Inger Hakman scite author profile

In angiosperms, the WOX family of transcription factors has important functions in meristem regulation and in control of the partitioning of developing embryos into functional domains. In this study, a putative WOX2 homologous gene was isolated from Picea abies, and its expression pattern during somatic embryo development was followed using real-time quantitative reverse transcription polymerase chain reaction (qRT-PCR). We used strategies of both absolute and relative quantification of gene expression, and benefits and disadvantages of the two methods are presented and discussed. During embryogenesis, PaWOX2 expression was highest at the earliest stages of development, but low levels were also detected in seedling tissues. No PaWOX2 expression was detected in a non-embryogenic cell culture, indicating that PaWOX2 plays a fundamental role during early somatic embryo development, and can be used as a possible marker for embryogenic potential. Additional results show that conifers, like angiosperms, contain a large number of WOX-related genes, many of them expressed during embryo development. In phylogenetic analysis based on the deduced homeodomain of retrieved pine and spruce EST sequences, no conifer WUS homolog was found. Neither did we find any homeodomain to cluster with WOX5. Interestingly, a clade including only conifer sequences derived from various tissues was resolved as sister to a Physcomitrella WOX-like gene, suggestive of the early origin of this gene family. Our results thus provide basic information for further studies of the evolution of this gene family and of their function in relation to meristem dynamics and specification of stem cells in gymnosperms.

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Comparative expression pattern analysis of WUSCHEL‐related homeobox 2 (WOX2) and WOX8/9 in developing seeds and somatic embryos of the gymnosperm Picea abies

Palovaara

Hallberg

Stasolla

et al. 2010

New Phytologist

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Summary• In seed plants, current knowledge concerning embryonic pattern formation by polar auxin transport (PAT) and WUSCHEL-related homeobox (WOX) gene activity is primarily derived from studies on angiosperms, while less is known about these processes in gymnosperms. In view of the differences in their embryogeny, and the fact that somatic embryogenesis is used for mass propagation of conifers, a better understanding of embryo development is vital.• The expression patterns of PaWOX2 and PaWOX8 ⁄ 9 were followed with quantitative reverse transcription-polymerase chain reaction (qRT-PCR) and in situ hybridization (ISH) during seed and somatic embryo development in Norway spruce (Picea abies), and in somatic embryos treated with the PAT inhibitor N-1-naphthylphthalamic acid (NPA).• Both PaWOX2 and PaWOX8 ⁄ 9 were highly expressed at the early growth stages of zygotic and somatic embryos, and shared a similar expression pattern over the entire embryo. At later embryo stages, high expression of PaWOX8 ⁄ 9 became restricted to cotyledon primordia, epidermis, procambium and root apical meristem (RAM), which became most evident in NPA-treated somatic embryos, while expression of PaWOX2 was much lower.• Our results suggest an ancestral role of WOX in seed plant embryo development, and strengthen the proposed connection between PAT, PIN-FORMED (PIN) and WOX in the regulation of embryo patterning in seed plants.

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Plantlet Regeneration through Somatic Embryogenesis in Picea abies (Norway Spruce)

Hakman

Arnold

1985

Journal of Plant Physiology

175

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Regulation of Somatic Embryo Development in Picea abies by Abscisic Acid (ABA)

Arnold

Hakman

1988

Journal of Plant Physiology

186

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Inger Hakman

The development of somatic embryos in tissue cultures initiated from immature embryos of Picea abies (Norway Spruce)

Conifer WOX-related homeodomain transcription factors, developmental consideration and expression dynamic of WOX2 during Picea abies somatic embryogenesis

Comparative expression pattern analysis of WUSCHEL‐related homeobox 2 (WOX2) and WOX8/9 in developing seeds and somatic embryos of the gymnosperm Picea abies

Plantlet Regeneration through Somatic Embryogenesis in Picea abies (Norway Spruce)

Regulation of Somatic Embryo Development in Picea abies by Abscisic Acid (ABA)

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