Reorganization in Amicronucleates with Defective Mouth of the Ciliate Pseudourostyla levis 1

. The purpose of this work is to examine the reorganization process in amicronucleates with defective mouth of the multimicronuclear ciliate, Pseudourostyla levis . The amicronucleates were derived from fragments obtained by transection of normal micronucleates. The cell size of the amicronucleates was extremely unstable and varied from 57.5 to 276.3 μm long (n = 146), whereas the micronucleates kept rather stable cell lengths with a range from 162.5 to 266.3 μm (mean ± SD = 213.1 ± 19.6 μm, n = 206). The renucleates obtained by transplantation of a micronucleus to an amicronucleate returned to almost normal cell size (mean ± SD = 203.7 ± 16.5 μm long, n = 54). Under the usual culture conditions in the amicronucleate cell line, the number of abnormal cells with defective mouth rapidly increased, up to about 60%, until a stationary phase. Similarly, abnormal cells also appeared in micronucleates although the frequency was always less than 10%. The mean number of membranelles in the normal adoral zone of membranelles (AZM) was 82.6 ± 3.9 (±SD, n = 49) vs. 57.3 ± 7.9 (n = 81) in ciliates with defective mouths. The missing part of the AZM was always the anterior part of the lapel. Cells with defective mouth underwent reorganization (= physiological regeneration) under the usual culture conditions. During reorganization, the lapel part of the old AZM was transformed into a new collar part. The defective mouth was repaired through this developmental process. These results suggest that in P. levis the decrease of food supply often leads to the loss of a specific part of the AZM and that this membranellar loss is suppressed by the existence of micronuclei.