18 results on '"Fleming, Andrew"'
Search Results
2. Giant focal nodular hyperplasia with a background of hepatic steatosis in a 14-year-old boy.
- Author
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Fleming, Andrew M, Duffy, Caitlyn, Gartrell, Jessica, McCarville, M Beth, Langham, Max R, Ruiz, Robert E, Santiago, Teresa, and Murphy, Andrew J
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FATTY liver , *HYPERPLASIA - Abstract
Giant focal nodular hyperplasia (GFNH) is rarely seen in children, presenting complex diagnostic and management considerations. Pathognomonic radiographic findings can be absent in this population, and the nuances of pathologic examination are critical. We present a child with a GFNH involving the right side of the liver arising in the background of hepatic steatosis. The details of the diagnosis and therapeutic decisions involved in his treatment are discussed. [ABSTRACT FROM AUTHOR]
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- 2022
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3. P29 The use of adjunct oral methotrexate as primary prevention for keloid scarring following syndactyly release surgery.
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Sprenger, Cathryn, Fleming, Andrew, Ferguson, Leila, and Abdul-Wahab, Alya
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KELOIDS , *METHOTREXATE , *SURGICAL site , *SKIN grafting , *SURGICAL flaps , *SURGERY - Abstract
A 12-month-old Asian female underwent syndactyly release surgery with advancement flap closure of the first web space of the right hand. The procedure was complicated by enlarging keloids over the surgical site and dactylitis, a rare complication with only a few previously reported cases [Muzaffar AR, Rafols F, Masson J et al. Keloid formation after syndactyly reconstruction: associated conditions, prevalence, and preliminary report of a treatment method. J Hand Surg Am 2004; 29 : 201–8. https://doi.org/10.1016/j.jhsa.2003.10.017 ]. Initial treatment of the keloid scarring with intralesional triamcinolone under general anaesthetic was unsuccessful. Subsequently, we elected to surgically excise the keloids closing with a full-thickness skin graft from the groin, with adjunct oral methotrexate (0.4 mg kg–1 weekly) for 9 months post-surgery. The use of oral methotrexate for this indication is rarely reported: one series included two cases of successful keloid suppression with 4 years of follow-up [Muzaffar et al.] and another series of four patients with successful keloid suppression after surgery for syndactyly with dactylitis [Tolerton SK, Tonkin MA. Keloid formation after syndactyly release in patients with associated macrodactyly: management with methotrexate therapy. J Hand Surg Eur 2011; 36 : 490–7]. Low-dose methotrexate exerts anti-inflammatory effects by stimulating adenosine A2 receptors and increasing adenosine release at sites of inflammation, such as surgical sites [Muzaffar et al.]. In our patient, methotrexate was well-tolerated, keloid recurrence and dactylitis were avoided, and range of movement and functioning of the digits was maintained. Keloid formation after syndactyly release poses a complex management challenge and we propose methotrexate should be considered as an adjunct to reduce recurrence risk. [ABSTRACT FROM AUTHOR]
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- 2023
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4. The co-ordination of cell division, differentiation and morphogenesis in the shoot apical meristem: a perspective.
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Fleming, Andrew J.
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CELL proliferation , *REJUVENESCENCE (Botany) , *CELL division , *PLANT cells & tissues , *MORPHOGENESIS - Abstract
Whether morphogenesis is cell division-driven or organismal-based has been a long-running debate in plant biology. This article is a summary of a series of experiments aimed at distinguishing these alternate views by local manipulation of parameters of cell division frequency, orientation, and growth within the shoot apical meristem. These data, put in the context of other investigations in this area, support an organismal view of plant morphogenesis and support the idea that the cell wall plays a key role in the mechanism by which this is achieved. At the same time, the data indicate that the intimate but variable relationship between cell growth and division within the organism means that cell proliferation can indirectly influence this process, leading to a context-dependent influence on morphogenesis. Finally, cell growth and proliferation are intimately related with the process of differentiation as cells exit the meristem. In the final part of the article the molecular mechanism by which these basic cellular parameters are intertwined is discussed. [ABSTRACT FROM PUBLISHER]
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- 2006
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5. Origins and Evolution of Stomatal Development.
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Chater, Caspar C. C., Caine, Robert S., Fleming, Andrew J., and Gray, Julie E.
