Evolution of zygomycetous spindle pole bodies: Evidence from Coemansia reversa mitosis.
نویسندگان
چکیده
PREMISE OF THE STUDY The earliest eukaryotes were likely flagellates with a centriole that nucleates the centrosome, the microtubule-organizing center (MTOC) for nuclear division. The MTOC in higher fungi, which lack flagella, is the spindle pole body (SPB). Can we detect stages in centrosome evolution leading to the diversity of SPB forms observed in terrestrial fungi? Zygomycetous fungi, which consist of saprobes, symbionts, and parasites of animals and plants, are critical in answering the question, but nuclear division has been studied in only two of six clades. METHODS Ultrastructure of mitosis was studied in Coemansia reversa (Kickxellomycotina) germlings using cryofixation or chemical fixation. Character evolution was assessed by parsimony analysis, using a phylogenetic tree assembled from multigene analyses. KEY RESULTS At interphase the SPB consisted of two components: a cytoplasmic, electron-dense sphere containing a cylindrical structure with microtubules oriented nearly perpendicular to the nucleus and an intranuclear component appressed to the nuclear envelope. Markham's rotation was used to reinforce the image of the cylindrical structure and determine the probable number of microtubules as nine. The SPB duplicated early in mitosis and separated on the intact nuclear envelope. Nuclear division appears to be intranuclear with spindle and kinetochore microtubules interspersed with condensed chromatin. CONCLUSIONS This is the sixth type of zygomycetous SPB, and the third type that suggests a modified centriolar component. Coemansia reversa retains SPB character states from an ancestral centriole intermediate between those of fungi with motile cells and other zygomycetous fungi and Dikarya.
منابع مشابه
Ultrastructure of Mitosis and Spindle Pole Bodies in the Zygomycetous Fungus Coemansia reversa Using Conventional Fixation and Freeze Substitution
The purpose of the Assembling the Fungal Tree of Life project (AFTOL) is to better understand the evolutionary history of the Kingdom Fungi using multiple data types, including molecular sequences and ultrastructural characters [1]. Microscopic features such as nuclear division and associated organelles, e.g., spindle pole bodies (SPB), are informative for revealing relationships between many t...
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ورودعنوان ژورنال:
- American journal of botany
دوره 102 5 شماره
صفحات -
تاریخ انتشار 2015