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15 results on '"Mi, Dehui"'

1. Structure based virtual screening identifies small molecule effectors for the sialoglycan binding protein Hsa.

Author

Agarwal, Rupesh, Bensing, Barbara, Mi, Dehui, Vinson, Paige, Baudry, Jerome, Iverson, Tina, and Smith, Jeremy

Subjects
adhesin protein, small molecule effectors, structure-based, Adhesins, Bacterial, Anti-Bacterial Agents, Hemagglutinins, Viral, Protein Domains, Streptococcus gordonii
Abstract

Infective endocarditis (IE) is a cardiovascular disease often caused by bacteria of the viridans group of streptococci, which includes Streptococcus gordonii and Streptococcus sanguinis. Previous research has found that serine-rich repeat (SRR) proteins on the S. gordonii bacterial surface play a critical role in pathogenesis by facilitating bacterial attachment to sialylated glycans displayed on human platelets. Despite their important role in disease progression, there are currently no anti-adhesive drugs available on the market. Here, we performed structure-based virtual screening using an ensemble docking approach followed by consensus scoring to identify novel small molecule effectors against the sialoglycan binding domain of the SRR adhesin protein Hsa from the S. gordonii strain DL1. The screening successfully predicted nine compounds which were able to displace the native ligand (sialyl-T antigen) in an in vitro assay and bind competitively to Hsa. Furthermore, hierarchical clustering based on the MACCS fingerprints showed that eight of these small molecules do not share a common scaffold with the native ligand. This study indicates that SRR family of adhesin proteins can be inhibited by diverse small molecules and thus prevent the interaction of the protein with the sialoglycans. This opens new avenues for discovering potential drugs against IE.

Published
2020

2. Synthesis and SAR of a novel Kir6.2/SUR1 channel opener scaffold identified by HTS

Author

Dodd, Cayden J., primary, Chronister, Keagan S., additional, Rathnayake, Upendra, additional, Parr, Lauren C., additional, Li, Kangjun, additional, Chang, Sichen, additional, Mi, Dehui, additional, Days, Emily L., additional, Bauer, Joshua A., additional, Cho, Hyekyung P., additional, Boutaud, Olivier, additional, Denton, Jerod S., additional, Lindsley, Craig W., additional, and Han, Changho, additional

Published
2023
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7. A BRET Ca2+ sensor enables high-throughput screening in the presence of background fluorescence.

Author

Cumberbatch, Derrick, Mori, Tetsuya, Yang, Jie, Mi, Dehui, Vinson, Paige, Weaver, C. David, and Johnson, Carl Hirschie

Subjects
MUSCARINIC acetylcholine receptors, HIGH throughput screening (Drug development), FLUORESCENCE resonance energy transfer, CHEMICAL libraries, FLUORESCENCE, FLUORESCEIN, DETECTORS
Abstract

The intrinsic fluorescence of samples confounds the use of fluorescence-based sensors. This is of particular concern in high-throughput screening (HTS) applications using large chemical libraries containing intrinsically fluorescent compounds. To overcome this problem, we developed a bioluminescence resonance energy transfer (BRET) Ca2+ sensor, CalfluxCTN. We demonstrated that it reliably reported changes in intracellular Ca2+ concentrations evoked by an agonist and an antagonist of the human muscarinic acetylcholine receptor M1 (hM1R) even in the presence of the fluorescent compound fluorescein, which interfered with a standard fluorescent HTS sensor (Fluo-8). In an HTS using a chemical library containing fluorescent compounds, CalfluxCTN accurately identified agonists and antagonists that were missed or miscategorized using Fluo-8. Moreover, we showed that a luciferase substrate that becomes activated only when inside cells generated long-lasting BRET signals in HTS, enabling results to be reliably compared among replicate samples for hours. Thus, the use of a self-luminescent sensor instead of a fluorescent sensor could facilitate the complete screening of chemical libraries in a high-throughput context and enable analysis of autofluorescent samples in many different applications. Overcoming background fluorescence: Fluorescent sensors are commonly used to monitor cellular processes, but sample autofluorescence or the presence of fluorescent reagents can interfere with the detection of sensor activity. Cumberbatch et al. developed CalfluxCTN, a bioluminescence resonance energy transfer sensor for Ca2+. CalfluxCTN accurately reported on intracellular Ca2+ signaling downstream of the muscarinic acetylcholine receptor hM1R even in the presence of a fluorescent compound. Moreover, it outperformed the fluorescent Ca2+ sensor Fluo-8 in high-throughput screening of a chemical library containing fluorescent compounds. Thus, the use of a bioluminescent sensor can circumvent the confounding effects of background fluorescence. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Picosecond transient absorption spectroscopy in the blue spectral region of photosystem I

Author

Mi, Dehui, Lin, Su, and Blankenship, Robert E.

Subjects
Cyanobacteria -- Research, Photosynthesis -- Analysis, Biological sciences, Chemistry
Abstract

The difference spectrum of the early electron acceptors in photosytem I in the blue wavelength region is similar to that found in previous studies. Photosystem I is one of the centers of photosynthesis in cyanobacteria.

Published
1999

10. Comparative analysis of myometrial and vascular smooth muscle cells to determine optimal cells for use in drug discovery

Author

Siricilla, Shajila, primary, Knapp, Kelsi M., additional, Rogers, Jackson H., additional, Berger, Courtney, additional, Shelton, Elaine L., additional, Mi, Dehui, additional, Vinson, Paige, additional, Condon, Jennifer, additional, Paria, Bibhash C., additional, Reese, Jeff, additional, Sheng, Quanhu, additional, and Herington, Jennifer L., additional

Published
2019
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15. A BRET Ca2+sensor enables high-throughput screening in the presence of background fluorescence

Author

Cumberbatch, Derrick, Mori, Tetsuya, Yang, Jie, Mi, Dehui, Vinson, Paige, Weaver, C. David, and Johnson, Carl Hirschie

Abstract

The intrinsic fluorescence of samples confounds the use of fluorescence-based sensors. This is of particular concern in high-throughput screening (HTS) applications using large chemical libraries containing intrinsically fluorescent compounds. To overcome this problem, we developed a bioluminescence resonance energy transfer (BRET) Ca2+sensor, CalfluxCTN. We demonstrated that it reliably reported changes in intracellular Ca2+concentrations evoked by an agonist and an antagonist of the human muscarinic acetylcholine receptor M1(hM1R) even in the presence of the fluorescent compound fluorescein, which interfered with a standard fluorescent HTS sensor (Fluo-8). In an HTS using a chemical library containing fluorescent compounds, CalfluxCTN accurately identified agonists and antagonists that were missed or miscategorized using Fluo-8. Moreover, we showed that a luciferase substrate that becomes activated only when inside cells generated long-lasting BRET signals in HTS, enabling results to be reliably compared among replicate samples for hours. Thus, the use of a self-luminescent sensor instead of a fluorescent sensor could facilitate the complete screening of chemical libraries in a high-throughput context and enable analysis of autofluorescent samples in many different applications.

Published
2022
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