Soluble Invertase Expression Is an Early Target of Drought Stress during the Critical, Abortion-Sensitive Phase of Young Ovary Development in Maize

Andersen, Mathias Neumann; Asch, Folkard; Wu, Yong; Jensen, Christian R.; Næsted, Henrik; Mogensen, Vagn O.; Koch, Karen E.

doi:10.1104/pp.005637

Cited by 229 publications

(212 citation statements)

References 64 publications

(104 reference statements)

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“…A second possibility is that vacuolar-targeted IVR2, present in the ESR, is mis-localized to the cell wall. IVR2 has been localized to the pedicel region by in situ analysis (Andersen et al, 2002), and we have demonstrated a strong in situ hybridization signal for IVR2 transcript in the ESR at 5 DAP (Y. Wang and N.J. Bate, unpublished data). A third possibility is that ZM-INVINH1 functions to inhibit an as yet uncharacterized apoplastic invertase (INCW).…”

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 86%

“…Mutations in this gene result in miniature kernels (the mn1 mutation) and have a severely reduced endosperm (Cheng et al, 1996;Vilhar et al, 2002). Recently, the association of a IVR2, a soluble invertase expressed during early kernel development, with seed yield under conditions of limiting photosynthesis suggests that soluble invertases also play a significant role in providing hexose sugars to support cell division during the prestorage phase (Andersen et al, 2002), as has been previously suggested (Zinselmeier et al, 1999).Invertases exhibit complex regulation at the transcriptional and posttranscriptional levels in response to developmental, environmental, and carbohydrate signals (Sturm, 1999). In addition, small (Ͻ20-kD) inhibitor proteins (INVINH) have been associated with invertase preparations in a number of dicot plant species (Pressey, 1994;Weil et al, 1994;Krausgrill et al, 1996Krausgrill et al, , 1998Greiner et al, 1998Greiner et al, , 2000 since their first biochemical characterization (Pressey, 1966;Jaynes and Nelson, 1971).…”

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An Invertase Inhibitor from Maize Localizes to the Embryo Surrounding Region during Early Kernel Development

et al. 2004

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Invertase activity is thought to play a regulatory role during early kernel development by converting sucrose originating from source leaves into hexoses to support cell division in the endosperm and embryo. Invertases are regulated at the posttranslational level by small protein inhibitors, INVINHs. We found that in maize (Zea mays), an invertase inhibitor homolog (ZM-INVINH1) is expressed early in kernel development, between 4 and 7 d after pollination. Invertase activity is reduced in vitro in the presence of recombinant ZM-INVINH1, and inhibition is attenuated by pre-incubation with sucrose. The presence of a putative signal peptide, fractionation experiments, and ZM-INVINH1::green fluorescent protein fusion experiments indicate that the protein is exported to the apoplast. Moreover, association of ZM-INVINH1 with the glycoprotein fraction by concanavalin A chromatogaphy suggests that ZM-INVINH1 interacts with an apoplastic invertase during early kernel development. ZM-INVINH1 was localized to the embryo surrounding region by in situ analysis, suggesting that this region forms a boundary, compartmentalizing apoplast invertase activity to allow different embryo and endosperm developmental rates.Kernel development in maize (Zea mays) proceeds through a series of tightly regulated, overlapping stages. After double fertilization, during the prestorage phase, two distinct cell types are established: the triploid endosperm and the diploid embryo. Despite clearly different cell fates, the embryo and endosperm both rely upon photosynthate from source leaves transported through the maternal pedicel region of the developing kernel, ending at the terminal phloem cells. The presence of Suc-hydrolyzing enzymes, which produce hexose sugars from Suc, have been identified as critical for the establishment of the prestorage phase of seed development, and Suc hydrolysis is an important component of realizable plant yield (Cheng and Chourney, 1999;Weschke et al., 2003). The "invertase control hypothesis," largely based on work from dicots (Wobus and Weber, 1999), is supported in maize by the presence of a cell wall invertase, INCW2, localized to the basal endosperm transfer layer (Talercio et al., 1999). Mutations in this gene result in miniature kernels (the mn1 mutation) and have a severely reduced endosperm (Cheng et al., 1996;Vilhar et al., 2002). Recently, the association of a IVR2, a soluble invertase expressed during early kernel development, with seed yield under conditions of limiting photosynthesis suggests that soluble invertases also play a significant role in providing hexose sugars to support cell division during the prestorage phase (Andersen et al., 2002), as has been previously suggested (Zinselmeier et al., 1999).Invertases exhibit complex regulation at the transcriptional and posttranscriptional levels in response to developmental, environmental, and carbohydrate signals (Sturm, 1999). In addition, small (Ͻ20-kD) inhibitor proteins (INVINH) have been associated with invertase preparations in a number of dico...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 86%

