| 1.
A Novel Lid-Covering Peptide Inhibitor of Nicotinic Acetylcholine ..
[21652]
|
| 2.
Crystal Structure of the Human Cannabinoid Receptor CB2
[5588]
|
| 3.
A structurally guided dissection-then-evolution strategy for ligan..
[3203]
|
| 4.
Genome-wide CRISPR screen identifies FAM49B as a key regulator of ..
[3102]
|
| 5.
High-throughput identification of G protein-coupled receptor modul..
[2716]
|
| 6.
Crystal Structure of the Human Cannabinoid Receptor CB1
[2513]
|
| 7.
Structural Basis of the Diversity of Adrenergic Receptors
[2426]
|
| 8.
Crystal structure of a constitutive active mutant of adenosine A(2..
[2248]
|
| 9.
G protein-coupled receptors: structure- and function-based drug di..
[1987]
|
| 10.
Crystal structure of a multi-domain human smoothened receptor in c..
[1623]
|
| 11.
Ligands of Adrenergic Receptors: A Structural Point of View
[1587]
|
| 12.
Molecular Mechanism for Ligand Recognition and Subtype Selectivity..
[1581]
|
| 13.
Cryo-EM structures of orphan GPR21 signaling complexes
[1561]
|
| 14.
Crystal structures of agonist-bound human cannabinoid receptor CB1
[1417]
|
| 15.
5-HT2C Receptor Structures Reveal the Structural Basis of GPCR Pol..
[1376]
|
| 16.
Indoleacetate decarboxylase is a glycyl radical enzyme catalysing ..
[1342]
|
| 17.
Structural insights into the committed step of bacterial phospholi..
[1268]
|
| 18.
The unconventional activation of the muscarinic acetylcholine rece..
[1256]
|
| 19.
Salvianolic acids from antithrombotic Traditional Chinese Medicine..
[1251]
|
| 20.
Structural basis for strychnine activation of human bitter taste r..
[1220]
|
| 21.
Salvianolic acids from antithrombotic Traditional Chinese Medicine..
[1197]
|
| 22.
The activation mechanism and antibody binding mode for orphan GPR2..
[1175]
|
| 23.
Identification of natural products as novel ligands for the human ..
[1160]
|
| 24.
Human GLP-1 receptor transmembrane domain structure in complex wit..
[1159]
|
| 25.
Disulfide-Containing Detergents (DCDs) for the Structural Biology ..
[1113]
|
| 26.
Discovery of Novel Allosteric Modulators Targeting an Extra-Helica..
[1112]
|
| 27.
Molecular Mechanism of Acetate Transport through the Acetate Chann..
[1111]
|
| 28.
Crystal structure of the Frizzled 4 receptor in a ligand-free stat..
[1110]
|
| 29.
Structural basis of CXC chemokine receptor 2 activation and signal..
[1072]
|
| 30.
Determination of an underneath binding in the transmembrane domain..
[1055]
|
| 31.
Colocalization Strategy Unveils an Underside Binding Site in the T..
[1054]
|
| 32.
Novel Variants in GDF9 Gene Affect Promoter Activity and Litter Si..
[1021]
|
| 33.
MD Simulations Revealing Special Activation Mechanism of Cannabino..
[967]
|
| 34.
Succinate-acetate permease from Citrobacter koseri is an anion cha..
[867]
|
| 35.
Filamentation of asparagine synthetase in Saccharomyces cerevisiae
[864]
|
| 36.
Activation and Signaling Mechanism Revealed by Cannabinoid Recepto..
[837]
|
| 37.
The structural study of mutation-induced inactivation of human mus..
[836]
|
| 38.
The structure-based traceless specific fluorescence labeling of th..
[830]
|
| 39.
Rational Remodeling of Atypical Scaffolds for the Design of Photos..
[828]
|
| 40.
Structural Basis for Apelin Control of the Human Apelin Receptor
[827]
|
| 41.
Elucidation of Distinct Modular Assemblies of Smoothened Receptor ..
[825]
|
| 42.
A unique hormonal recognition feature of the human glucagon-like p..
[821]
|
| 43.
A novel G protein-biased and subtype-selective agonist for a G pro..
[804]
|
| 44.
Common activation mechanism of class A GPCRs
[792]
|
| 45.
Advancing Chemokine GPCR Structure Based Drug Discovery
[779]
|
| 46.
Virus Disinfection from Environmental Water Sources Using Living E..
[779]
|
| 47.
Structural basis for activation of the growth hormone-releasing ho..
[777]
|
| 48.
Intrinsically Disordered Proteins Link Alternative Splicing and Po..
[767]
|
| 49.
A core epitope targeting antibody of SARS-CoV-2
[747]
|
| 50.
Structural basis of ligand recognition and self-activation of orph..
