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1. Deamination of 6‑Aminodeoxyfutalosine in Menaquinone Biosynthesis by Distantly Related Enzymes

Author

Goble, Alissa M, Toro, Rafael, Li, Xu, Ornelas, Argentina, Fan, Hao, Eswaramoorthy, Subramaniam, Patskovsky, Yury, Hillerich, Brandan, Seidel, Ron, Sali, Andrej, Shoichet, Brian K, Almo, Steven C, Swaminathan, Subramanyam, Tanner, Martin E, and Raushel, Frank M

Subjects
Biochemistry and Cell Biology, Biological Sciences, Actinomycetales, Catalytic Domain, Crystallography, X-Ray, Deamination, Deinococcus, Epsilonproteobacteria, Kinetics, Models, Molecular, Molecular Docking Simulation, Nucleoside Deaminases, Purine Nucleosides, Streptomyces, Substrate Specificity, Vitamin K 2, Medicinal and Biomolecular Chemistry, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical biochemistry and metabolomics, Medicinal and biomolecular chemistry
Abstract

Proteins of unknown function belonging to cog1816 and cog0402 were characterized. Sav2595 from Steptomyces avermitilis MA-4680, Acel0264 from Acidothermus cellulolyticus 11B, Nis0429 from Nitratiruptor sp. SB155-2 and Dr0824 from Deinococcus radiodurans R1 were cloned, purified, and their substrate profiles determined. These enzymes were previously incorrectly annotated as adenosine deaminases or chlorohydrolases. It was shown here that these enzymes actually deaminate 6-aminodeoxyfutalosine. The deamination of 6-aminodeoxyfutalosine is part of an alternative menaquinone biosynthetic pathway that involves the formation of futalosine. 6-Aminodeoxyfutalosine is deaminated by these enzymes with catalytic efficiencies greater than 10(5) M(-1) s(-1), Km values of 0.9-6.0 μM, and kcat values of 1.2-8.6 s(-1). Adenosine, 2'-deoxyadenosine, thiomethyladenosine, and S-adenosylhomocysteine are deaminated at least an order of magnitude slower than 6-aminodeoxyfutalosine. The crystal structure of Nis0429 was determined and the substrate, 6-aminodeoxyfutalosine, was positioned in the active site on the basis of the presence of adventitiously bound benzoic acid. In this model, Ser-145 interacts with the carboxylate moiety of the substrate. The structure of Dr0824 was also determined, but a collapsed active site pocket prevented docking of substrates. A computational model of Sav2595 was built on the basis of the crystal structure of adenosine deaminase and substrates were docked. The model predicted a conserved arginine after β-strand 1 to be partially responsible for the substrate specificity of Sav2595.

Published
2013

2. Functional Annotation and Three-Dimensional Structure of an Incorrectly Annotated Dihydroorotase from cog3964 in the Amidohydrolase Superfamily

Author

Ornelas, Argentina, Korczynska, Magdalena, Ragumani, Sugadev, Kumaran, Desigan, Narindoshvili, Tamari, Shoichet, Brian K, Swaminathan, Subramanyam, and Raushel, Frank M

Subjects
Biochemistry and Cell Biology, Biological Sciences, Agrobacterium tumefaciens, Amidohydrolases, Catalytic Domain, Crystallography, X-Ray, Dihydroorotase, Glycine, Models, Molecular, Ochrobactrum anthropi, Organophosphorus Compounds, Protein Conformation, Substrate Specificity, Medicinal and Biomolecular Chemistry, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical biochemistry and metabolomics, Medicinal and biomolecular chemistry
Abstract

The substrate specificities of two incorrectly annotated enzymes belonging to cog3964 from the amidohydrolase superfamily were determined. This group of enzymes are currently misannotated as either dihydroorotases or adenine deaminases. Atu3266 from Agrobacterium tumefaciens C58 and Oant2987 from Ochrobactrum anthropi ATCC 49188 were found to catalyze the hydrolysis of acetyl-(R)-mandelate and similar esters with values of k(cat)/K(m) that exceed 10(5) M(-1) s(-1). These enzymes do not catalyze the deamination of adenine or the hydrolysis of dihydroorotate. Atu3266 was crystallized and the structure determined to a resolution of 2.62 Å. The protein folds as a distorted (β/α)(8) barrel and binds two zincs in the active site. The substrate profile was determined via a combination of computational docking to the three-dimensional structure of Atu3266 and screening of a highly focused library of potential substrates. The initial weak hit was the hydrolysis of N-acetyl-D-serine (k(cat)/K(m) = 4 M(-1) s(-1)). This was followed by the progressive identification of acetyl-(R)-glycerate (k(cat)/K(m) = 4 × 10(2) M(-1) s(-1)), acetyl glycolate (k(cat)/K(m) = 1.3 × 10(4) M(-1) s(-1)), and ultimately acetyl-(R)-mandelate (k(cat)/K(m) = 2.8 × 10(5) M(-1) s(-1)).

