Search Results - "Ulmasov, Tim"

Activation and Repression of Transcription by Auxin-Response Factors by Ulmasov, Tim, Hagen, Gretchen, Guilfoyle, Tom J.

“…Auxin-response factors (ARFs) bind with specificity to TGTCTC auxin-response elements (AuxREs), which are found in promoters of primary/early auxin-response…”
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Dimerization and DNA binding of auxin response factors by Ulmasov, T, Hagen, G, Guilfoyle, T.J

“…Auxin response factors (ARFs) are transcription factors that bind with specificity to TGTCTC auxin response elements (AuxREs) found in promoters of…”
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Extraction and properties of proteins in covercress™, new pennycress varieties developed as cover crop and alternative plant protein source by Hojilla‐Evangelista, Milagros P., Evangelista, Roque L., Selling, Gordon W., Ulmasov, Tim

“…Pennycress (Thlaspi arvense L.) is a winter oilseed crop that also functions as cover crop, oil feedstock for biofuel, and novel plant‐based protein. New…”
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The adaptable use of Brassica NIRS calibration equations to identify pennycress variants to facilitate the rapid domestication of a new winter oilseed crop by Chopra, Ratan, Folstad, Nicole, Lyons, Joseph, Ulmasov, Tim, Gallaher, Cynthia, Sullivan, Liam, McGovern, Abby, Mitacek, Rachel, Frels, Katherine, Altendorf, Kayla, Killam, Arthur, Ismail, Baraem, Anderson, James A., Wyse, Donald L., Marks, M. David

“…•Brassica NIRS calibration equations successfully used for pennycress mutant germplasm evaluations.•Pennycress mutants facilitate identification of traits for…”
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Identification and stacking of crucial traits required for the domestication of pennycress by Chopra, Ratan, Johnson, Evan B., Emenecker, Ryan, Cahoon, Edgar B., Lyons, Joe, Kliebenstein, Daniel J., Daniels, Erin, Dorn, Kevin M., Esfahanian, Maliheh, Folstad, Nicole, Frels, Katherine, McGinn, Michaela, Ott, Matthew, Gallaher, Cynthia, Altendorf, Kayla, Berroyer, Alexandra, Ismail, Baraem, Anderson, James A., Wyse, Donald L., Ulmasov, Tim, Sedbrook, John C., David Marks, M.

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Aux/IAA proteins repress expression of reporter genes containing natural and highly active synthetic auxin response elements by Ulmasov, T, Murfett, J, Hagen, G, Guilfoyle, T.J

“…A highly active synthetic auxin response element (AuxRE), referred to as DR5, was created by performing site-directed mutations in a natural composite AuxRE…”
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Aux/IAA Proteins Repress Expression of Reporter Genes Containing Natural and Highly Active Synthetic Auxin Response Elements by Ulmasov, Tim, Murfett, Jane, Hagen, Gretchen, Guilfoyle, Tom J.

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ARF1, a transcription factor that binds to auxin response elements by Ulmasov, T. (University of Missouri, Columbia, MO.), Hagen, G, Guilfoyle, T.J

“…The plant hormone auxin regulates plant physiology by modulating the interaction of transcription factors with auxin response elements (AuxREs) of the affected…”
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Intron Sense Suppression Construct Targeting Soybean FAD2-1 Requires a Double-Stranded RNA-Producing Inverted Repeat T-DNA Insert by Mroczka, Andrew, Roberts, Peter D, Fillatti, JoAnne J, Wiggins, B. Elizabeth, Ulmasov, Tim, Voelker, Toni

“…We demonstrate that the transformation of soybean (Glycine max) with sense suppression constructs using intron sequences from the fatty acid oleyl Δ12…”
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How does auxin turn on genes? by Guilfoyle, T, Hagen, G, Ulmasov, T, Murfett, J

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Composite structure of auxin response elements by Ulmasov, Tim, Liu, Zhan-Bin, Hagen, Gretchen, Guilfoyle, Tom J.

“…The auxin-responsive soybean GH3 gene promoter is composed of multiple auxin response elements (AuxREs), and each AuxRE contributes incrementally to the strong…”
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Use of Bacterial Quorum-Sensing Components to Regulate Gene Expression in Plants by You, Young-Sook, Marella, Heather, Zentella, Rodolfo, Zhou, Yiyong, Ulmasov, Tim, Ho, Tuan-Hua David, Quatrano, Ralph S

“…We describe an efficient inducible system to regulate gene expression in plants based on quorum-sensing components found in Gram-negative bacteria such as…”
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Soybean GH3 promoter contains multiple auxin-inducible elements by Liu, Z.B, Ulmasov, T, Shi, X, Hagen, G, Guilfoyle, T.J

“…The soybean GH3 gene is transcriptionally induced in a wide variety of tissues and organs within minutes after auxin application. To determine the sequence…”
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ocs element in the soybean GH2/4 promoter is activated by both active and inactive auxin and salicylic acid analogues by Ulmasov, T, Hagen, G, Guilfoyle, T

“…The octopine synthase (ocs or ocs-like) element has been previously reported to be responsive to the plant hormones, auxin, salicylic acid, and methyl…”
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Use of Bacterial Quorum-Sensing Components to Regulate Gene Expression in Plants1[W] by Young-Sook You, Marella, Heather, Zentella, Rodolfo, Zhou, Yiyong

“…We describe an efficient inducible system to regulate gene expression in plants based on quorum-sensing components found in Gram-negative bacteria such as…”
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The soybean GH2/4 gene that encodes a glutathione S-transferase has a promoter that is activated by a wide range of chemical agents by Ulmasov, T. (University of Missouri, Columbia, MO.), Ohmiya, A, Hagen, G, Guilfoyle, T

“…Transcriptional activation of the soybean (Glycine max) GH2/4 gene (also referred to as Gmhsp26-A) and increase in abundance of the GH2/4 mRNA (also referred…”
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Association between 36- and 13.6-kDa alpha-like subunits of Arabidopsis thaliana RNA polymerase II by Ulmasov, T, Larkin, R M, Guilfoyle, T J

“…Two subunits in RNA polymerase II (e.g. RPB3 and RPB11 in yeast) and two subunits common to RNA polymerases I and III (e.g. AC40 and AC19 in yeast) contain one…”
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Association between 36- and 13.6-kDa -Like Subunits of Arabidopsis thaliana RNA Polymerase II by Tim Ulmasov, Rob M. Larkin, Tom J. Guilfoyle

“…Two subunits in RNA polymerase II ( e.g. RPB3 and RPB11 in yeast) and two subunits common to RNA polymerases I and III ( e.g. AC40 and AC19 in yeast) contain…”
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Composite Structure of Auxin Response Elements by Ulmasov, Tim, Liu, Zhan-Bin, Hagen, Gretchen, Guilfoyle, Tom J.

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Arabidopsis expresses two genes that encode polypeptides similar to the yeast RNA polymerase I and III AC40 subunit by Ulmasov, Tim, Larkin, Rob M., Guilfoyle, Tom J.

“…A 40-kDa subunit in eukaryotic RNA polymerases (Pol) I and III (e.g., yeast yAC40) is related in a part of its aa sequence to the α subunit of prokaryotic Pol…”
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