I have written a few times about the so-called “anomeric effect“, which relates to stereoelectronic interactions in molecules such as sugars bearing a tetrahedral carbon atom with at least two oxygen substituents. The effect can be detected when the two C-O bond lengths in such molecules are inspected, most obviously when one of these bonds has a very different length from the other. The effect originates when one of the lone pair of electrons on one oxygen atom uniquely overlaps with the C-O antibonding σ* on another oxygen, thus shortening the length of the donating oxygen-carbon length and lengthening the length of accepting C-O bond. Here I take a look at tetra-substituted versions of this (C(OR)4), where in theory there are up to eight lone pairs, interacting with any of three C-O bonds, giving a total of 24 possible anomeric effects in one molecule.