[740]
|
| 51.
The proline synthesis enzyme P5CS forms cytoophidia in Drosophila
[740]
|
| 52.
Transition-Linker Containing Detergents for Membrane Protein Studi..
[681]
|
| 53.
Ugi Reaction Mediated Detergent Assembly for Membrane Protein Stud..
[675]
|
| 54.
Hybrid spectral library combining DIA-MS data and a targeted virtu..
[651]
|
| 55.
Determination of the melanocortin-4 receptor structure identifies ..
[650]
|
| 56.
Cytoophidia coupling adipose architecture and metabolism
[646]
|
| 57.
Structures of the human cholecystokinin receptors bound to agonist..
[644]
|
| 58.
Examination of the Deubiquitylation Site Selectivity of USP51 by U..
[634]
|
| 59.
Structure-Activity Relationship Studies of Hydantoin-Cored Ligands..
[626]
|
| 60.
Structure-Based Design of Melanocortin 4 Receptor Ligands Based on..
[622]
|
| 61.
Molecular Basis for the Final Oxidative Rearrangement Steps in Cha..
[616]
|
| 62.
Structure-Based Ligand Discovery Targeting the Transmembrane Domai..
[614]
|
| 63.
Evaluation of chemical cross-linkers for in-depth structural analy..
[608]
|
| 64.
Exploring the Mutational Robustness of Nucleic Acids by Searching ..
[604]
|
| 65.
A widespread pathway for substitution of adenine by diaminopurine ..
[604]
|
| 66.
G蛋白偶联受体的共同激活机制
[601]
|
| 67.
Purification, characterization, and application of a high activity..
[597]
|
| 68.
Programmable adenine deamination in bacteria using a Cas9-adenine-..
[577]
|
| 69.
人源大麻素受体CB2的晶体结构
[566]
|
| 70.
Chemical-induced phase transition and global conformational reorga..
[563]
|
| 71.
Identification of a Small Probe That Can Be Conjugated to Proteins..
[549]
|
| 72.
平滑受体配体及其应用
[542]
|
| 73.
Design and Synthesis of Bitopic 2-Phenylcyclopropylmethylamine (PC..
[541]
|
| 74.
A computational evaluation of targeted oxidation strategy (TOS) fo..
[523]
|
| 75.
Conjugated secondary 12 alpha-hydroxylated bile acids promote live..
[505]
|
| 76.
Structure-Based Design of Dual-Acting Compounds Targeting Adenosin..
[497]
|
| 77.
Affinity Mass Spectrometry-Based Fragment Screening Identified a N..
[495]
|
| 78.
Catalytic-state structure and engineering of Streptococcus thermop..
[482]
|
| 79.
Inactivity of YGL082W in vitro due to impairment of conformational..
[468]
|
| 80.
Metabolic Reprogramming in Cancer Is Induced to Increase Proton Pr..
[467]
|
| 81.
Identification and Characterization of the Biosynthetic Pathway of..
[465]
|
| 82.
Building the Chordata Olfactory Receptor Database using more than ..
[462]
|
| 83.
The versatile binding landscape of the TAAR1 pocket for LSD and ot..
[459]
|
| 84.
Development of Yin-Yang ligand for cannabinoid receptors
[446]
|
| 85.
Allosterically inhibited PFKL via prostaglandin E2 withholds gluco..
[431]
|
| 86.
Association analysis between novel variants in LEPR gene and litte..
[418]
|
| 87.
Furin cleavage sites naturally occur in coronaviruses
[416]
|
| 88.
Large-Scale Analysis of Bioactive Ligand Conformational Strain Ene..
[409]
|
| 89.
The chordata olfactory receptor database
[409]
|
| 90.
A framework for Frizzled-G protein coupling and implications to th..
[402]
|
| 91.
H2B Lys34 Ubiquitination Induces Nucleosome Distortion to Stimulat..
[400]
|
| 92.
Glycyl Radical Enzymes Catalyzing the Dehydration of Two Isomers o..
[390]
|
| 93.
Orthogonally Engineered Albumin with Attenuated Macrophage Phagocy..
[373]
|
| 94.
噬菌体Z基因组生物合成通路的研究进展
[372]
|
| 95.
Effects of novel variants in BMP15 gene on litter size in Mongolia..
[355]
|
| 96.
Zero-shot prediction of mutation effects with multimodal deep repr..
[352]
|
| 97.
Structure-Based Design of Melanocortin 4 Receptor Ligands based on..
[345]
|
| 98.
A homogeneous high-throughput array for the detection and discrimi..
[343]
|
| 99.
Alternative Z-genome biosynthesis pathway shows evolutionary progr..
[342]
|
| 100.
Multi-state Modeling of GPCRs at Experimental Accuracy via PromptG..
[325]
|
