Longxing Wei scite author profile

Although Epstein-Barr virus (EBV) is often found in human tonsils, it remains to be precisely determined in what cells and microenvironment the virus is present. Although generally regarded as a B lymphotropic virus, EBV is associated with non-B-cell tumors, for example, NK/T-cell lymphoma, carcinoma, and leiomyosarcoma. To provide a basis for understanding the origin and biology of EBV-infected non-B cells, the immunophenotype of all EBV-infected cells in reactive human tonsils was determined by subjecting tonsil sections to dual/triple EBER in situ hybridization and immunohistochemistry with monoclonal antibodies to T cells (CD3, CD4, CD8,

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The Bilingual Mental Lexicon and Speech Production Process

Wei

2002

Brain and Language

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Unequal election of morphemes in adult second language acquisition

Wei¹

2000

Applied Linguistics

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Suspension Array of Ionic Liquid or Ionic Liquid–Quantum Dots Conjugates for the Discrimination of Proteins and Bacteria

et al. 2015

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It is of great importance to develop novel and sensitive sensing materials for the detection of proteins and microorganisms to fulfill the demand of disease diagnosis. As the selectivity and sensitivity of sensing systems are highly dependent on the receptor, the fluorescent sensor array with imidazolium ionic liquids (ILs) and ionic liquid-quantum dots conjugates as semiselective receptors is developed for protein/bacteria differential sensing or discrimination. The IL sensing system formed by 1,3-dibutylimidazolium chloride (BBimCl), 1,3-diethylimidazolium bromine (EEimBr), 1,3-dibutylimidazolium bromine (BBimBr), 1,3-dihexylimidazolium bromine (HHimBr), and 1,3-dioctylimidazolium bromine (OOimBr) and the IL@QDs/QDs sensing system formed by CdTe, BBimCl@CdTe, EEimBr@CdTe, BBimBr@CdTe, and HHimBr@CdTe are tested, by transferring the interaction binding difference between receptors and proteins to the fluorescent response pattern. The IL sensing system is applied to the identification of 48 samples (8 proteins at 500 nM) with an accuracy of 91.7%. For the IL@QDs/QDs sensing system, 8 proteins are completely distinguished with 100% accuracy at a very low concentration level of 10 nM. Remarkably, 36 training cases (6 strains of bacteria from 3 different species) are discriminated with 100% (OD600 of 0.1).

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Sources of Microplastic in the Environment

Liu

Deng

et al. 2020

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Activation of Lemmas in the Multilingual Mental Lexicon and Transfer in Third Language Learning

Wei

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The Multilingual Mental Lexicon and Lemma Transfer in Third Language Learning

Wei

2006

International Journal of Multilingualism

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Code-switching and the bilingual mental lexicon

Wei¹

2009

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Longxing Wei

Distribution and phenotype of Epstein–Barr virus-infected cells in human pharyngeal tonsils

The Bilingual Mental Lexicon and Speech Production Process

Unequal election of morphemes in adult second language acquisition

Suspension Array of Ionic Liquid or Ionic Liquid–Quantum Dots Conjugates for the Discrimination of Proteins and Bacteria

Sources of Microplastic in the Environment

Activation of Lemmas in the Multilingual Mental Lexicon and Transfer in Third Language Learning

The Multilingual Mental Lexicon and Lemma Transfer in Third Language Learning

Code-switching and the bilingual mental lexicon

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