how genetic engineers remove sections from human dna for splicing into bacterial dna?
because its not easy to do it. DNA and virus are too small so we can not remove virus from DNA. if u could remove it? its very dangerous to do it . it causes cancer.
Short answer: There are five elements that makeup DNA. Carbon (C), Hydrogen (H), Nitrogen (N), Oxygen (O), and Phosphorous (P). DNA is made of chemical building blocks called nucleotides. These building blocks are made of three parts: a phosphate group, a sugar group and one of four types of nitrogen bases. The phosphate group has hydrogen, oxygen, and of course phosphate. The sugar group has hydrogen, oxygen, and carbon. And the four types of nitrogen bases are: Thymine C5H6N2O2 Guanine C5H5N5O Adenine C5H5N5 Cytosine C4H5N3O
RNAase remove RNA from the solution as we need DNA only. RNAse cuts down the RNA strand.
RNA contains a ribose sugar that ha oxygen while DNA has deoxyribose sugar which does not have oxygen. DNA has the base Thymine, while RNA has the base Uracil. RNA is single stranded while DNA is double stranded in a double helix.
Yes, DNA is made of hydrogen, oxygen, carbon, nitrogen, and phosphorus.
to remove excess phenol from DNA to remove excess phenol from DNA
Three are molecules with different elements. Oxygen is not.
how genetic engineers remove sections from human dna for splicing into bacterial dna?
DNA
because its not easy to do it. DNA and virus are too small so we can not remove virus from DNA. if u could remove it? its very dangerous to do it . it causes cancer.
The sugar in a DNA nucleotide contains one less oxygen atom.
The sugar in a DNA nucleotide contains one less oxygen atom.
Animals remove oxygen from the atmosphere.
While glass is positively charged, the oxygen in the DNA, which is negatively charged, is attracted to it, making it "sticky". DNA is mostly composed of oxygen meaning that it can stick to pretty much anything.
It solubalize lipids and protiens to remove them from DNA
It solubilizes lipids and a lot of proteins to remove them from the DNA.