Investigating the Intron Recognition Mechanism in Eukaryotes

With the rapid development of global industry and increasingly frequent product circulation, the separation and detection of chiral drugs/pesticides are becoming increasingly important. The chiral nature of substances can result in harm to the human body, and the selective endocrine-disrupting effect of drug enantiomers is caused by differential enantiospecific binding to receptors. This review is devoted to the specific recognition and resolution of chiral molecules by chromatography and membrane-based enantioseparation techniques. Chromatographic enantiomer separations with chiral stationary phase (CSP)-based columns and membrane-based enantiomer filtration are detailed. In addition, the unique properties of these chiral resolution methods have been summarized for practical applications in the chemistry, environment, biology, medicine, and food industries. We further discussed the recognition mechanism in analytical enantioseparations and analyzed recent developments and future prospects of chromatographic and membrane-based enantioseparations.

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X-ray crystallography reveals molecular recognition mechanism for sugar binding in a melibiose transporter MelB

Communications Biology ◽

10.1038/s42003-021-02462-x ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Lan Guan ◽

Parameswaran Hariharan

Keyword(s):

Molecular Recognition ◽

Binding Pocket ◽

Cation Binding ◽

Recognition Mechanism ◽

X Ray ◽

X Ray Crystallography ◽

Sugar Binding ◽

Sugar Specificity ◽

Major Facilitator ◽

Mfs Transporters

AbstractMajor facilitator superfamily_2 transporters are widely found from bacteria to mammals. The melibiose transporter MelB, which catalyzes melibiose symport with either Na+, Li+, or H+, is a prototype of the Na+-coupled MFS transporters, but its sugar recognition mechanism has been a long-unsolved puzzle. Two high-resolution X-ray crystal structures of a Salmonella typhimurium MelB mutant with a bound ligand, either nitrophenyl-α-d-galactoside or dodecyl-β-d-melibioside, were refined to a resolution of 3.05 or 3.15 Å, respectively. In the substrate-binding site, the interaction of both galactosyl moieties on the two ligands with MelBSt are virturally same, so the sugar specificity determinant pocket can be recognized, and hence the molecular recognition mechanism for sugar binding in MelB has been deciphered. The conserved cation-binding pocket is also proposed, which directly connects to the sugar specificity pocket. These key structural findings have laid a solid foundation for our understanding of the cooperative binding and symport mechanisms in Na+-coupled MFS transporters, including eukaryotic transporters such as MFSD2A.

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Cellular macromolecules-tethered DNA walking indexing to explore nanoenvironments of chromatin modifications

Nature Communications ◽

10.1038/s41467-021-22284-z ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Feng Chen ◽

Min Bai ◽

Xiaowen Cao ◽

Jing Xue ◽

Yue Zhao ◽

...

Keyword(s):

Fluorescence Imaging ◽

Spatial Organization ◽

High Throughput Sequencing ◽

Dna Amplification ◽

Chromatin Modifications ◽

Dynamic Changes ◽

Recognition Mechanism ◽

Cell Cycles ◽

Dna Modifications ◽

Relationship Of

AbstractExploring spatial organization and relationship of diverse biomolecules within cellular nanoenvironments is important to elucidate the fundamental processes of life. However, it remains methodologically challenging. Herein, we report a molecular recognition mechanism cellular macromolecules-tethered DNA walking indexing (Cell-TALKING) to probe the nanoenvironments containing diverse chromatin modifications. As an example, we characterize the nanoenvironments of three DNA modifications around one histone posttranslational modification (PTM). These DNA modifications in fixed cells are labeled with respective DNA barcoding probes, and then the PTM site is tethered with a DNA walking probe. Cell-TALKING can continuously produce cleavage records of any barcoding probes nearby the walking probe. New 3’-OH ends are generated on the cleaved barcoding probes to induce DNA amplification for downstream detections. Combining fluorescence imaging, we identify various combinatorial chromatin modifications and investigate their dynamic changes during cell cycles. We also explore the nanoenvironments in different cancer cell lines and clinical specimens. In principle, using high-throughput sequencing instead of fluorescence imaging may allow the detection of complex cellular nanoenvironments containing tens of biomolecules such as transcription factors.