- Abstract
The fossil record suggests stomata-like pores were present on the surfaces of land plants over 400 million years ago. Whether stomata arose once or whether they arose independently across newly evolving land plant lineages has long been a matter of debate. In Arabidopsis, a genetic toolbox has been identified that tightly controls stomatal development and patterning. This includes the basic helix-loop-helix (bHLH) transcription factors SPEECHLESS (SPCH), MUTE, FAMA, and ICE/SCREAMs (SCRMs), which promote stomatal formation. These factors are regulated via a signaling cascade, which includes mobile EPIDERMAL PATTERNING FACTOR (EPF) peptides to enforce stomatal spacing. Mosses and hornworts, the most ancient extant lineages to possess stomata, possess orthologs of these Arabidopsis (Arabidopsis thaliana) stomatal toolbox genes, and manipulation in the model bryophyte Physcomitrella patens has shown that the bHLH and EPF components are also required for moss stomatal development and patterning. This supports an ancient and tightly conserved genetic origin of stomata. Here, we review recent discoveries and, by interrogating newly available plant genomes, we advance the story of stomatal development and patterning across land plant evolution. Furthermore, we identify potential orthologs of the key toolbox genes in a hornwort, further supporting a single ancient genetic origin of stomata in the ancestor to all stomatous land plants. [ABSTRACT FROM AUTHOR]
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- 2017
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6. John Mirk’s Festial: Edited from British Library MS Cotton Claudius A.II, Vol. I, ed. Susan Powell.
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Fleming, Andrew
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MIDDLE English sermons , *NONFICTION - Abstract
The article reviews both volumes I and II of the book "John Mirk’s Festial: Edited from British Library MS Cotton Claudius A.II," edited by Susan Powell.
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- 2012
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7. St Edmund, King and Martyr: Changing Images of a Medieval Saint.
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Fleming, Andrew
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SAINTS , *NONFICTION - Abstract
The article reviews the book "St Edmund, King and Martyr: Changing Images of a Medieval Saint," edited by Anthony Bale.
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- 2010
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8. Reduced stomatal density in bread wheat leads to increased water-use efficiency.
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Dunn, Jessica, Hunt, Lee, Afsharinafar, Mana, Meselmani, Moaed Al, Mitchell, Alice, Howells, Rhian, Wallington, Emma, Fleming, Andrew J, and Gray, Julie E
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WHEAT breeding , *PLANT breeding , *DENSITY , *WHEAT , *GRAIN yields , *PLANT spacing , *WINTER wheat - Abstract
Wheat is a staple crop, frequently cultivated in water-restricted environments. Improving crop water-use efficiency would be desirable if grain yield can be maintained. We investigated whether a decrease in wheat stomatal density via the manipulation of epidermal patterning factor (EPF) gene expression could improve water-use efficiency. Our results show that severe reductions in stomatal density in EPF-overexpressing wheat plants have a detrimental outcome on yields. However, wheat plants with a more moderate reduction in stomatal density (i.e. <50% reduction in stomatal density on leaves prior to tillering) had yields indistinguishable from controls, coupled with an increase in intrinsic water-use efficiency. Yields of these moderately reduced stomatal density plants were also comparable with those of control plants under conditions of drought and elevated CO2. Our data demonstrate that EPF-mediated control of wheat stomatal development follows that observed in other grasses, and we identify the potential of stomatal density as a tool for breeding wheat plants that are better able to withstand water-restricted environments without yield loss. [ABSTRACT FROM AUTHOR]
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- 2019
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9. Formation of the Stomatal Outer Cuticular Ledge Requires a Guard Cell Wall Proline-Rich Protein.
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Hunt, Lee, Amsbury, Samuel, Baillie, Alice, Movahedi, Mahsa, Mitchell, Alice, Afsharinafar, Mana, Swarup, Kamal, Denyer, Thomas, Hobbs, Jamie K., Swarup, Ranjan, Fleming, Andrew J., and Gray, Julie E.
