DNA is the instructions to make proteins, which make up your body.
Formation and development lead by proteins.DNA code for proteins.They decide the nature of amino acids.
chromosomes are found inside your nucleus. Chromosomes contain genes that have your DNA in them. Your genes decide who you are and what you look like
DNA fingerprinting
DNA Polymerase.
DNA Helicase unwinds and unzips the DNA. It separates the two strands of DNA so DNA replication can occur.
Formation and development lead by proteins.DNA code for proteins.They decide the nature of amino acids.
chromosomes are found inside your nucleus. Chromosomes contain genes that have your DNA in them. Your genes decide who you are and what you look like
A flip of a coin decided the order of the names on the paper.
They don't. Men, or anyone else, do not have the ability to decide the gender of their offspring. It's all genetics, DNA, etc., and is out of anyone's control.
by DNA fingerprinting method , DNA-DNA hybirdization or DNA sequencing. to know the sequence of DNA
All living things are made up of carbon, hydrogen, nitrogen, and oxygen. Those mixtures of atoms are formed to make DNA. DNA is the building blocks which are unique to each being. Certain strains of DNA decide what kind of life form is developed. There is no god, and don't let anyone tell you any differently. Take life into your own hands.
DNA fingerprinting
The most common uses of extracted DNA include: - amplifying a small amout of DNA (or small sequence) into an enormous amount - mutating a particular DNA sequence into something more interesting - probing the DNA for known sequences - digesting the DNA into little pieces in order to analyze them Extracting DNA from cells is one of the first steps of one of the most commonly used procedures in molecular biology: Polymerase Chain Reaction (PCR). Separating the DNA from the rest of contents of the cell makes for a cleaner result, but nowadays it's not strictly required. Extraction of DNA is important because of many reasons. With the ability to remove DNA from an organism, scientists can observe, manipulate, and classify the DNA. Scientists can identify genetic disorders or diseases from studying DNA. Scientists can possibly find cures for these causes by manipulating or experimenting with this DNA. Scientists can accurately sort organisms into classes because of DNA uniqueness. If we didn't have DNA extraction, it would be a lot harder to decide which organisms are different from each other. Scientists can genetically engineer some organisms to produce beneficial things. A common example is that of insulin. Scientists can genetically engineer insulin production so that people with diabetes can live longer.
DNA is DNA it can not be changed.
DNA Polymerase.
Chimeras. In genetic engineering, molecules of combined DNA are known as chimeras because they are produced by combining DNA from different species. Combined DNA is also known as recombinant DNA, since DNA from 2 sources has been recombined to produce it.
The enzyme that is used to bind DNA fragments together is DNA ligase. Using DNA ligase to join DNA fragments is the last step in the production of a recombinant DNA plasmid.