J. Rose Stoller scite author profile

Based on environmental challenges or altered genetic composition, Drosophila larvae can produce up to three types of blood cells that express genetic programs essential for their distinct functions. Using transcriptional enhancers for genes expressed exclusively in plasmatocytes, crystal cells, or lamellocytes, several new hemocyte-specific enhancer-reporter transgenes were generated to facilitate the analysis of Drosophila hematopoiesis. This approach took advantage of fluorescent variants of insulated P-element reporter vectors for multilabeling cell analyses; two additional color variants were generated in these studies. These vectors were successfully used to produce transgenic fly lines that label specific hemocyte lineages with separate colors. Combining three transgene reporters allowed for the unambiguous identification of plasmatocytes, crystal cells, and lamellocytes within a complex hemocyte population. While this work focused on the hematopoietic process, these new vectors can be used to mark multiple cell types or trace complex cell lineages during any chosen aspect of Drosophila development.

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Isolation and divalent-metal activation of a β-xylosidase, RUM630-BX

Jordan

Braker

Wagschal

et al. 2016

Enzyme and Microbial Technology

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Biochemical Characterization of a GH43 β-Xylosidase from Bacteroides ovatus

Jordan

Stoller

Lee

et al. 2016

Appl Biochem Biotechnol

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Divalent metal-activated glycoside hydrolase family 43 (GH43) β-xylosidases have been found to have high k /K for xylooligosaccharides and may demonstrate high efficacy in industrial reactors digesting hemicellulose. By searching an amino acid database, we found a Bacteroides ovatus GH43 β-xylosidase termed BoXA that is 81% identical in overall amino acid sequence to a GH43, divalent metal-activated β-xylosidase with high k /K, and also it has 19 of 20 residues in the active site conserved. However, unlike its metal-activated homolog, the B. ovatus enzyme does not lose activity after extensive EDTA treatment nor does it gain activity by addition of divalent metal ions. Thus, either it cannot be activated by divalent metal or it maintains a tightly bound, non-exchangeable metal ion. At 25 °C and pH 6.0, the k is 69 s for xylobiose and k /K is 210 s mM for xylotriose, with the latter being 0.7 that of the highest known value. The determined K for D-glucose is 4.9 M, which is the highest known for a β-xylosidase. The enzyme has potential utility operating in bioreactors digesting plant biomass.

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Biochemical characterization of Caulobacter crescentus xylose dehydrogenase

Lee

Jordan

Stoller

et al. 2018

International Journal of Biological Macromolecules

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Expression and Characterization of Hyperthermostable Exo-polygalacturonase TtGH28 from Thermotoga thermophilus

et al. 2016

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D-galacturonic acid is a potential platform chemical comprising the principal component of pectin in the citrus processing waste stream. Several enzyme activities are required for the enzymatic production of galacturonic acid from pectin, including exo- and endo-polygalacturonases. The gene TtGH28 encoding a putative GH28 polygalacturonase from Pseudothermotoga thermarum DSM 5069 (Theth_0397, NCBI# AEH50492.1) was synthesized, expressed in Escherichia coli, and characterized. Alignment of the amino acid sequence of gene product TtGH28 with other GH28 proteins whose structures and details of their catalytic mechanism have been elucidated shows that three catalytic Asp residues and several other key active site residues are strictly conserved. Purified TtGH28 was dimeric and hyperthermostable, with K t (0.5) = 86.3 °C. Kinetic parameters for activity on digalacturonic acid, trigalacturonic acid, and polygalacturonic acid were obtained. No substrate inhibition was observed for polygalacturonate, while the K si values for the oligogalacturonides were in the low mM range, and K i for product galacturonic acid was in the low μM range. Kinetic modeling of the progress of reaction showed that the enzyme is both fully exo- and fully non-processional.

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J. Rose Stoller

New hemocyte‐specific enhancer‐reporter transgenes for the analysis of hematopoiesis in Drosophila

Isolation and divalent-metal activation of a β-xylosidase, RUM630-BX

Biochemical Characterization of a GH43 β-Xylosidase from Bacteroides ovatus

Biochemical characterization of Caulobacter crescentus xylose dehydrogenase

Expression and Characterization of Hyperthermostable Exo-polygalacturonase TtGH28 from Thermotoga thermophilus

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