- Abstract
Stomata are formed by a pair of guard cells which have thickened, elastic cell walls to withstand the large increases in turgor pressure that have to be generated to open the pore that they surround. We have characterized FOCL1, a guard cell-expressed, secreted protein with homology to Hyp-rich cell wall proteins. FOCL1-GFP localizes to the guard cell outer cuticular ledge and plants lacking FOCL1 produce stomata without a cuticular ledge. Instead the majority of stomatal pores are entirely covered over by a continuous fusion of the cuticle, and consequently plants have decreased levels of transpiration and display drought tolerance. The focl1 guard cells are larger and less able to reduce the aperture of their stomatal pore in response to closure signals suggesting that the flexibility of guard cell walls is impaired. FOCL1 is also expressed in lateral root initials where it aids lateral root emergence. We propose that FOCL1 acts in these highly specialized cells of the stomata and root to impart cell wall strength at high turgor and/or to facilitate interactions between the cell wall and the cuticle. [ABSTRACT FROM AUTHOR]
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- 2017
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10. Combined Chlorophyll Fluorescence and Transcriptomic Analysis Identifies the P3/P4 Transition as a Key Stage in Rice Leaf Photosynthetic Development.
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van Campen, Julia C., Yaapar, Muhammad N., Narawatthana, Supatthra, Lehmeier, Christoph, Wanchana, Samart, Thakur, Vivek, Chater, Caspar, Kelly, Steve, Rolfe, Stephen A., Quick, W. Paul, and Fleming, Andrew J.
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CHLOROPHYLL spectra , *TRANSCRIPTION factors , *HARVESTING , *RICE , *PHOTOSYNTHESIS , *COMPOSITION of leaves , *MOLECULAR biology - Abstract
Leaves are derived from heterotrophic meristem tissue that, at some point, must make the transition to autotrophy via the initiation of photosynthesis. However, the timing and spatial coordination of the molecular and cellular processes underpinning this switch are poorly characterized. Here, we report on the identification of a specific stage in rice (Oryza sativa) leaf development (P3/P4 transition) when photosynthetic competence is first established. Using a combined physiological and molecular approach, we show that elements of stomatal and vascular differentiation are coordinated with the onset of measurable light absorption for photosynthesis. Moreover, by exploring the response of the system to environmental perturbation, we show that the earliest stages of rice leaf development have significant plasticity with respect to elements of cellular differentiation of relevance for mature leaf photosynthetic performance. Finally, by performing an RNA sequencing analysis targeted at the early stages of rice leaf development, we uncover a palette of genes whose expression likely underpins the acquisition of photosynthetic capability. Our results identify the P3/P4 transition as a highly dynamic stage in rice leaf development when several processes for the initiation of photosynthetic competence are coordinated. As well as identifying gene targets for future manipulation of rice leaf structure/function, our data highlight a developmental window during which such manipulations are likely to be most effective. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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11. Genome-wide transcriptomic analysis of the sporophyte of the moss Physcomitrella patens.
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O’Donoghue, Martin-Timothy, Chater, Caspar, Wallace, Simon, Gray, Julie E., Beerling, David J., and Fleming, Andrew J.
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PHYSCOMITRELLA patens , *GENETIC transcription , *BRYOPHYTES , *HAPLOIDY , *GAMETOPHYTES , *GENE expression - Abstract
Bryophytes, the most basal of the extant land plants, diverged at least 450 million years ago. A major feature of these plants is the biphasic alternation of generations between a dominant haploid gametophyte and a minor diploid sporophyte phase. These dramatic differences in form and function occur in a constant genetic background, raising the question of whether the switch from gametophyte-to-sporophyte development reflects major changes in the spectrum of genes being expressed or alternatively whether only limited changes in gene expression occur and the differences in plant form are due to differences in how the gene products are put together. This study performed replicated microarray analyses of RNA from several thousand dissected and developmentally staged sporophytes of the moss Physcomitrella patens, allowing analysis of the transcriptomes of the sporophyte and early gametophyte, as well as the early stages of moss sporophyte development. The data indicate that more significant changes in transcript profile occur during the switch from gametophyte to sporophyte than recently reported, with over 12% of the entire transcriptome of P. patens being altered during this major developmental transition. Analysis of the types of genes contributing to these differences supports the view of the early sporophyte being energetically and nutritionally dependent on the gametophyte, provides a profile of homologues to genes involved in angiosperm stomatal development and physiology which suggests a deeply conserved mechanism of stomatal control, and identifies a novel series of transcription factors associated with moss sporophyte development. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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12. Inducible Repression of Multiple Expansin Genes Leads to Growth Suppression during Leaf Development1[C][W].
