Comparative development of the sporophyte–gametophyte junction in six moss species

Uzawa, Mihoko; Higuchi, Masanobu

doi:10.1007/s10265-010-0339-0

Cited by 7 publications

(6 citation statements)

References 25 publications

(28 reference statements)

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“…The haustorium cells of the sporophyte foot are not pressed against the vaginula tissue but surrounded by a placenta-like space, while both tissues are separated by a diffusion barrier (Uzawa & Higuchi, 2010; Regmi et al ., 2017). The foot of the sporophyte is wider than the seta with a small depression between seta and foot, while vital sporophytes are tightly attached to the gametophore.…”

Section: Discussionmentioning

confidence: 99%

A Physcomitrella PIN protein acts in spermatogenesis and sporophyte retention

Lüth

Rempfer

Herzog

et al. 2022

Preprint

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SummaryThe auxin efflux PIN-FORMED (PIN) proteins are conserved in all land plants and important players in plant development. In the moss Physcomitrella (Physcomitrium patens) three canonical PINs (PpPINA-C) are expressed in the gametophore. PpPINA and PpPINB show functional activity in vegetative growth and sporophyte development. Here, we examined the role of PpPINC in the life cycle of Physcomitrella.We established reporter and knockout lines for PpPINC and analysed vegetative and reproductive tissues using microscopy and transcriptomic sequencing of moss gametangia.PpPINC is expressed in immature leaves, mature gametangia and during sporophyte development. The sperm cells (spermatozoids) of knockout mutants exhibit increased motility compared to the wild type and show an altered flagella phenotype. Further, the knockout mutants have a significantly increased fertility, and an increased abortion rate of premeiotic sporophytes.Here, we show that PpPINC is an important regulator for spermatogenesis and sporophyte development. We propose an evolutionary conserved way of polar growth during early moss embryo development and sporophyte attachment, while suggesting the mechanical function in sporophyte securement of a ring structure, the Lorch ring.

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Section: Discussionmentioning

confidence: 99%

A Physcomitrella PIN protein acts in spermatogenesis and sporophyte retention

Lüth

Rempfer

Herzog

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…1A). Mitotic divisions of this meristem promote elongation of the embryonic axis and thereby facilitate penetration of the foot into gametophytic tissues (Vaizey, 1888;Uzawa and Higuchi, 2010). Downward penetration requires that the sporophyte elongates faster than the epigonium and that gametophytic tissues provide less resistance to expansion in the downward than upward direction.…”

Section: Gametophyte -Sporophyte Relationsmentioning

confidence: 99%

“…The placental space is littered with cellular debris as cell walls disintegrate in advance of the sporophytic foot (Browning and Gunning, 1979a;Frey et al, 2001;Uzawa and Higuchi, 2010). This gross morphology suggests the aftermath of a struggle between the generations.…”

Section: Basal Interfacementioning

confidence: 99%

“…Considerable variation exists in the depth to which the sporophytic foot penetrates maternal tissues (Roth, 1969;Ligrone et al, 1993;Uzawa and Higuchi, 2010). The presence or absence of barriers to unfettered flow between maternal and offspring tissues is also variable.…”

Section: Basal Interfacementioning

confidence: 99%

“…Apoplastic continuity between gametophytic and sporophytic hydroids is present in Bryum capillare (Ligrone and Gambardella, 1988) and Funaria hygrometrica (Browning and Gunning, 1979c) whereas the two sets of hydroids are separated by a layer of sporophytic transfer cells in Timmiella barbuloides (Ligrone et al, 1982). The foot does not penetrate as far as the maternal vascular strand in other mosses (Uzawa and Higuchi, 2010).…”

Section: Basal Interfacementioning

confidence: 99%

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