Going back to the original question, molecular orbitals by definition involve the whole molecule, and all electrons are involved in MO formation, both core and valence electrons. However, how these orbitals are formed depends on the relative energies of the atomic orbitals involved. For example, let's take H
2O. From an atomic orbital perspective, O has two 1s electrons, two 2s electrons, and 4 2p electrons, while H has one 1s electron. When O and H combine to form water, the atomic orbitals of O and H combine to receive the ten electrons (8 from O, 1 from each H). Five of those new molecular orbitals will be occupied by the electrons: 1a
1, 2a
1, 1b
2, 3a
1, and 1b
1 (in ascending order of energy).
The 1a
1 orbital in the water molecule is similar in energy to the 1s orbital of O, hence you can think of it as coming from the core electrons of O (not from the overlap between O and H).
The 2a
1, 1b
2, and 3a
1 orbitals have densities around the O and H nuclei, hence these are the ones mostly responsible for the binding of these two atoms.
The 1b
1 comes from the non-interacting 2p
y O orbital and it is essentially a non-bonding orbital.
Water has also three unoccupied antibonding molecular orbitals of higher energy than the 3a
1 orbital: 4a
1, 2b
2, and 3b
2. It has been reported that the 4a
1 and 2b
2 antibonding orbitals are partially involved in the O-H bond formation, by receiving electrons from the 1b
1 orbital.
In summary, the electronic configuration of water using molecular orbitals can be written as 1a
12 2a
12 1b
22 3a
12 1b
12. Notice how all atomic orbitals are involved in the formation of the molecular orbitals, even though the origin of the molecular orbital may be from either or both atoms involved in the bonding in this case.
Most MO diagrams show only the valence bonds, so you may get the impression that only the valence electrons are involved in MO formation, when in fact all electrons are involved in MOs, but only the valence electrons are involved in the bonding.
The methane case is discussed here with nice pictures:
http://csi.chemie.tu-darmstadt.de/a...mel/tutorials/orbitals/molecular/methane.html
I hope this helps.