In the context of minimal left-right model based on the gauge group $SU(2)L \times SU(2)_R \times U(1){B-L}$. In this context, right handed neutrinos appears naturally. The scalar sector is composed for one bidoublet and two triplets. Also, neutrinos adquiere mass including left and right Majorana mass terms in addition to the Dirac standard mass term. There are two cases for the left-right symmetry which are charge conjugation and parity. We explore the impact of both cases in the determination of the Dirac mass matrix including neutrino oscillation data.

In the context of minimal left-right model based on the gauge group $SU(2)L \times SU(2)_R \times U(1){B-L}$. In this context, right handed neutrinos appears naturally. The scalar sector is composed for one bidoublet and two triplets. Also, neutrinos adquiere mass including left and right Majorana mass terms in addition to the Dirac standard mass term. There are two cases for the left-right symmetry which are charge conjugation and parity. We explore the impact of both cases in the determination of the Dirac mass matrix including neutrino oscillation data.