The relation between Tsallis δ-entropy of DNA-Branes exterior and interior of shell

In this research, we calculate Tsallis δ-entropy and microstates of a rotating DNA by using concepts of hexagonal and pentagonal black branes. We argue that DNA is a massive brane-like object with more than 7 meter long which contracts in an small place. This leads to the emergence of a Rindler horizon and a curved space–time around a DNA. In this system, rotation of DNA leads to the radiation of some special waves. These waves lead to the motion of electrons in a metal wire and emergence of a current. This current has a direct relation with number of microstates of DNA and is different for females and males. By considering evolutions of this current, we determine some properties like entropy, number of microstates and gender.