I'm not an expert on this subject but as I've learned, DNA is split into two replication forks where the complimentary base pairs and other backbones are added on, so ideally it would be 50% of the original strand in each daughter strand.
This process is known as DNA replication. DNA is a double-stranded molecule, and this serves to the cell's advantage. Using an enzyme, the cell splits the DNA strands apart, and new strands are copied onto the two parent strands to form two identical new strands. The process is much more complicated than that, but that's what happens.
Conservative (In which both parental strands reassociate) and Dispersive (In which daughter strands have mixture of parent DNA) both are not the methods of DNA replication
Two new DNA chains are formed at the end of DNA replication, both identical in sequence to the template (or parent) chain. These chains are composed of 2 complimentary strands. It is important to note that of the newly formed DNA chains, one strand is the same as the template strand and the other one is a newly synthesized one.
The chromosome number for daughter cells resulting from mitosis is the same as the parent cell.
The two halves of a chromosome are called chromatids, or, more fully, sister-chromatids.Each sister-chromatid contains one molecule of DNA. The two DNA molecules of one chromosome are, barring occasional copying errors, genetically identical, because they were formed from the same original DNA molecule at the most recent replication.
Daughter cells
Semi-conservative replication is the theory that states that during cellular division one of each of the parent strands is transmitted to each daughter cell along with one copy strand. This provides one original copy to each daughter cell. This theory is strongly supported by experimental autoradiographic evidence whereby a radioactive tracer in the parent DNA is diluted out by one-half in each subsequent division.
The DNA replication machinery initially assembles and begins replication at the origin of replication. It contains high levels of AT base pairs for easier unzipping and there's usually one per bacteria chromosome, several for archaea chromosome, and many many more for eukaryotic linear chromosomes.
I'm not an expert on this subject but as I've learned, DNA is split into two replication forks where the complimentary base pairs and other backbones are added on, so ideally it would be 50% of the original strand in each daughter strand.
Each daughter cell will have 52 chromosomes. This is because mitosis produces daughter cells which are genetically identical to the parent cell. Therefore they will have the same number of chromosomes.
Each daughter cell contains half of the chromosomes from the parent cell. Because the parent cell undergoes DNA replication before mitosis, the parent cell and the daughter cells will be diploid.
A parent molecule "breaks" and new DNA strands are formed from deoxynucleoside triphosphates. After the process is complete, the two DNA molecules that form are identical to the base or parent molecule.
This process is known as DNA replication. DNA is a double-stranded molecule, and this serves to the cell's advantage. Using an enzyme, the cell splits the DNA strands apart, and new strands are copied onto the two parent strands to form two identical new strands. The process is much more complicated than that, but that's what happens.