Published
2013

4. 6-Phosphofructo-2-Kinase/Fructose-2,6-Biphosphatase-2 Regulates TP53-Dependent Paclitaxel Sensitivity in Ovarian and Breast Cancers

Author

Yang, Hailing, primary, Shu, Zhang, additional, Jiang, Yongying, additional, Mao, Weiqun, additional, Pang, Lan, additional, Redwood, Abena, additional, Jeter-Jones, Sabrina L., additional, Jennings, Nicholas B., additional, Ornelas, Argentina, additional, Zhou, Jinhua, additional, Rodriguez-Aguayo, Cristian, additional, Bartholomeusz, Geoffrey, additional, Iles, LaKesla R., additional, Zacharias, Niki M., additional, Millward, Steven W., additional, Lopez-Berestein, Gabriel, additional, Le, Xiao-Feng, additional, Ahmed, Ahmed A., additional, Piwnica-Worms, Helen, additional, Sood, Anil K., additional, Bast, Robert C., additional, and Lu, Zhen, additional

Published
2019
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5. Real‐Time Interrogation of Aspirin Reactivity, Biochemistry, and Biodistribution by Hyperpolarized Magnetic Resonance Spectroscopy

Author

Zacharias, Niki M., primary, Ornelas, Argentina, additional, Lee, Jaehyuk, additional, Hu, Jingzhe, additional, Davis, Jennifer S., additional, Uddin, Nasir, additional, Pudakalakatti, Shivanand, additional, Menter, David G., additional, Karam, Jose A., additional, Wood, Christopher G., additional, Hawk, Ernest T., additional, Kopetz, Scott, additional, Vilar, Eduardo, additional, Bhattacharya, Pratip K., additional, and Millward, Steven W., additional

Published
2019
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6. The Role of Advisory Committees in Biomedical Education and Workforce Development : Emerging Research and Opportunities

Author

Ornelas, Argentina and Ornelas, Argentina

Subjects
Medical personnel--Training of--United States, Medical education--Research--United States, Advisory boards--Medicine
Abstract

In an effort to create a more educated workforce in the United States, many community colleges are implementing the use of advisory groups to assist under-prepared students. These efforts will ultimately support a stronger and more resilient global workforce. The Role of Advisory Committees in Biomedical Education and Workforce Development: Emerging Research and Opportunities is a pivotal reference source for the latest research findings on the development of advisory committees in biomedical education, workforce development, and the guiding principles that result in successful research and opportunities. Featuring extensive coverage on relevant areas such as workforce education programs, collaborative decision-making, and skillset training, this publication is an ideal resource for academics, researchers, graduate-level students, committee development officers, business professionals, administrators, and workforce education specialists.

Published
2017

7. Caspase-3 Substrates for Noninvasive Pharmacodynamic Imaging of Apoptosis by PET/CT

Author

Engel, Brian J., primary, Gammon, Seth T., additional, Chaudhari, Rajan, additional, Lu, Zhen, additional, Pisaneschi, Federica, additional, Yang, Hailing, additional, Ornelas, Argentina, additional, Yan, Victoria, additional, Kelderhouse, Lindsay, additional, Najjar, Amer M., additional, Tong, William P., additional, Zhang, Shuxing, additional, Piwnica-Worms, David, additional, Bast, Robert C., additional, and Millward, Steven W., additional

Published
2018
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9. Automated, Resin-Based Method to Enhance the Specific Activity of Fluorine-18 Clicked PET Radiotracers

Author

Pisaneschi, Federica, primary, Kelderhouse, Lindsay E., additional, Hardy, Amanda, additional, Engel, Brian J., additional, Mukhopadhyay, Uday, additional, Gonzalez-Lepera, Carlos, additional, Gray, Joshua P., additional, Ornelas, Argentina, additional, Takahashi, Terry T., additional, Roberts, Richard W., additional, Fiacco, Stephen V., additional, Piwnica-Worms, David, additional, and Millward, Steven W., additional

Published
2017
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10. Induction of autophagy by ARHI (DIRAS3) alters fundamental metabolic pathways in ovarian cancer models

Author

Ornelas, Argentina, primary, McCullough, Christopher R., additional, Lu, Zhen, additional, Zacharias, Niki M., additional, Kelderhouse, Lindsay E., additional, Gray, Joshua, additional, Yang, Hailing, additional, Engel, Brian J., additional, Wang, Yan, additional, Mao, Weiqun, additional, Sutton, Margie N., additional, Bhattacharya, Pratip K., additional, Bast, Robert C., additional, and Millward, Steven W., additional

Published
2016
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11. Directed Evolution of Scanning Unnatural-Protease-Resistant (SUPR) Peptides for in Vivo Applications

Author

Fiacco, Stephen V., primary, Kelderhouse, Lindsay E., additional, Hardy, Amanda, additional, Peleg, Yonatan, additional, Hu, Biliang, additional, Ornelas, Argentina, additional, Yang, Peiying, additional, Gammon, Seth T., additional, Howell, Shannon M., additional, Wang, Pin, additional, Takahashi, Terry T., additional, Millward, Steven W., additional, and Roberts, Richard W., additional

Published
2016
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18. Additional file 1: Figure S1. of Induction of autophagy by ARHI (DIRAS3) alters fundamental metabolic pathways in ovarian cancer models

