Transformation as a Tool for Genetic Analysis in Populus

Busov, Victor; Strauss, Steven H.; Pilate, Gilles

doi:10.1007/978-1-4419-1541-2_6

Cited by 10 publications

(5 citation statements)

References 99 publications

(114 reference statements)

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“…As the implementation of transgene technologies, variability among transformation events is well known and has been ascribed to differences in gene expression intensity, the insertion site of the construct, etc. (Peach & Velten, ; Busov et al ., ). Although the transformation events generated with the same construct had been selected for similar phenotypes under laboratory conditions, our results show that moderate differences became pronounced during our long‐term field study because of the exponential nature of growth and interaction with the natural environment.…”

Section: Discussionmentioning

confidence: 97%

Abscisic acid signalling mediates biomass trade‐off and allocation in poplar

Wildhagen

Tylewicz

et al. 2019

New Phytologist

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Summary Abscisic acid (ABA) is a well known stress hormone regulating drought adaptation of plants. Here, we hypothesised that genetic engineering of genes involved in ABA stress signalling and photoperiodic regulation affected drought resistance by trade‐off with biomass production in perennial poplar trees. We grew Populus tremula × tremuloides wild‐type (T89) and various transgenic lines (two transformation events of 35S::abi1‐1, 35S::RCAR, RCAR:RNAi, 35S::ABI3, 35S::AREB3, 35S::FDL1, FDL1:RNAi, 35S::FDL2 and FDL2:RNAi) outdoors and exposed them to drought in the second growth period. After the winter, the surviving lines showed a huge variation in stomatal conductance, leaf size, whole‐plant leaf area, tree height, stem diameter, and biomass. Whole‐plant leaf area was a strong predictor for woody biomass production. The 35S::AREB3 lines were compromised in biomass production under well irrigated conditions compared with wild‐type poplars but were resilient to drought. ABA signalling regulated FDL1 and FDL2 expression under stress. Poplar lines overexpressing FDL1 or FDL2 were drought‐sensitive; they shed leaves and lost root biomass, whereas the FDL RNAi lines showed higher biomass allocation to roots under drought. These results assign a new function in drought acclimation to FDL genes aside from photoperiodic regulation. Our results imply a critical role for ABA‐mediated processes in balancing biomass production and climate adaptation.

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Section: Discussionmentioning

confidence: 97%

Abscisic acid signalling mediates biomass trade‐off and allocation in poplar

Wildhagen

Tylewicz

et al. 2019

New Phytologist

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“…The difficulty in relating individual genes to phenotypes (Wang and Waterhouse, 2001), and the substantial gene redundancy that many plant gene families present (Busov et al, 2010), have already been referred as relevant limitations for the dissection of individual gene function(s) through functional genomics approaches as the ones used in this work. Genetic redundancy is a major problem for dissecting gene function in all plant species.…”

Section: Discussionmentioning

confidence: 99%

NEP-TC a rRNA Methyltransferase Involved on Somatic Embryogenesis of Tamarillo (Solanum betaceum Cav.)

et al. 2019

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Somatic embryogenesis (SE) is an important biotechnological tool for large-scale clonal propagation and for embryogenesis research. Moreover, genetic transformation and cryopreservation procedures in many species rely on efficient SE protocols. We have been studying different aspects related to SE induction and somatic embryo development in tamarillo ( Solanum betaceum Cav.), a small tree from the Solanaceae family. Previous proteomic analyses identified a protein (NEP-TC, 26.5 kDa) consistently present in non-embryogenic calluses of tamarillo, but absent in the embryogenic ones. In this work, the role of NEP-TC during SE was assessed by gene expression analysis and immunolocalization. The results obtained demonstrated that NEP-TC is a putative member of the SpoU rRNA methylase family. This protein, present in the cytoplasm and nucleus, is expressed in non-embryogenic cells and not expressed in embryogenic cells. Slightly enhanced SE induction levels in tamarillo plants with NEP-TC down-regulated levels also supports the role of this protein on SE induction. Heterologous expression was used to confirm NEP-TC rRNA methyltransferase activity, with enhanced activity levels when rRNA was used as a substrate. These data relate a putative member of the SpoU methylase family with plant morphogenesis, in particular with SE induction.

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“…The genetic background and functions of these genes should be further recapitulated in poplar trees with a different genetic background using the genetic transformation method. Significant effort has been made to develop a transformation system for poplar species (Busov et al 2009); however, the efficient transformation system has been developed for a very limited number of poplar species/cultivars. For example, hybrid aspen clone INRA 717-IB4 (Populus tremula 9 P. alba) has been intensively used for gene transformation (Peña and Seguin 2001;Confalonieri et al 2003;Ye et al 2009).…”

Section: Introductionmentioning

confidence: 99%

Direct regeneration from in vitro leaf and petiole tissues of Populus tremula ‘Erecta’

Huang

Dai

2011

Plant Cell Tiss Organ Cult

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Dormant buds from a mature tree of Populus tremula 'Erecta' were incubated on a Murashige and Skoog (MS) medium supplemented with 1.0 lM thidiazuron (TDZ). Induced shoots were then proliferated on medium of MS or Woody Plant Medium (WPM), or Driver and Kuniyuki Walnut (DKW) supplemented with varying levels of benzyladenine (BA). Overall, shoots grown on MS medium supplemented with 1.25-2.5 lM BA exhibited the highest frequency of shoot proliferation ([95%) and more than 60% of responding explants produced more than five shoots per explant. Shoot organogenesis was induced from both leaf and petiole explants incubated on WPM medium containing BA, or TDZ, or zeatin. Among the different cytokinins tested, zeatin induced the highest frequency (average 72.1%) of shoot organogenesis. None of explants survived on media containing no cytokinins within 6-8 weeks following culture. Overall, a higher frequency of shoot regeneration was obtained from petioles than from leaf explants. The highest frequency of regeneration was achieved when petioles were incubated on WPM containing 10-20 lM zeatin. Addition of naphthaleneacetic acid (NAA) did not have a significant effect on shoot regeneration in all treatments. Shoot organogenesis was directly induced from petiole explants without intervening callus. Regenerated shoots were easily rooted on all tested media supplemented with 0.5 lM NAA. Rooted plants were transferred to potting mix and grown in the greenhouse.

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Transformation as a Tool for Genetic Analysis in Populus

Cited by 10 publications

References 99 publications

Abscisic acid signalling mediates biomass trade‐off and allocation in poplar

Abscisic acid signalling mediates biomass trade‐off and allocation in poplar

NEP-TC a rRNA Methyltransferase Involved on Somatic Embryogenesis of Tamarillo (Solanum betaceum Cav.)

Direct regeneration from in vitro leaf and petiole tissues of Populus tremula ‘Erecta’

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