Teresa Snyder-Leiby scite author profile

Teresa Snyder-Leiby

5Publications

62Citation Statements Received

83Citation Statements Given

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Affiliations

State University of New York at New Paltz

Publications

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Synthesis, Antimicrobial Evaluation, and Structure–Activity Relationship of α-Pinene Derivatives

Dhar¹,

Chan²,

Cohen³

et al. 2014

J. Agric. Food Chem.

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Several (+)- and (-)-α-pinene derivatives were synthesized and evaluated for their antimicrobial activity toward Gram-positive bacteria Micrococcus luteus and Staphylococcus aureus, Gram-negative bacterium Escherichia coli, and the unicellular fungus Candida albicans using bioautographic assays. (+)-α-Pinene 1a showed modest activity against the test organisms, whereas (-)-α-pinene 1b showed no activity at the tested concentration. Of all the α-pinene derivatives evaluated, the β-lactam derivatives (10a and 10b) were the most antimicrobial. The increase in the antimicrobial activity of 10a compared to 1a ranged from nearly 3.5-fold (C. albicans) to 43-fold (S. aureus). The mean ± standard deviation for the zone of inhibition (mm) for 10a (C. albicans) was 31.9 ± 4.3 and that for S. aureus was 51.1 ± 2.9. Although (-)-α-pinene 1b was not active toward the test microorganisms, the corresponding β-lactam 10b, amino ester 13b, and amino alcohol 14b showed antimicrobial activity toward the test microorganisms. The increase in the antimicrobial activity of 10b compared to 1b ranged from 32-fold (S. aureus) to 73-fold (M. luteus). The mean ± standard deviation for the zone of inhibition (mm) for 10b (S. aureus) was 32.0 ± 0.60 and that for M. luteus was 73.2 ± 0.30.

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The effects of elevated carbon dioxide levels on a Vibrio sp. isolated from the deep-sea

Labare

Bays

Butkus

et al. 2010

Environ Sci Pollut Res

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The wild-type strain of 9NA could not grow in acidified marine broth below a pH of 5. The pH of marine broth did not drop below this level until at least 20.8 mM of CO2 was injected into the medium. 9NA did not grow at this CO2 concentration or higher concentrations (31.2 and 41.6 mM) for at least 72 h. Carbon dioxide at 10.4 mM also inhibited growth, but the bacterium was able to recover and grow. Exposure to CO2 caused the cell to undergo a morphological change and form a dimple-like structure. The membrane was also damaged but with no protein leakage.

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Study of the Structural Changes on the Antimicrobial Activity of [3.1.1.]-Bicyclics

Dhar¹,

Ayala²,

Andarge³

et al. 2004

Journal of Essential Oil Research

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An enzymatic assay for metabolites of perfluoro-tagged 5-hydroxytryptophan

Snyder-Leiby

Dingman

Thomas

et al. 2004

Applied Microbiology and Biotechnology

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l-5-hydroxytryptophan (5-HTP) with two types of multiple (19)F-atom tags bonded at various positions onto the indole ring (positions 4, 6, or 7) was exposed to aromatic l-amino acid decarboxylase (AADC) in lysates of Escherichia coli JM109 which had been transformed with the plasmid pKKAADCII. Resulting samples were analyzed with HPLC. In the first study, which investigated a straight-chain seven-atom tag, a novel peak, putatively perfluoro-tagged serotonin, was detected. A second study demonstrated that 5-HTP was converted to 5-HT in transformed E.coli lysate but not in untransformed lysate. A third study, investigating a tag with nine fluorine atoms all in the same nuclear environment, identified the isomer serving as the best substrate for AADC. This novel molecule had the tag bonded at the 6 position on the indole ring. Isomers that fit into the active site of AADC are likely to follow the biosynthetic path for serotonin in vivo and are potentially useful in (19)F magnetic resonance spectroscopy studies. The enzymatic assay described here provides an efficient and cost-effective tool for screening new compounds.

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Enzymatic assay for perfluoro-tagged metabolites of l-DOPA using crude lysate from E. coli transformed with pKKAADCII

Dingman

Snyder-Leiby

Mack

et al. 2004

Applied Microbiology and Biotechnology

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Isomers of l-DOPA and dopamine with a nine-atom 19F atom tag were exposed to aromatic acid decarboxylase (AADC) in the lysate of Escherichia coli JM109 that had been transformed with the plasmid pKKAADCII. The resulting samples were analyzed with HPLC. The first study investigated the conversion of the tagged l-DOPA into tagged dopamine, using the tagged dopamine as a standard. A second study was undertaken to identify the source of peaks seen in the enzymatic assays. l-DOPA with the tag bonded at position 5 served as the best substrate for AADC. Isomers that fit into the active site of AADC are likely to follow the biosynthetic path for dopamine in vivo and are potentially useful in magnetic resonance studies. The enzymatic assay described here provides an efficient and cost-effective tool for screening new compounds for use in the fluorine imaging of neural pathways.

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