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confidence: 99%

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An Invertase Inhibitor from Maize Localizes to the Embryo Surrounding Region during Early Kernel Development

et al. 2004

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“…Most notably, the multicellular nature of plant tissues makes it difficult to quantitatively evaluate the contribution of VIN in specific cell types. For example, decrease of VIN expression is associated with maize ovary abortion or reduction in its expansion (Andersen et al, 2002;McLaughlin and Boyer, 2004). The VIN gene Ivr2, however, is expressed in nucellus and vascular bundles of the pedicel deeply embedded within the pericarp (Andersen et al, 2002).…”

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confidence: 99%

“…High VIN expression or activity has been observed in a range of expanding tissues, including maize (Zea mays) ovaries (Andersen et al, 2002;McLaughlin and Boyer, 2004), grape (Vitis vinifera) berry (Davies and Robinson, 1996), carrot (Daucus carota) taproot (Tang et al, 1999), and sugar beet (Beta vulgaris) petioles (González et al, 2005). It is hypothesized that VIN may play a major role in plant cell expansion, a key step in plant cell development (González et al, 2005).…”

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Evidence That High Activity of Vacuolar Invertase Is Required for Cotton Fiber and Arabidopsis Root Elongation through Osmotic Dependent and Independent Pathways, Respectively

Wang

Li²,

Lian³

et al. 2010

Plant Physiology

168

136

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Vacuolar invertase (VIN) has long been considered as a major player in cell expansion. However, direct evidence for this view is lacking due, in part, to the complexity of multicellular plant tissues. Here, we used cotton (Gossypium spp.) fibers, fast-growing single-celled seed trichomes, to address this issue. VIN activity in elongating fibers was approximately 4-6-fold higher than that in leaves, stems, and roots. It was undetectable in fiberless cotton seed epidermis but became evident in initiating fibers and remained high during their fast elongation and dropped when elongation slowed. Furthermore, a genotype with faster fiber elongation had significantly higher fiber VIN activity and hexose levels than a slow-elongating genotype. By contrast, cell wall or cytoplasmic invertase activities did not show correlation with fiber elongation. To unravel the molecular basis of VIN-mediated fiber elongation, we cloned GhVIN1, which displayed VIN sequence features and localized to the vacuole. Once introduced to Arabidopsis (Arabidopsis thaliana), GhVIN1 complemented the short-root phenotype of a VIN T-DNA mutant and enhanced the elongation of root cells in the wild type. This demonstrates that GhVIN1 functions as VIN in vivo. In cotton fiber, GhVIN1 expression level matched closely with VIN activity and fiber elongation rate. Indeed, transformation of cotton fiber with GhVIN1 RNA interference or overexpression constructs reduced or enhanced fiber elongation, respectively. Together, these analyses provide evidence on the role of VIN in cotton fiber elongation mediated by GhVIN1. Based on the relative contributions of sugars to sap osmolality in cotton fiber and Arabidopsis root, we conclude that VIN regulates their elongation in an osmotic dependent and independent manner, respectively.

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Improving Tolerance to Abiotic Stresses in Staple Crops: A Random or Planned Process?

Edmeades

Bänziger²,

Campos

et al. 2006

Plant Breeding: The Arnel R. Hallauer International Symposium

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Soluble Invertase Expression Is an Early Target of Drought Stress during the Critical, Abortion-Sensitive Phase of Young Ovary Development in Maize

Cited by 229 publications

References 64 publications

An Invertase Inhibitor from Maize Localizes to the Embryo Surrounding Region during Early Kernel Development

An Invertase Inhibitor from Maize Localizes to the Embryo Surrounding Region during Early Kernel Development

Evidence That High Activity of Vacuolar Invertase Is Required for Cotton Fiber and Arabidopsis Root Elongation through Osmotic Dependent and Independent Pathways, Respectively

Improving Tolerance to Abiotic Stresses in Staple Crops: A Random or Planned Process?

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