Vegetative Storage Proteins in Poplar

Langheinrich, Ulrike; Tischner, Rudolf

doi:10.1104/pp.97.3.1017

Cited by 83 publications

(32 citation statements)

References 26 publications

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“…7). This protein band corresponds in size to VSP previously characterized in poplar bark (Coleman et al, 1991;Langheinrich & Tischner, 1991). The comparison between stained SDS-PAGE gels from control and transgenic plants showed that the 32-kDa polypeptide accumulated in transgenic stems more quickly than in control plants (Fig.…”

Section: Tree Growth and Gs1 Content In Leafmentioning

confidence: 99%

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

et al. 2004

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Summary• In the present work the performance of transgenic poplars expressing a pine glutamine synthetase (GS) transgene was studied in natural conditions.• A field study of eight independent transgenic lines and control plants was carried out for 3 yr in the province of Granada (Spain).• Transgenic poplars reached average heights that were 21, 36 and 41% greater than control plants after the first, second and third year of growth, respectively. Transgene expression affected plant features with time resulting in increased protein, total GS and ferredoxin-dependent glutamate synthase (Fd-GOGAT) in leaves. However, neither differences in the large subunit of Rubisco (LSU) abundance nor water content were detected between lines. Furthermore, no significant differences were found in total polysaccharide and lignin content in tree trunks.• The analyses of stem diameter, and protein contents in the bark suggest that higher levels of nitrogen reserves accumulated in the stem of transgenics. Our results suggest that modification of GS1 expression may be a useful strategy to complement traditional tree breeding in short rotation plantations.

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Section: Tree Growth and Gs1 Content In Leafmentioning

confidence: 99%

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

et al. 2004

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“…Furthermore, the stored nitrogen compounds have been suggested to be mainly used in supporting new shoot growth and development in the following spring while the nitrogen compounds from root absorption in the current year are used for tree growth in later seasons (Stepien et al 1994). Although VSPs have been identified in the vegetative organs of several temperate trees (van Cleve et al 1988;Wetzel et al 1989;Clausen and Apel 1991;Langheinrich and Tischner 1991;Stepien and Martin 1992;Coleman 2001a, 2001b), their seasonal fluctuation was assumed to be similar to that of the other so-called stored nitrogen compounds as above (Wetzel et al 1989). On the basis of this assumption, external factors such as nitrogen application, low temperature and short days play an important role in regulating VSP accumulation (Clausen and Apel 1991;Langheinrich and Tischner 1991;Coleman et al 1991Coleman et al , 1992Coleman and Chen 1993).…”

Section: Discussionmentioning

confidence: 99%

“…The external factors, such as low temperature and short days, have been emphasized as key signals in inducing VSP accumulation in trees (Causen and Apel 1991;Langheinrich and Tischner 1991;Coleman et al 1991Coleman et al , 1992Coleman and Chen 1993). Recently, we found that the seasonal fluctuation of VSPs was very similar between the tropical tree S. macrophylla and the temperate tree Populus canadensis, suggesting that this seasonal fluctuation pattern in the whole tree might be an important mechanism by which the trees regulated their growth (Tian et al 2003(Tian et al , 2005.…”

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confidence: 86%

“…Vegetative storage proteins in trees, especially in the temperate trees poplar and willow, have been examined at cytological, biochemical and molecular levels (van Cleve et al 1988;Wetzel et al 1989;Clausen and Apel 1991;Langheinrich and Tischner 1991;Stepien and Martin 1992;Coleman 2001a, 2001b). The external factors, such as low temperature and short days, have been emphasized as key signals in inducing VSP accumulation in trees (Causen and Apel 1991;Langheinrich and Tischner 1991;Coleman et al 1991Coleman et al , 1992Coleman and Chen 1993).…”

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confidence: 99%

“…As adult trees are large in size, detached branchlets of trees were often used for studying the mechanism of VSP accumulation (Langheinrich and Tischner 1991). The seedlings of trees are small in size and may be candidates for such study.…”

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Fluctuation of Vegetative Storage Proteins in the Seedlings of Swietenia macrophylla, Analogous to the Seasonal Changes of Those in the Shoot of the Adult Tree

