To expand the applicability of recently developed dioxane- and morpholino-based nucleotide analogues, their seed region destabilizing properties in small interfering RNAs (siRNAs) were investigated in order to improve potential off-target profiles. For this purpose, the corresponding adenosine analogues were synthesized in two diastereomeric series as building blocks for the automated oligonucleotide synthesis. The obtained nucleotide precursors were integrated at position 7 of an siRNA antisense strand, targeting transthyretin messenger RNA. Evaluation of the melting temperatures revealed significant differences in the obtained duplex stabilities between the two diastereomeric series, while the influence of the central scaffold was small. All siRNAs containing these novel nucleotide structures showed improved off-target profiles in vitro compared to their parent sequence with the common 2'-OMe-modified adenosine at the same position. In contrast, in vivo potencies were highly dependent on the chirality within the six-membered nucleotide scaffolds and showed high mRNA downregulations for the (2R,6R)-configured diastereomers.