Po Hsun Lin scite author profile

Hydrogels with tunable viscoelasticity hold promise as materials that can recapitulate many dynamic mechanical properties found in native tissues. Here, covalent adaptable boronate bonds are exploited to prepare hydrogels that exhibit fast relaxation, with relaxation time constants on the order of seconds or less, but are stable for long‐term cell culture and are cytocompatible for 3D cell encapsulation. Using human mesenchymal stem cells (hMSC) as a model, the fast relaxation matrix mechanics are found to promote cell–matrix interactions, leading to spreading and an increase in nuclear volume, and induce yes‐associated protein/PDZ binding domain nuclear localization at longer times. All of these effects are exclusively based on the hMSCs' ability to physically remodel their surrounding microenvironment. Given the increasingly recognized importance of viscoelasticity in controlling cell function and fate, it is expected that the synthetic strategies and material platform presented should provide a useful system to study mechanotransduction on and within viscoelastic environments and explore many questions related to matrix biology.

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Studies of the binding mechanism between aptamers and thrombin by circular dichroism, surface plasmon resonance and isothermal titration calorimetry

Lin

Chen

Lee

et al. 2011

Colloids and Surfaces B: Biointerfaces

107

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Multiplexed Immunoassay: Quantitation and Profiling of Serum Biomarkers Using Magnetic Nanoprobes and MALDI-TOF MS

et al. 2008

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Taking advantage of efficient affinity extraction by surface-functionalized magnetic nanoparticles (MNPs) and accurate MALDI-TOF MS readout, we present a multiplexed immunoassay for simultaneous enrichment and quantitation of multiple disease-associated antigens, serum amyloid A (SAA), C-reactive protein (CRP), and serum amyloid P (SAP) from human serum. To obtain reproducible MALDI signal response with direct on-MNP detection, the seed-layer method improved homogeneity of the cocrystallization of MNPs and captured antigens. Our methodology demonstrated good quantitation linearity of targeted analytes (R(2) approximately 0.97) with reduced signal variation (RSD < 10%). The lower limit of quantitation is in the nanogram level with overall assay precision (intraday, 7.0%; interday, 11.3%) and accuracy (intraday, 6.3%; interday, 17.5%) including steps of nanoprobe extraction and MALDI-TOF MS analysis. This triplexed immunoassay showed overexpression of SAA and CRP in patients with cardiac catheterization or gastric cancer (P < 0.05), consistent with single-analyte ELISA and previous studies. Compared to the determination of disease onset by single protein quantitation, our multiplexed immunoassay revealed a distinct triplexed pattern in the control group, patients with gastric cancer, and cardiac catheterization. On the basis of the advantages of flexibility in nanoprobe preparation, high specificity and sensitivity, and rapid screening by MALDI-TOF MS, this platform may provide a new methodology for disease diagnosis.

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Recent trends and some applications of isothermal titration calorimetry in biotechnology

Roselin

Lin

et al. 2010

Biotechnology Journal

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Isothermal titration calorimeters (ITCs) are thermodynamic instruments used for the determination of enthalpy changes in any physical/chemical reaction. This can be applied in various fields of biotechnology. This review explains ITC applications, especially in bioseparation, drug development and cell metabolism. In liquid chromatography, the separation/purification of specific proteins or polypeptides in a mixture is usually achieved by varying the adsorption affinities of the different proteins/polypeptides for the adsorbent under different mobile-phase conditions and temperatures. Using ITC analysis, the binding mechanism of proteins with adsorbent solid material is derived by elucidating enthalpy and entropy changes, which offer valuable guidelines for designing experimental conditions in chromatographic separation. The binding affinity of a drug with its target is studied by deriving binding enthalpy and binding entropy. To improve the binding affinity, suitable lead compounds for a drug can be identified and their affinity tested by ITC. Recently ITC has also been used in studying cell metabolism. The heat produced by animal cells in culture can be used as a primary indicator of the kinetics of cell metabolism, which provides key information for drug bioactivity and operation parameters for process cell culture.

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Po Hsun Lin

Adaptable Fast Relaxing Boronate‐Based Hydrogels for Probing Cell–Matrix Interactions

Studies of the binding mechanism between aptamers and thrombin by circular dichroism, surface plasmon resonance and isothermal titration calorimetry

Multiplexed Immunoassay: Quantitation and Profiling of Serum Biomarkers Using Magnetic Nanoprobes and MALDI-TOF MS

Recent trends and some applications of isothermal titration calorimetry in biotechnology

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