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Goh, Hoe-Han, Sloan, Jennifer, Dorca-Fornell, Carmen, and Fleming, Andrew
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EXTRACELLULAR matrix , *PLANT plasma membranes , *ARABIDOPSIS thaliana , *GENE expression , *GENE expression in plants , *PHYSIOLOGY ,LEAF growth - Abstract
Expansins are cell wall proteins implicated in the control of plant growth via loosening of the extracellular matrix. They are encoded by a large gene family, and data linked to loss of single gene function to support a role of expansins in leaf growth remain limited. Here, we provide a quantitative growth analysis of transgenics containing an inducible artificial microRNA construct designed to down-regulate the expression of a number of expansin genes that an expression analysis indicated are expressed during the development of Arabidopsis (Arabidopsis thaliana) leaf 6. The results support the hypothesis that expansins are required for leaf growth and show that decreased expansin gene expression leads to a more marked repression of growth during the later stage of leaf development. In addition, a histological analysis of leaves in which expansin gene expression was suppressed indicates that, despite smaller leaves, mean cell size was increased. These data provide functional evidence for a role of expansins in leaf growth, indicate the importance of tissue/organ developmental context for the outcome of altered expansin gene expression, and highlight the separation of the outcome of expansin gene expression at the cellular and organ levels. [ABSTRACT FROM AUTHOR]
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- 2012
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13. A Shift toward Smaller Cell Size via Manipulation of Cell Cycle Gene Expression Acts to Smoothen Arabidopsis Leaf Shape1[W].
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Kuwabara, Asuka, Backhaus, Andreas, Malinowski, Robert, Bauch, Marion, Hunt, Lee, Nagata, Toshiyuki, Monk, Nick, Sanguinetti, Guido, and Fleming, Andrew
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GENE expression , *ARABIDOPSIS thaliana , *CELLS , *GENES , *CELL division - Abstract
Understanding the relationship of the size and shape of an organism to the size, shape, and number of its constituent cells is a basic problem in biology; however, numerous studies indicate that the relationship is complex and often nonintuitive. To investigate this problem, we used a system for the inducible expression of genes involved in the G1/S transition of the plant cell cycle and analyzed the outcome on leaf shape. By combining a careful developmental staging with a quantitative analysis of the temporal and spatial response of cell division pattern and leaf shape to these manipulations, we found that changes in cell division frequency occurred much later than the observed changes in leaf shape. These data indicate that altered cell division frequency cannot be causally involved in the observed change of shape. Rather, a shift to a smaller cell size as a result of the genetic manipulations performed correlated with the formation of a smoother leaf perimeter, i.e. appeared to be the primary cellular driver influencing form. These data are discussed in the context of the relationship of cell division, growth, and leaf size and shape. [ABSTRACT FROM AUTHOR]
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- 2011
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14. Phased Control of Expansin Activity during Leaf Development Identifies a Sensitivity Window for Expansin-Mediated Induction of Leaf Growth.
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Sloan, Jennifer, Backhaus, Andreas, Malinowski, Robert, McQueen-Mason, Simon, and Fleming, Andrew J.
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PLANT cell walls , *PLANT growth , *CELL division , *GENE expression , *PROMOTERS (Genetics) ,LEAF growth - Abstract
Expansins are cell wall proteins associated with the process of plant growth. However, investigations in which expansin gene expression has been manipulated throughout the plant have often led to inconclusive results. In this article, we report on a series of experiments in which overexpression of expansin was targeted to specific phases of leaf growth using an inducible promoter system. The data indicate that there is a restricted window of sensitivity when increased expansin gene expression leads to increased endogenous expansin activity and an increase in leaf growth. This phase of maximum expansin efficacy corresponds to the mid phase of leaf growth. We propose that the effectiveness of expansin action depends on the presence of other modulating factors in the leaf and we suggest that it is the control of expression of these factors (in conjunction with expansin gene expression) that defines the extent of leaf growth. These data help to explain some of the previously observed variation in growth response following manipulation of expansin gene expression and highlight a potential linkage of the expression of modifiers of expansin activity with the process of exit from cell division. [ABSTRACT FROM AUTHOR]
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- 2009
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15. Conditional Repression of AUXIN BINDING PROTEIN1 Reveals That It Coordinates Cell Division and Cell Expansion during Postembryonic Shoot Development in Arabidopsls and Tobacco.
