Eric Eugene JOHNSON
Department of Biology, Virginia Wesleyan University, Virginia
Beach, VA – United States
Alyssa TAYLOR-LAPOLE
Department of Mathematics, North Carolina State University, Raleigh,
NC – United States
Matthew BAVUSO
Philips Institute, Virginia Commonwealth University, Richmond,
VA – United States
https://doi.org/10.47743/jpd.2023.30.1.930
Keywords: bryophyte, BURP-domain proteins, cell
wall, flagella, gametogenesis, spermatid development.
Abstract: Seedless plants utilize flagellated
sperm cells for reproduction that develop using a series of cell
walls resulting in naked motile cells. Arabinogalactan Proteins
(AGPs) have been shown to play an important role in the maturation
of sperm in ferns by an unknown mechanism. We sought to identify
AGPs expressed in the spermatids of the moss Physcomitrium
patens to identify this mechanism because it is amenable
to genetic manipulation. We tracked the expression of 121 putative
AGP-encoding genes across three time points of development with
RNAseq and quantified total AGPs to compare to the fern Ceratopteris
richardii. Unexpectedly, AGP genes and proteins were significantly
downregulated in P. patens. BURP domain-containing genes,
which are expressed in pollen of angiosperms, were highly upregulated
and may serve similar roles to the AGPs of ferns. This study shows
that the fern cell walls do not share as significant of a need
for AGPs of developing sperm in bryophytes and this may be related
to the number of flagella found in the respective lineages.
How to cite this article:
JOHNSON E. E., TAYLOR-LAPOLE A. M. & BAVUSO M. 2023. Downregulation
of arabinogalactan proteins during spermatogenesis in the moss
Physcomitrium patens. J. Plant Develop. 30:
3-15
https://doi.org/10.47743/jpd.2023.30.1.930
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