Your search keyword '"Brunner, Amy M."' showing total 7 results

1. Genetic Transformation: A Powerful Tool for Dissection of Adaptive Traits in Trees

Author

Busov, Victor B., Brunner, Amy M., Meilan, Richard, Filichkin, Sergei, Ganio, Lisa, Gandhi, Sonali, and Strauss, Steven H.

Published

2005

2. An Evolving Approach to Understanding Plant Adaptation

Author

Howe, Glenn T. and Brunner, Amy M.

Published

2005

3. Genes for control of plant stature and form.

Author

Busov, Victor B., Brunner, Amy M., and Strauss, Steven H.

Subjects

*PLANT genetics, *PLANT cells & tissues, *CELL cycle, *PHENOTYPES, *PHOTOSYNTHESIS, *PLANT growth, *PLANT regulators, *LEAVES

Abstract

Contents Here590 we summarize progress in identification of three classes of genes useful for control of plant architecture: those affecting hormone metabolism and signaling; transcription and other regulatory factors; and the cell cycle. We focus on strong modifiers of stature and form that may be useful for directed modification of plant architecture, rather than the detailed mechanisms of gene action. Gibberellin (GA) metabolic and response genes are particularly attractive targets for manipulation because many act in a dose-dependent manner; similar phenotypic effects can be readily achieved in heterologous species; and induced pleiotropic effects – such as on nitrogen assimilation, photosynthesis, and lateral root production – are usually positive with respect to crop performance. Genes encoding transcription factors represent strong candidates for manipulation of plant architecture. For example, AINTEGUMENTA, ARGOS (auxin-regulated gene controlling organ size), and growth-regulating factors ( GRFs) are strong modifiers of leaf and/or flower size. Plants overexpressing these genes had increased organ size and did not display negative pleiotropic effects in glasshouse environments. TCP-domain genes such as CINCINNATA, and the associated regulatory miRNAs such as miRJAW, may provide useful means to modulate leaf curvature and other foliage properties. There are considerable opportunities for comparative and translational genomics in nonmodel plant systems. [ABSTRACT FROM AUTHOR]

Published

2008

4. Efficiency of gene silencing in Arabidopsis: direct inverted repeats vs. transitive RNAi vectors.

Author

Filichkin, Sergei A., DiFazio, Stephen P., Brunner, Amy M., Davis, John M., Yang, Zamin K., Kalluri, Udaya C., Arias, Renee S., Etherington, Elizabeth, Tuskan, Gerald A., and Strauss, Steven H.

Subjects

PLANT gene silencing, ARABIDOPSIS, GENETIC vectors, GENE expression, MOLECULAR cloning, GENETIC regulation, MOLECULAR genetics, PLANT genetics, PLANT biotechnology

Abstract

We investigated the efficiency of RNA interference (RNAi) in Arabidopsis using transitive and homologous inverted repeat (hIR) vectors. hIR constructs carry self-complementary intron-spliced fragments of the target gene whereas transitive vectors have the target sequence fragment adjacent to an intron-spliced, inverted repeat of heterologous origin. Both transitive and hIR constructs facilitated specific and heritable silencing in the three genes studied ( AP1, ETTIN and TTG1). Both types of vectors produced a phenotypic series that phenocopied reduction of function mutants for the respective target gene. The hIR yielded up to fourfold higher proportions of events with strongly manifested reduction of function phenotypes compared to transitive RNAi. We further investigated the efficiency and potential off-target effects of AP1 silencing by both types of vectors using genome-scale microarrays and quantitative RT-PCR. The depletion of AP1 transcripts coincided with reduction of function phenotypic changes among both hIR and transitive lines and also showed similar expression patterns among differentially regulated genes. We did not detect significant silencing directed against homologous potential off-target genes when constructs were designed with minimal sequence similarity. Both hIR and transitive methods are useful tools in plant biotechnology and genomics. The choice of vector will depend on specific objectives such as cloning throughput, number of events and degree of suppression required. [ABSTRACT FROM AUTHOR]

Published

2007

5. Genome-wide analysis of Aux/IAA and ARF gene families in Populus trichocarpa.

Author

Kalluri, Udaya C., DiFazio, Stephen P., Brunner, Amy M., and Tuskan, Gerald A.

