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Cognition, in all its diverse forms, can be attributed to the formation of specialized neural circuits in the brain. While in response to conscious experiences, arising due to sensory stimulation, neural assemblies are formed, conscious experience is itself an outcome of sustained synchronous firing of a neural assembly. This leads to a paradoxical situation or Neural Development Paradox-what comes first: the conscious experience or the neural assembly? To have zero-lag synchronous activity amongst neurons of an assembly, which is needed for binding individual responses into a conscious percept, we need a very rapid source of communication between them. Axonal conduction delays amounting to several tens of milliseconds cannot account for the zero-lag synchrony across spatially separated brain areas, which is required for STDP Hebbian learning to hardwire a neural assembly. Hence, an alternate means of instantaneous communication needs to be explored. According to the Penrose-Hameroff Quantum Approach towards consciousness, the microtubule cytoskeleton acts as a quantum computer whose collapsed states are conscious experiences manifesting in the form of an activated neural assembly. Neurons, whose microtubules are entangled, get connected by means of gap junctions, behaving like one giant neuron, firing in synchrony, seemingly breaking the Neural Development Paradox. By mental force of directed attention, Quantum Zeno Effect can be instigated, as suggested by Von Neumann-Stapp, causing the activated state of the brain to stabilize till Hebbian learning strengthens the synaptic connections, giving way to a …