1. The formation of integuments, megasporogenesis and megagametogenesis in Dendrobium catenatum, with special discussions on embryo sac types and section techniques
- Author
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Cheng-qi Ao, Liang Li, Xiao-feng Wang, and Yong Chen
- Subjects
orchidaceae ,Dendrobium catenatum ,Embryo ,Plant Science ,iron-skin dendrobe ,Biology ,Megagametogenesis ,embryo sac ,Section (archaeology) ,monosporic polygonum type ,Botany ,technovit section technique ,QK900-989 ,Megaspore ,Plant ecology - Abstract
The formation of integuments, megasporogenesis and megagametogenesis in Dendrobium catenatum, an economically important orchid, are observed. After pollination, mitotic cell divisions of the placental epidermis result in the formation of a branching system of outgrowths. The tip of each branch consists of an archesporial cell derived from the differentiation of the terminal subepidermal nucellar cell. It differentiates directly into a megasporocyte. The first division of the meiosis of the megasporocyte produces a dyad approximately equal in size, in which the micropylar cell promptly degenerates. The second meiotic division of the remaining dyad cell results in the formation of two megaspores of unequal size. The larger chalazal cell becomes functional and eventually develops into a mature megagametophyte. The development of the megagametophyte conforms to the Monosporic Polygonum type. The final arrangement of the mature embryo sac conforms to a sevencelled/ eight-nucleate structure. The mature ovule is bitegmic, tenuinucellate and has an anatropous orientation. In the present study, we also discuss the differences between three main types of embryo sac development and the improvement of section techniques.
- Published
- 2021
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