A '''gap junction '''is a specialised channel that connects adjacent cells to allow direct communication with each other. &nbsp;'''Gap junction''' allows [[Ions|ions]], [[Metabolite|metabolites]] such as [[Amino acids|amino acids]] and water soluable [[Molecules|molecules]], but not [[Macromolecules|macromolecules]] like [[Proteins|proteins]],&nbsp;to pass through the channel due to the narrow nature of the channel. &nbsp;The molecules that are able to manoeuvre through the channel plays a significant role in intracellular communication. &nbsp;The key feature of a '''gap junction''' is that it enables direct [[Cell|cell]] to [[cell|cell]] communication without having signalling molecules to travel to extracellular space or to other [[Organelles|organelles]]. &nbsp;Another key feature that sets '''gap junction''' from the other cell signalling is, gap junction allows communication to flow in both directions between the adjacent cells. &nbsp;The main purpose of this bi-directional communication is to normalise the conditions between communicating cells. &nbsp;In addition, the bi-directional communication can assist in spreading the message between the cells caused by any [[extracellular signals|extracellular signals]], therefore the cells is able to ellicit a response and coordinate their actions rapidly<ref>Alberts, B. Johnson, A. Lewis, J. Raff, M. Roberts. K, Walter.. (2008). Mechanisms of Cell Communication. In: Anderson, M. and Granum, S. Molecular Biology of The Cell. 5th ed. United States of America: Garland Science, Taylor &amp;amp;amp;amp;amp;amp;amp;amp; Francis Group, LLC, an informa business. 884.</ref><ref>Berg, J. Tymoczko, L. Stryer, L.. (2007). Membrane Channels and Pumps. In: Ahr, K. Moran, S. Baker, A. Tymoczko, N. Goldman, D. Moscatelli, B. Hadler, G. Zimmerman, P. Biochemistry. 6th ed. United States of America: W.H. Freeman and Company. 374.</ref>.<br>