Ultrastructure of meiosis in the hollyhock rust fungus,Puccinia malvacearum II. Metaphase I—Telophase I

Abstract

The three-dimensional structure of the spindle pole body (SPB) and meiotic spindle during early metaphase I through telophase I inPuccinia malvacearum is analyzed ultrastructurally from serial sections. During early metaphase I the spindle rotates from the perpendicular to a position oblique to the longitudinal axis and parallel to the sagittal plane of the cell. Tubular cisternae are present within the spindle at this stage. The half middle piece (MP) subtends a collateral disc (co-disc) which is inserted eccentrically within each SPB. The SPB, co-disc and half MP at opposite poles are in mirror image. During the transition from early metaphase I to full metaphase I, the spindle orients parallel to the lateral wall of the promycelium and the half MPs are lost. The co-discs partially detach from each discoid SPB and maintain this relation until the end of interphase I. Co-discs become further differentiated as they attach to the subtending sheath-like extension of the nuclear envelope previously occupied by the half MPs. Microvesicles within the nucleoplasm are specific to mid metaphase I. A metaphase plate is absent. The 14 bivalents, which are directly connected to each polar SPB by 2 to 3 kinetochore MTs, are spread over nearly the entire length of the central spindle. The first anaphasic movement involves asynchronous shortening of the kinetochore MTs while the second consists of extensive pole-to-pole elongation. Astral MTs first appear at early metaphase I and become most numerous at anaphase I. An intact nuclear envelope constricts against the central spindle at either end of the interzonal region. Concurrently, centripetal growth of the nuclear envelope under each SPB results in their gradual externalization by the end of telophase I. The sibling nuclei are cut off by constriction of the nuclear envelope at either end of the interzonal region. These meiotic stages inP. malvacearum are compared with those in other basidiomycetes and ascomycetes.