Han

Yan

Zhang

et al. 2007

JIPB

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In order to identify appropriate plant materials for studying the gene expression and biological function of vegetative storage proteins (VSPs) in woody plants, the VSPs in the seedlings of Swietenia macrophylla King were investigated by using light microscopy, sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and Western-blotting. The seed of S. macrophylla was rich in storage proteins that accumulated in the vacuoles of cotyledon parenchyma cells in appearance of compact spherical grains. The growth and development of S. macrophylla seedlings were characterized by an obvious growth rhythm. The storage proteins in seeds disappeared during seedling growth while VSPs appeared in the stem 2 weeks after seedling leaves matured. Thereafter, the VSPs in the seedling stem almost exhausted during new shoot growth, and when the leaves of new shoot just matured, both the stem beneath the new shoot of seedlings and the stem of new shoot started to accumulate VSPs. Nitrogen application dramatically increased the level of VSPs, but had little influence on the dynamics of VSP consumption and accumulation in seedling stem. Together with these data, the fluctuation of VSPs in seedlings was very similar to that in the branches of the adult trees. In addition, seedlings are easy to be treated due to their small size. Our results suggested that S. macrophylla seedlings were suitable for investigating the biological roles of VSPs and the mechanism of nitrogen storage in trees. Available online at www.blackwell-synergy.com/links/toc/jipb, www.jipb.netThe stored nitrogenous compounds in the vegetative organs of trees, but not the nitrogen applied in current year play important roles in meeting the nitrogen requirements for rhythmical growth (Grassi et al. 2003). As it is difficult to distinguish stored N from the non-stored, very little is known about the seasonal changes of the exact stored nitrogenous compounds and the mechanisms of nitrogen storage. In the mid 1980s, vegetative storage proteins (VSPs) specific for nitrogen storage were identified in the vegetative organs of woody plants (Stepien et al. 1994). So, investigations of VSPs are expected to illustrate the mechanisms of nitrogen storage in the vegetative organs of woody plants.Vegetative storage proteins in trees, especially in the temperate trees poplar and willow, have been examined at

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Effect of elevated CO₂ on carbon partitioning in young Quercus ilex L. during resprouting

Aranjuelo¹,

Pintó‐Marijuan²,

Avice³

et al. 2011

Rapid Comm Mass Spectrometry

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Stored carbon (C) represents a very important C pool with residence times of years to decades in tree organic matter. With the objective of understanding C assimilation, partitioning and remobilization in 2‐year‐old Quercus ilex L., those trees were exposed for 7 months to different [CO2] (elevated: 700 µmol mol−1; and ambient: 350 µmol mol−1 CO2). The 13C‐isotopic composition of the ambient CO2 (ca. −12.8‰) was modified (to ca. −19.2‰) under the elevated CO2 conditions in order to analyze C allocation and partitioning before aerial biomass excision, and during the following regrowth (resprouting). Although after 7 months of growth under elevated [CO2], Q. ilex plants increased dry matter production, the absence of significant differences in photosynthetic activity suggests that such an increase was lower than expected. Nitrogen availability was not involved in photosynthetic acclimation. The removal of aboveground organs did not enable the balance between C availability and C requirements to be achieved. The isotopic characterization revealed that before the cutting, C partitioning to the stem (main C sink) prevented leaf C accumulation. During regrowth the roots were the organ with more of the labelled C. Furthermore, developing leaves had more C sink strength than shoots during this period. After the cutting, the amount of C delivered from the root to the development of aboveground organs exceeded the requirements of leaves, with the consequent carbohydrate accumulation. These findings demonstrate that, despite having a new C sink, the responsiveness of those resprouts under elevated [CO2] conditions will be strongly conditioned by the plant's capacity to use the extra C present in leaves through its allocation to other organs (roots) and processes (respiration). Copyright © 2011 John Wiley & Sons, Ltd.

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Vegetative Storage Proteins in Poplar

Cited by 83 publications

References 26 publications

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

Fluctuation of Vegetative Storage Proteins in the Seedlings of Swietenia macrophylla, Analogous to the Seasonal Changes of Those in the Shoot of the Adult Tree

Effect of elevated CO₂ on carbon partitioning in young Quercus ilex L. during resprouting

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Vegetative Storage Proteins in Poplar

Cited by 83 publications

References 26 publications

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

Improved growth in a field trial of transgenic hybrid poplar overexpressing glutamine synthetase

Fluctuation of Vegetative Storage Proteins in the Seedlings of Swietenia macrophylla, Analogous to the Seasonal Changes of Those in the Shoot of the Adult Tree

Effect of elevated CO2 on carbon partitioning in young Quercus ilex L. during resprouting

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Effect of elevated CO₂ on carbon partitioning in young Quercus ilex L. during resprouting