Shu-Ping Yang scite author profile

Abstract:Molecularly imprinting polymers (MIPs) have been extensively applied in chromatography for the separation of chiral drugs. In this review, we mainly summarize recent developments of various MIPs used as chiral stationary phases (CSPs) in high performance liquid chromatography (HPLC), capillary electrochromatography (CEC), and supercritical fluid chromatography (SFC). Among them, HPLC has the advantages of straightforward operation and high selectivity. However, the low separation efficiency, due to slow interaction kinetics and heavy peak broadening, is the main challenge for the application of MIPs in HPLC. On the other hand, CEC possesses both the high selectivity of HPLC and the high efficiency of capillary electrophoresis. In CEC, electroosmotic flow is formed across the entire column and reduces the heavy peak broadening observed in HPLC mode. SFC can modify the low interaction kinetics in HPLC when supercritical fluids are utilized as mobile phases. If SFC and MIP-based CSPs can be well combined, better separation performance can be achieved. Particles, monoliths and membrane are typical formats of MIPs. Traditional MIP particles produced by bulk polymerization have been replaced by MIP particles by surface imprinting technology, which are highly consistent in size and shape. Monolithic MIPs are prepared by in situ method in a column, greatly shortening the pre-preparation time. Some novel materials, such as magnetic nanoparticles, are integrated into the MIPs to enhance the controllability and efficiency of the polymerization. This review will be helpful to guide the preparation, development, and application of MIPs in chromatographic and electrophoretic enantioseparation.

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Characteristic analysis of transformants in T-DNA mutation library of Monascus ruber

Shao

Ding

Zhao

et al. 2009

World J Microbiol Biotechnol

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Monascus ruber, a red mold species, has been widely used in the fields of food and medicine. In this research, we transformed Monascus ruber spores using Agrobacterium tumefaciens as a tool for random insertional mutagenesis with the hygromycin phosphotransferase gene as the selected marker. Three types of mutants including citrinin-producing mutants, mutants with abnormal aerial hyphae and pigment change mutants were screened for molecular analysis. Southern blot analysis showed that more than 83.3% of transformants contained single T-DNA insertions. The genomic DNA segments of the transformants flanking the T-DNA could be amplified from their left borders with TAIL-PCR. Homologous comparison using the Blast tool showed that none of the isolated DNA sequences had any similarity to each other, suggesting that the T-DNA was randomly integrated into the fungal genome, which provided the hypothetical reason for the variant phenotypes of the transformants. The successful creation of transformants with a single T-DNA tag insertion may help us to clone functional genes related to the metabolism and differentiation of Monascus spp., which will greatly facilitate the molecular analysis of this important fungus and the improvement of strains at the genetic level.

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Substrate-Mediated C–C and C–H Coupling after Dehalogenation

Kong¹,

Yang²,

Gao

et al. 2017

J. Am. Chem. Soc.

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Intermolecular C-C coupling after cleavage of C-X (mostly, X = Br or I) bonds has been extensively studied for facilitating the synthesis of polymeric nanostructures. However, the accidental appearance of C-H coupling at the terminal carbon atoms would limit the successive extension of covalent polymers. To our knowledge, the selective C-H coupling after dehalogenation has not so far been reported, which may illuminate another interesting field of chemical synthesis on surfaces besides in situ fabrication of polymers, i.e., synthesis of novel organic molecules. By combining STM imaging, XPS analysis, and DFT calculations, we have achieved predominant C-C coupling on Au(111) and more interestingly selective C-H coupling on Ag(111), which in turn leads to selective synthesis of polymeric chains or new organic molecules.

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Modeling chemical reactions on surfaces: The roles of chemical bonding and van der Waals interactions

Yang

Jiang

et al. 2019

Progress in Surface Science

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Identification of Mga1, a G-protein α-subunit gene involved in regulating citrinin and pigment production in Monascus ruber M7

Shao

et al. 2010

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The filamentous fungi Monascus spp., which have been used in traditional fermented food in Asia for centuries, are well-known producers of a group of bioactive metabolites that are widely used as food additives and nutraceutical supplements worldwide. However, its potential to produce the mycotoxin citrinin poses a threat to food safety. Here, a G-protein alpha-subunit-encoding gene, Mga1 (Monascus G-protein alpha-subunit 1), which encodes a protein showing a high degree of identity to Group I alpha-subunits of fungal heterotrimeric G-proteins, was cloned from Monascus ruber M7. An Mga1-disrupted strain was obtained by homologous recombination. The disruptant produced approximately nine times more citrinin and 71% more pigments than the wild-type strain M7, indicating that the G-protein alpha-subunit encoded by Mga1 is involved in a signal transduction pathway regulating citrinin and pigment biosynthesis in M. ruber M7.

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Shu-Ping Yang

Molecularly Imprinted Polymers for the Identification and Separation of Chiral Drugs and Biomolecules

Characteristic analysis of transformants in T-DNA mutation library of Monascus ruber

Substrate-Mediated C–C and C–H Coupling after Dehalogenation

Modeling chemical reactions on surfaces: The roles of chemical bonding and van der Waals interactions

Identification of Mga1, a G-protein α-subunit gene involved in regulating citrinin and pigment production in Monascus ruber M7

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