Adenine and Thymine
Guanine and Cytosine held together by hydrogen bonds: 2 for A-T and 3 for G-C
Between adenine and thymine there are two hydrogen bonds. Between guanine and cytosine there are three.
There are two hydrogen bonds between adenine and thymine (or adenine and uracil in the case of RNA) and three hydrogen bonds between guanine and cytosine.
No, guanine and cytosine have three hydrogen bonds between them and thymine and adenine have two hydrogen bonds between them.
Nucleic base pairs are held together by either 2 or 3 hydrogen bonds.
A and T are held together with 2 H-bonds, and G and C are held together with 3 H-bonds.
3 hydrogen bonds.
three
Ionic bonds do hold many inorganic compounds together (there are many covalently bonded inorganic compunds too) and organic compounds all contain carbon which always participates in a covalent bond.
There are many types of bonds and forces that bind molecules together. The two most basic types of bonds are ionic and covalent.
Hydrogen bonds are the strongest of the intermolecular forces that hold molecules together. They are important because the presence or absence of hydrogen bonds determines many physical and chemical characteristics of the compound in question. For example, a molecule with significant hydrogen bonding will have a much higher boiling point than one with no hydrogen bonding.
Carbohydrates is a very broard class of sugar molecules and monomers can join in many ways. 1,4- beta glycosidic bonds 1,4- alpha glycosidic bonds 1,6 glycosidic bonds 1 and 6 are refering to the carbon molecules and Beta and alpha refer to the orientation of the sugars with respect to each other. But for a simple answer they connect to each other by glycosidic bonds.
The bonds of the atom are covalent where as the bonds between the base pairs are hydrogen.
three
There are many types of bonds and forces that bind molecules together. The two most basic types of bonds are ionic and covalent.
Covalent bonds can hold to gether many atoms and are not limited to a certain element.
In his rookie season of 1986, Barry Bonds stole 36 bases.
3
The bases in a DNA double helical chain are paired A-T and C-G. The A and T bases are bound by 3 hydrogen bonds per pair, and the C and G bases are bound by three hydrogen bonds per pair.
In 2001, Barry Bonds stole 13 bases.
3
Covalent bonds between a sugar molecule (deoxyribose) and a phosphate group make up the backbone of DNA. These are very strong covalent bonds and are broken only with great expenditure of energy--x-rays, for example.
Barr Bonds
Hydrogen.