Subjects

PLANT genomes, AUXIN, BLACK cottonwood, GENE expression in plants, PLANT hormones, ARABIDOPSIS, PLANT genetics

Abstract

Background: Auxin/Indole-3-Acetic Acid (Aux/IAA) and Auxin Response Factor (ARF) transcription factors are key regulators of auxin responses in plants. We identified the suites of genes in the two gene families in Populus and performed comparative genomic analysis with Arabidopsis and rice. Results: A total of 35 Aux/IAA and 39 ARF genes were identified in the Populus genome. Comparative phylogenetic analysis revealed that several Aux/IAA and ARF subgroups have differentially expanded or contracted between the two dicotyledonous plants. Activator ARF genes were found to be two fold-overrepresented in the Populus genome. PoptrIAA and PoptrARF gene families appear to have expanded due to high segmental and low tandem duplication events. Furthermore, expression studies showed that genes in the expanded PoptrIAA3 subgroup display differential expression. Conclusion: The present study examines the extent of conservation and divergence in the structure and evolution of Populus Aux/IAA and ARF gene families with respect to Arabidopsis and rice. The gene-family analysis reported here will be useful in conducting future functional genomics studies to understand how the molecular roles of these large gene families translate into a diversity of biologically meaningful auxin effects. [ABSTRACT FROM AUTHOR]

Published

2007

6. Field trial detects incomplete barstar attenuation of vegetative cytotoxicity in Populus trees containing a poplar LEAFY promoter:: barnase sterility transgene.

Author

Hao Wei, Meilan, Richard, Brunner, Amy M., Skinner, Jeffrey S., Caiping Ma, Gandhi, Harish T., and Strauss, Steven H.

Subjects

POPLARS, CELL-mediated cytotoxicity, TRANSGENES, PLANT genetics, PLANT growth, PLANT growth-promoting rhizobacteria

Abstract

We tested the efficacy of an attenuation system developed to preclude the deleterious effects of floral promoter::cytotoxin genes on vegetative growth of transgenic sterile plants. We tested the promoter (2.6 kb 5′ region) of the poplar LEAFY gene PTLF driving barstar, combined on the same T-DNA with barstar driven by either the CaMV 35S basal promoter +5 to −72 fragment ( 35SBP), 35SBP fused to the TMV omega element ( 35SBP omega), or the NOS promoter. The unattenuated pPTLF::barnase construct failed to give rise to any transgenic events, suggesting substantial non-reproductive expression from this promoter. The barstar-attenuated constructs enabled transformation, but the rate was reduced by nearly one-third. Four events (7% of attenuated events) had highly abnormal morphology, and were identified during the early phases of propagation; these events had significantly higher barnase:barstar expression ratios based on quantitative RT-PCR. A greenhouse study showed that phenotypically normal attenuated plants grew at the same rate as wild-type and barnase-lacking transgenic plants. A statistically significant positive linear association was found between relative growth rate (RGR) and barstar:barnase ratio in the attenuated events, and graphical analysis suggested a threshold for barstar attenuation of barnase, above which additional levels of barstar did not provide further attenuation. Surprisingly, the appearance and growth rate of the nearly all of the attenuated events were substantially reduced after one or two growing seasons in the field, and the extent of growth reduction was associated with barstar:barnase expression ratio. These results demonstrate the importance of field testing during early phases of research to identify pleiotropic effects of transgenic sterility genes in trees. [ABSTRACT FROM AUTHOR]

Published

2007

7. Validating internal controls for quantitative plant gene expression studies.

Author

Brunner, Amy M., Yakovlev, Igor A., and Strauss, Steven H.

Subjects

*GENE expression, *PLANT genetics, *POLYMERASE chain reaction, *POPLARS, *GENES

Abstract

Background: Real-time reverse transcription PCR (RT-PCR) has greatly improved the ease and sensitivity of quantitative gene expression studies. However, accurate measurement of gene expression with this method relies on the choice of a valid reference for data normalization. Studies rarely verify that gene expression levels for reference genes are adequately consistent among the samples used, nor compare alternative genes to assess which are most reliable for the experimental conditions analyzed. Results: Using real-time RT-PCR to study the expression of 10 poplar (genus Populus) housekeeping genes, we demonstrate a simple method for determining the degree of stability of gene expression over a set of experimental conditions. Based on a traditional method for analyzing the stability of varieties in plant breeding, it defines measures of gene expression stability from analysis of variance (ANOVA) and linear regression. We found that the potential internal control genes differed widely in their expression stability over the different tissues, developmental stages and environmental conditions studied. Conclusion: Our results support that quantitative comparisons of candidate reference genes are an important part of real-time RT-PCR studies that seek to precisely evaluate variation in gene expression. The method we demonstrated facilitates statistical and graphical evaluation of gene expression stability. Selection of the best reference gene for a given set of experimental conditions should enable detection of biologically significant changes in gene expression that are too small to be revealed by less precise methods, or when highly variable reference genes are unknowingly used in real-time RT-PCR experiments. [ABSTRACT FROM AUTHOR]

Published

2004