Author

Ornelas, Argentina, McCullough, Christopher, Lu, Zhen, Zacharias, Niki, Kelderhouse, Lindsay, Gray, Joshua, Hailing Yang, Engel, Brian, Wang, Yan, Weiqun Mao, Sutton, Margie, Pratip Bhattacharya, Bast, Robert, and Millward, Steven

Subjects
endocrine system diseases, 3. Good health
Abstract

Growth of parental and ARHI-transfected SKOv3 and Hey cells. Effect of Dox treatment on the growth of parental and ARHI-transfected SKOv3 and Hey cells at 24 and 48Â h. Western analysis of the effect of ARHI expression on LC3I and LC3II is also presented. Figure S2. Western analysis of GLUT1 expression following ARHI induction. Figure S3. Analysis of ARHI expression and autophagy markers during Atg5 knockdown. Effect of Atg5 knockdown on LC3I and LC3II levels during ARHI expression in SKOv3-ARHI cells. Immunofluorescence of SKOv3-ARHI cells transfected with GFP-LC3 following ARHI induction with and without Atg5 knockdown. Figure S4. Western analysis of LDH and CK expression following ARHI induction. Figure S5. Induction of ARHI expression in vivo. Expression of ARHI and LC3 in subcutaneous SKOv3-ARHI tumors at 24-72 h post-treatment with Dox. Figure S6. Expression of ACC and Phsopho-ACC by RPPA. Figure S7. Fractional 13C label incorporation from 5-13C-Gln in SKOv3-ARHI. The fractional incorporation of the glutamine 13C label into NMR-observable intracellular metabolites following induction of ARHI. (PDF 867Â kb)

19. Additional file 1: Figure S1. of Induction of autophagy by ARHI (DIRAS3) alters fundamental metabolic pathways in ovarian cancer models

Author

Ornelas, Argentina, McCullough, Christopher, Lu, Zhen, Zacharias, Niki, Kelderhouse, Lindsay, Gray, Joshua, Hailing Yang, Engel, Brian, Wang, Yan, Weiqun Mao, Sutton, Margie, Pratip Bhattacharya, Bast, Robert, and Millward, Steven

Subjects
endocrine system diseases, 3. Good health
Abstract

Growth of parental and ARHI-transfected SKOv3 and Hey cells. Effect of Dox treatment on the growth of parental and ARHI-transfected SKOv3 and Hey cells at 24 and 48Â h. Western analysis of the effect of ARHI expression on LC3I and LC3II is also presented. Figure S2. Western analysis of GLUT1 expression following ARHI induction. Figure S3. Analysis of ARHI expression and autophagy markers during Atg5 knockdown. Effect of Atg5 knockdown on LC3I and LC3II levels during ARHI expression in SKOv3-ARHI cells. Immunofluorescence of SKOv3-ARHI cells transfected with GFP-LC3 following ARHI induction with and without Atg5 knockdown. Figure S4. Western analysis of LDH and CK expression following ARHI induction. Figure S5. Induction of ARHI expression in vivo. Expression of ARHI and LC3 in subcutaneous SKOv3-ARHI tumors at 24-72 h post-treatment with Dox. Figure S6. Expression of ACC and Phsopho-ACC by RPPA. Figure S7. Fractional 13C label incorporation from 5-13C-Gln in SKOv3-ARHI. The fractional incorporation of the glutamine 13C label into NMR-observable intracellular metabolites following induction of ARHI. (PDF 867Â kb)

20. Real-Time Interrogation of Aspirin Reactivity, Biochemistry, and Biodistribution by Hyperpolarized Magnetic Resonance Spectroscopy.

Author

Zacharias NM, Ornelas A, Lee J, Hu J, Davis JS, Uddin N, Pudakalakatti S, Menter DG, Karam JA, Wood CG, Hawk ET, Kopetz S, Vilar E, Bhattacharya PK, and Millward SW

Subjects
Acetylation, Animals, Anti-Inflammatory Agents, Non-Steroidal chemistry, Aspirin chemistry, Hydrolysis, Male, Mice, Tissue Distribution, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Aspirin pharmacokinetics, Carbon Isotopes analysis, Serum Albumin, Bovine metabolism
Abstract

Hyperpolarized magnetic resonance spectroscopy enables quantitative, non-radioactive, real-time measurement of imaging probe biodistribution and metabolism in vivo. Here, we investigate and report on the development and characterization of hyperpolarized acetylsalicylic acid (aspirin) and its use as a nuclear magnetic resonance (NMR) probe. Aspirin derivatives were synthesized with single- and double- 13 C labels and hyperpolarized by dynamic nuclear polarization with 4.7 % and 3 % polarization, respectively. The longitudinal relaxation constants (T 1 ) for the labeled acetyl and carboxyl carbonyls were approximately 30 seconds, supporting in vivo imaging and spectroscopy applications. In vitro hydrolysis, transacetylation, and albumin binding of hyperpolarized aspirin were readily monitored in real time by 13 C-NMR spectroscopy. Hyperpolarized, double-labeled aspirin was well tolerated in mice and could be observed by both 13 C-MR imaging and 13 C-NMR spectroscopy in vivo., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2019
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