Ke-Yi Lin scite author profile

Ke-Yi Lin

5Publications

99Citation Statements Received

186Citation Statements Given

How they've been cited

How they cite others

196

180

Affiliations

Bioscience (China), The University of Texas at Austin

Publications

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Construction of the Octose 8-Phosphate Intermediate in Lincomycin A Biosynthesis: Characterization of the Reactions Catalyzed by LmbR and LmbN

Sasaki

Lin

et al. 2012

J. Am. Chem. Soc.

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Lincomycin A is a potent antimicrobial agent noted for its unusual C1 methylmercapto-substituted eight-carbon sugar. Despite its long clinical history for the treatment of Grampositive infections, the biosynthesis of the C8-sugar, methylthiolincosamide (MTL), is poorly understood. Here, we report our studies of the two initial enzymatic steps in the MTL biosynthetic pathway leading to the identification of D-erythro-D-gluco-octose 8-phosphate as a key intermediate. Our experiments demonstrate that this intermediate is formed via a transaldol reaction catalyzed by LmbR using D-fructose 6-phosphate or D-sedoheptulose 7-phosphate as the C3 donor and D-ribose 5-phosphate as the C5 acceptor. Subsequent 1,2-isomerization catalyzed by LmbN converts the resulting 2-keto C8-sugar (octulose 8-phosphate) to octose 8-phosphate. These results provide, for the first time, in vitro evidence revealing the biosynthetic origin of the C8 backbone of MTL.

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Probing the Unfolding of Myoglobin and Domain C of PARP-1 with Covalent Labeling and Top-Down Ultraviolet Photodissociation Mass Spectrometry

et al. 2014

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Ultraviolet photodissocation (UVPD) mass spectrometry was used for high mass accuracy top-down characterization of two proteins labeled by the chemical probe, S-ethylacetimidate (SETA), in order to evaluate conformational changes as a function of denaturation. The SETA labeling/UVPD-MS methodology was used to monitor the mild denaturation of horse heart myoglobin by acetonitrile, and the results showed good agreement with known acetonitrile and acid unfolding pathways of myoglobin. UVPD outperformed electron transfer dissociation (ETD) in terms of sequence coverage, allowing the SETA reactivity of greater number of lysine amines to be monitored and thus providing a more detailed map of myoglobin. This strategy was applied to the third zinc-finger binding domain, domain C, of PARP-1 (PARP-C), to evaluate the discrepancies between the NMR and crystal structures which reported monomer and dimer forms of the protein, respectively. The trends reflected from the reactivity of each lysine as a function of acetonitrile denaturation in the present study support that PARP-C exists as a monomer in solution with a close-packed C-terminal α helix. Additionally, those lysines for which the SETA reactivity increased under denaturing conditions were found to engage in tertiary polar contacts such as salt bridging and hydrogen bonding, providing evidence that the SETA/UVPD-MS approach offers a versatile means to probe the interactions responsible for conformational changes in proteins.

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Streamlined human antibody generation and optimization by exploiting designed immunoglobulin loci in a B cell line

Seo

Masuda²,

Asagoshi³

et al. 2020

Cell Mol Immunol

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Monoclonal antibodies (mAbs) are widely utilized as therapeutic drugs for various diseases, such as cancer, autoimmune diseases, and infectious diseases. Using the avian-derived B cell line DT40, we previously developed an antibody display technology, namely, the ADLib system, which rapidly generates antigen-specific mAbs. Here, we report the development of a human version of the ADLib system and showcase the streamlined generation and optimization of functional human mAbs. Tailored libraries were first constructed by replacing endogenous immunoglobulin genes with designed human counterparts. From these libraries, clones producing full-length human IgGs against distinct antigens can be isolated, as exemplified by the selection of antagonistic mAbs. Taking advantage of avian biology, effective affinity maturation was achieved in a straightforward manner by seamless diversification of the parental clones into secondary libraries followed by single-cell sorting, quickly affording mAbs with improved affinities and functionalities. Collectively, we demonstrate that the human ADLib system could serve as an integrative platform with unique diversity for rapid de novo generation and optimization of therapeutic or diagnostic antibody leads. Furthermore, our results suggest that libraries can be constructed by introducing exogenous genes into DT40 cells, indicating that the ADLib system has the potential to be applied for the rapid and effective directed evolution and optimization of proteins in various fields beyond biomedicine.

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Fast-tracking antibody maturation using a B cell-based display system

Masuda¹,

Sawada²,

Hashimoto³

et al. 2022

mAbs

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Construction of the ELISA assay to quantify Semaphorin 3A in the adult brain

Furukawa

Kobayashi

Lin

et al. 2022

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Ke-Yi Lin

Construction of the Octose 8-Phosphate Intermediate in Lincomycin A Biosynthesis: Characterization of the Reactions Catalyzed by LmbR and LmbN

Probing the Unfolding of Myoglobin and Domain C of PARP-1 with Covalent Labeling and Top-Down Ultraviolet Photodissociation Mass Spectrometry

Streamlined human antibody generation and optimization by exploiting designed immunoglobulin loci in a B cell line

Fast-tracking antibody maturation using a B cell-based display system

Construction of the ELISA assay to quantify Semaphorin 3A in the adult brain

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