The general theory of relativity (GTR) has been enormously successful in describing gravity. However, some problems remain with gravity, dark matter and dark energy is not explained. The formation of black hole reults in the presence of singularities. There appears to be infinite time dilation at the event horizon, which means that matter cannot enter the black hole in the lifetime of the Universe. Equally, there is no definitive form of quantum gravity. Here we deconstruct the equations used in the formulation of GTR. This gives a dynamic form of Newtonian advanced gravity termed DNAg, which resolves a number of problems in gravity. Firstly, it explains the presence of cosmological dark matter. Secondly it is possible to explain the presence of dark matter at the centre of the galaxy. Thirdly it is possible to explain the presence of dark matter in the galactic halo. Equally, it is able to explain the presence of dark energy and can be translated into quantum gravity. By the same token it obviates the infinite density singularities formed in black holes. It does not offer infinite time dilation at the event horizon. Moreover, it is corroborated in neutron stars, including data from gravitational radiation damping and is corroborated by black hole studies. Importantly, it offers future predictions for cosmological and black hole physics, which will be readily testable using the newly commissioned event horizon telescope.