The majority of autoantibodies against the nicotinic acetylcholine receptor (AChR) bind to an extracellular region of the AChR's alpha-subunit, named main immunogenic region (MIR), with the sequence W67-N-P-A-DY-G-G-I-K76 for the Torpedo californica electric organ. We report on the synthesis and the biological and 1H-NMR studies of two cyclic MIR compounds--namely, [D71,K76]-MIR-NH2 and Ac-[Orn68,D71,A76]-MIR-NH2. The relatively small chemical shift differences between [D71,K76]-MIR-NH2 and the biologically active [A76]-analogue suggest that both MIR derivatives possess similar conformations. Thus, the observed limited anti-MIR MAb binding capacity of [D71,K76]-MIR-NH2 is attributed to the D71,K76 side-chain blockage, through lactam. Formation of the Orn68,D71 cycle in the Ac-[Orn68,D71,A76]-MIR-NH2 preserves, unchanged, the low antigenicity of the linear Ac-[Orn68,A76]-MIR-NH2, thus confirming the key role of position 68. The low temperature coefficient value of A70-NH and the observed NOE effect between P69-C delta H2 and A70-NH in Ac-[Orn68,D71,A76]-MIR-NH2 argue in favor of a type I beta-turn in the Trp67-Orn-P-A70 sequence. However, the N-terminus beta-folding and the Orn68,D71 cycle appear ineffective for optimal antibody molecular recognition.