L
Li-June Ming
Researcher at University of South Florida
Publications - 77
Citations - 2925
Li-June Ming is an academic researcher from University of South Florida. The author has contributed to research in topics: Nuclear magnetic resonance spectroscopy & Proton NMR. The author has an hindex of 26, co-authored 77 publications receiving 2623 citations. Previous affiliations of Li-June Ming include University of Minnesota & National Cheng Kung University.
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Journal ArticleDOI
Immobilization of MP-11 into a Mesoporous Metal–Organic Framework, MP-11@mesoMOF: A New Platform for Enzymatic Catalysis
Vasiliki Lykourinou,Yao Chen,Xi-Sen Wang,Le Meng,Tran Hoang,Li-June Ming,Ronald L. Musselman,Shengqian Ma +7 more
TL;DR: Microperoxidase-11 has for the first time been successfully immobilized into a mesoporous metal-organic framework (MOF) consisting of nanoscopic cages and it demonstrates superior enzymatic catalysis performances compared to its mesoporus silica counterpart.
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How can proteins enter the interior of a MOF? Investigation of cytochrome c translocation into a MOF consisting of mesoporous cages with microporous windows.
Yao Chen,Vasiliki Lykourinou,Carissa M. Vetromile,Tran Hoang,Li-June Ming,Randy W. Larsen,Shengqian Ma +6 more
TL;DR: It has been demonstrated for the first time that the heme protein cytochrome c (Cyt c) can enter the interior of a MOF despite the larger molecular dimension of the protein relative to the access pore sizes.
Journal ArticleDOI
Structure and function of "metalloantibiotics".
TL;DR: Although most antibiotics do not need metal ions for their biological activities, there are a number of antibiotics that require metal ions to function properly, such as bleomycin, streptonigrin, and bacitracin, which are the title subjects of this review.
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Metal binding and structure-activity relationship of the metalloantibiotic peptide bacitracin.
Li-June Ming,Jon D. Epperson +1 more
TL;DR: Since bacterial resistance against bacitracin is still rare despite several decades of widespread use, this antibiotic can serve as an ideal lead for the design of potent peptidyl antibiotics lacking bacterial resistance.
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Size-Selective Biocatalysis of Myoglobin Immobilized into a Mesoporous Metal–Organic Framework with Hierarchical Pore Sizes
TL;DR: The protein myoglobin has been successfully immobilized into a mesoporous metal-organic framework with hierarchical pore sizes, which demonstrates interesting size-selective biocatalysis as well as superior catalytic activities toward small substrate oxidation compared to its Mesoporous silica material counterpart.