This report describes a theoretical study of the 1,3-dipolar cycloadditions between dimethylvinylborane and different chiral nitrones, aimed at identifying the requisite structural features to achieve high levels of selectivity. Excellent regioselectivities towards the formation of the 5-borylisoxazolidines are computed in all cases due to the presence of a strong secondary orbital interaction between the boron of the vinylborane and the oxygen of the nitrones. While these transition structures show [3+3] character, 4-boryl regioisomeric structures have classical [3+2] character with weak carbon–boron secondary orbital interactions. Endo transition structures leading to the favoured products adopt chair-like conformations only, unlike their exo counterparts, which exhibit either boat or twist-boat structures. Placing a stereocentre adjacent to the nitrone nitrogen appears to be an effective strategy to stereodiscriminate the anti and syn approaches of the dipolarophile.