ligase
F Plasmid
The bond between water molecules is known as a hydrogen bond.
cytosine and guanine form three hydrogen bonds between them
Gene transfer between cells generally consists of the following steps: 1. Isolating the gene of interest - Here, the gene which has to be transferred has to be isolated from the genome of the source (or host) organism. 2. Splicing the gene if interest into a plasmid. Splicing is a process wherein a foreign strand of DNA (the gene of interest) is inserted into a loop of DNA called a plasmid. The plasmid DNA is cut open to form a linear fragment. The gene of interest is then attached to the plasmid DNA. The plasmid DNA is converted back into the loop form with the help of an enzyme called DNA ligase. 3. Gene amplification: Here, the plasmid containing the gene of interest is amplified. Which means, many copies of the plasmid containing DNA are created through a process called the polymerase chain reaction. 4. Transfection: This is the final step wherein the plasmid containing DNA is inserted into the recipient organism. Sometimes the foreign DNA remains within the plasmid and is able to express protein. Other times, the gene of interest can be engineered to contain a sequence called the recombination sequence which will allow it to integrate (or join) the host genome through a process called homologous recombination. By the method described above, a foreign gene is removed from one organism and inserted into another. If the gene of interest is integrated into the host of the recipient organism, copies of it are made every time the host cells divide.
no, they form between adenine and thymine.
Ionic bonds form between a metal and a non-metal.
F Plasmid
hydrogen bonds
Rule of thumb answer is covalent bonds form between non metal elements.
Bonds between atoms involve electrons.
Hydrogen bonds
The bond between water molecules is known as a hydrogen bond.
They are [accurately] termed to be peptide bonds.
cytosine and guanine form three hydrogen bonds between them
Gene transfer between cells generally consists of the following steps: 1. Isolating the gene of interest - Here, the gene which has to be transferred has to be isolated from the genome of the source (or host) organism. 2. Splicing the gene if interest into a plasmid. Splicing is a process wherein a foreign strand of DNA (the gene of interest) is inserted into a loop of DNA called a plasmid. The plasmid DNA is cut open to form a linear fragment. The gene of interest is then attached to the plasmid DNA. The plasmid DNA is converted back into the loop form with the help of an enzyme called DNA ligase. 3. Gene amplification: Here, the plasmid containing the gene of interest is amplified. Which means, many copies of the plasmid containing DNA are created through a process called the polymerase chain reaction. 4. Transfection: This is the final step wherein the plasmid containing DNA is inserted into the recipient organism. Sometimes the foreign DNA remains within the plasmid and is able to express protein. Other times, the gene of interest can be engineered to contain a sequence called the recombination sequence which will allow it to integrate (or join) the host genome through a process called homologous recombination. By the method described above, a foreign gene is removed from one organism and inserted into another. If the gene of interest is integrated into the host of the recipient organism, copies of it are made every time the host cells divide.
The bonds that form between two or more monosaccharides during the formation of a disaccharide is a glycosidic linkage.
covalent bonds are formed when electrons are shared between atoms.