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Selective Nonmethylated CpG DNA Recognition Mechanism of Cysteine Clamp Domains

Journal of the American Chemical Society ◽

10.1021/jacs.1c00599 ◽

2021 ◽

Author(s):

Bo Duan ◽

Dihong Fu ◽

Chaoqun Zhang ◽

Pengfei Ding ◽

Xianzhi Dong ◽

...

Keyword(s):

Dna Recognition ◽

Recognition Mechanism ◽

Cpg Dna ◽

Dna Recognition Mechanism

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Structure and Molecular Recognition Mechanism of IMP-13 Metallo-β-Lactamase

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.00123-20 ◽

2020 ◽

Vol 64 (6) ◽

Cited By ~ 1

Author(s):

Charlotte A. Softley ◽

Krzysztof M. Zak ◽

Mark J. Bostock ◽

Roberto Fino ◽

Richard Xu Zhou ◽

...

Keyword(s):

Crystal Structures ◽

Active Site ◽

Rational Drug Design ◽

Tryptophan Residue ◽

Resonance Spectroscopy ◽

Global Public Health ◽

Recognition Mechanism ◽

Gram Negative ◽

Content Type ◽

Locking Mechanism

ABSTRACT Multidrug resistance among Gram-negative bacteria is a major global public health threat. Metallo-β-lactamases (MBLs) target the most widely used antibiotic class, the β-lactams, including the most recent generation of carbapenems. Interspecies spread renders these enzymes a serious clinical threat, and there are no clinically available inhibitors. We present the crystal structures of IMP-13, a structurally uncharacterized MBL from the Gram-negative bacterium Pseudomonas aeruginosa found in clinical outbreaks globally, and characterize the binding using solution nuclear magnetic resonance spectroscopy and molecular dynamics simulations. The crystal structures of apo IMP-13 and IMP-13 bound to four clinically relevant carbapenem antibiotics (doripenem, ertapenem, imipenem, and meropenem) are presented. Active-site plasticity and the active-site loop, where a tryptophan residue stabilizes the antibiotic core scaffold, are essential to the substrate-binding mechanism. The conserved carbapenem scaffold plays the most significant role in IMP-13 binding, explaining the broad substrate specificity. The observed plasticity and substrate-locking mechanism provide opportunities for rational drug design of novel metallo-β-lactamase inhibitors, essential in the fight against antibiotic resistance.

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Escherichia coli tRNAAsp recognition mechanism differing from that of the yeast system

Biochemical and Biophysical Research Communications ◽

10.1016/0006-291x(92)92282-3 ◽

1992 ◽

Vol 189 (2) ◽

pp. 856-862 ◽

Cited By ~ 23

Author(s):

Nobukazu Nameki ◽

Koji Tamura ◽

Hyouta Himeno ◽

Haruichi Asahara ◽

Tsunemi Hasegawa ◽

...

Keyword(s):

Escherichia Coli ◽

Recognition Mechanism

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The Geometrical Feature Recognition Method of Part Drawing

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.415-417.523 ◽

2011 ◽

Vol 415-417 ◽

pp. 523-526

Author(s):

Yan Dong ◽

Mei Li

Keyword(s):

Feature Recognition ◽

Graph Matching ◽

Geometric Feature ◽

Recognition Method ◽

Recognition Mechanism ◽

Chemical Database ◽

Geometry Feature ◽

Constraint Structure ◽

Geometric Elements ◽

Fine Tune

This paper put forward a geometry feature recognition method of part drawing based on graph matching. Describe the constraints structure of geometric feature in geometric elements and those constraint relationships. Match sub-graph in contour closure graphics and those combination. Using linear symbol notation of chemical compounds in chemical database for reference, encode to constraint structure of geometry graphics, establish recognition mechanism of geometric characteristics by structure codes. Taking the fine-tune screw and fork parts for example, this method has been proved to be effective.

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