Abstract
The formation and maintenance of plant stem cell populations are controlled by the WOX family of homeobox-containing transcription factors. The evolution of WOX genes is considered one of the main reasons for the morphology of flowers and the diversity in plant architecture. The stem cell regulation mechanism is considered to be conserved among flowering plants and most thoroughly studied in Arabidopsis thaliana as a model. The angiosperms morphological diversity implies that there are species-specific features inherent in this mechanism, while the basic signaling is maintained. The unique flowering achlorophyllous mycoheterotrophic plant Monotropa hypopitys obtains nutrients from the tree roots through the mycorrhizal symbiosis. In inductive conditions, the reproductive stem with bracts and an inflorescence at the top is developed from an adventitious root bud. Like other plants, M. hypopitys forms the inflorescence, flower and root meristems, presumably using the conserved mechanisms regulating the stem cell niche. The study of M. hypopitys homeobox genes should contribute to the knowledge about the function of WOX transcription factors and the further understanding of the stem cells’ control mechanisms in the mycoheterotrophic species. The aim of this study is to analyze the M. hypopitys root, bracts, and flower transcriptomes obtained from two individual flowering plants. In total, five WOX genes have been identified and characterized by their structure, phylogeny, expression pattern, and possible functions. The assumption is that the MhyWUS1 and MhyWUS2 genes maintain the stem cell population in the inflorescence and flower meristems; MhyWOX13 has a role in controlling the root stem cell niche, seed pod formation, flowering initiation, and basic cellular processes; MhyWOX4 controls the cambium stem cells; and MhyWOX2 participates in the differentiation of egg cells and zygotes.
Highlights
The formation and maintenance of plant stem cell populations are controlled by the WOX family of homeobox-containing transcription factors
The stem cell regulation mechanism is considered to be conserved among flowering plants and most thoroughly studied in Arabidopsis thaliana as a model
The study of M. hypopitys homeobox genes should contribute to the knowledge about the function of WOX transcription factors and further understanding of the stem cells control mechanisms in mycoheterotrophic species
Summary
The formation and maintenance of plant stem cell populations are controlled by the WOX family of homeobox-containing transcription factors. The study of M. hypopitys homeobox genes should contribute to the knowledge about the function of WOX transcription factors and further understanding of the stem cells control mechanisms in mycoheterotrophic species. Как цитировать эту статью: Щенникова А.В., Шульга О.А., Кочиева Е.З., Белецкий А.В., Филюшин М.А., Равин Н.В., Скрябин К.Г.
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