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Braun, Nils, Wyrzykowska, Joanna, Muller, Philippe, David, Karine, Couch, Daniel, Perrot-Rechenmann, Catherine, and Fleming, Andrew J.
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AUXIN , *CARRIER proteins , *ARABIDOPSIS thaliana , *CELL division , *MERISTEMS , *CELL morphology - Abstract
AUXIN BINDING PROTEIN1 (ABP1) has long been characterized as a potentially important mediator of auxin action in plants, Analysis of the functional requirement for ABP1 during development was hampered because of embryo lethality of the null mutant in Arabidopsis thaliana. Here, we used conditional repression of ABP1 to investigate its function during vegetative shoot development. Using an inducible cellular immunization approach and an inducible antisense construct, we showed that decreased ABP1 activity leads to a severe retardation of leaf growth involving an alteration in cell division frequency, an altered pattern of endocycle induction, a decrease in cell expansion, and a change in expression of early auxin responsive genes. In addition, local repression of ABP1 activity in the shoot apical meristem revealed an additional role for ABP1 in cell plate formation and cell shape. Moreover, cells at the site of presumptive leaf initiation were more sensitive to ABP1 repression than other regions of the meristem. This spatial context-dependent response of the meristem to ABP1 inactivation and the other data presented here are consistent with a model in which ABP1 acts as a coordinator of cell division and expansion, with local auxin levels influencing ABP1 effectiveness. [ABSTRACT FROM AUTHOR]
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- 2008
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16. Induction of Differentiation in the Shoot Apical Meristem by Transient Overexpression of a Retinoblastoma-Related Protein.
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Wyrzykowska, Joanna, Schorderet, Martine, Pien, Stéphane, Gruissem, Wilhelm, and Fleming, Andrew J.
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RETINOBLASTOMA , *SHOOT apical meristems , *MERISTEMS , *CHLOROPLASTS , *CELL differentiation , *HETEROTROPHIC bacteria , *AUTOTROPHIC bacteria - Abstract
The shoot apical meristem contains cells that undergo continual growth and division to generate the building blocks for the aerial portion of the plant. As cells leave the meristem, they undergo differentiation to form specific cell types. Most notably, heterotrophic cells of the meristem rapidly gain autotrophic capability by synthesis and assembly of components of the chloroplast. At the same time, cells undergo enlargement via vacuolation. Despite significant advances in the characterization of transcriptional networks involved in meristem maintenance and leaf determination, our understanding of the actual mechanism of meristem cell differentiation remains very limited. Using a microinduction technique, we show that local, transient overexpression of a retinoblastoma-related (RBR) protein in the shoot apical meristem is sufficient to trigger cells in the meristem to undergo the initial stages of differentiation. Taken together with recent data showing that RBR protein plays a key role in restricting stem cell differentiation in the root apical meristem, our data contribute to an emerging picture of RBR proteins as a central part of the mechanism controlling meristem cell differentiation. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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17. Differential expression of XET-related genes in the leaf elongation zone of F. pratensis.
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Reidy, Beat, Nösberger, Josef, and Fleming, Andrew
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PLANT genetics - Abstract
A correction to the article "Differential expression of XET-related genes in the leaf elongation zone of F. pratensis," that was published in a previous issue of the journal is presented.
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- 2001
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18. Regulation of Growth, Development and Whole Organism Physiology. Differential expression of XET-related genes in the leaf elongation zone of F. pratensis.
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Reidy, Beat, Nösberger, Josef, and Fleming, Andrew
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SUNFLOWERS , *PHOTOSYNTHESIS , *WATER analysis , *GREENHOUSES , *GENETICS - Abstract
Analyzes quantitative trait loci (QTL) of photosynthesis and water status traits in sunflower (Helianthus annuus L.) under greenhouse conditions. Identification of two major QTL for net photosynthesis on linkage group VIII for stomatal movements and water status; Description of organization of genomic regions related to sunflower; Basis of QTL detection associated with measured phenotype with marker genotypes.
- Published
- 2001
- Full Text
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