Ultrastructure of meiosis in the hollyhock rust fungus,Puccinia malvacearum

Changes in the spindle pole body (SPB) and meiotic nuclei from interphase I through interphase II in the hollyhock rustPuccinia malvacearum are analyzed ultrastructurally by three-dimensional reconstructions from serial sections. Interphase I nuclei undergo a coordinated migration and rotation during which the SPBs approach the convex face of the lateral promycelial wall. During the transition from interphase I to prometaphase II, the collateral disc (co-disc) apparently enlarges and fuses with the main disc of the SPB. The resulting single SPB nucleates two confluent half spindles and about 225 astral microtubules (MTs). Co-discs and middle pieces (MPs) are absent during division II. SPBs separate and form metaphase II intranuclear spindles oriented in a predictable manner. Tubular cisternae are present within the spindle at early metaphase II. The architecture of the spindle at division II is essentially identical to that reported for division I except that the spindle is about half as long. Anaphase-telophase II nuclear envelope constriction, separation of the sibling nuclei, and externalization of the SPBs is identical to that reported for division I. Genesis of the duplicated interphase II SPB apparently occurs rapidly and involves formation of the MP followed by the three-layered SPB discs. General aspects of the division II spindle are discussed. A model for the meiotic SPB cycle in a rust is presented and its phylogenetic and functional significance in relation to other basidiomycetes and ascomycetes is discussed.