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X-Ray Structure of the Human Calreticulin Globular Domain Reveals a Peptide-Binding Area and Suggests a Multi-Molecular MechanismStructural virology. Near-atomic cryo-EM structure of the helical measles virus nucleocapsidDeciphering the fine details of c1 assembly and activation mechanisms: "mission impossible"?Domain Organization of Vaccinia Virus Helicase-Primase D5.Enzymatically modified low-density lipoprotein is recognized by c1q and activates the classical complement pathwayComplement protein C1q recognizes enzymatically modified low-density lipoprotein through unesterified fatty acids generated by cholesterol esterase.Analysis of XFEL serial diffraction data from individual crystalline fibrils.Impact of the surface charge of polydiacetylene micelles on their interaction with human innate immune protein C1q and the complement system.Mode of PEG Coverage on Carbon Nanotubes Affects Binding of Innate Immune Protein C1q.Human Immune Protein C1q Selectively Disaggregates Carbon Nanotubes.Structure of the C1 complex of complement.Dynamic self-assembly of DNA minor groove-binding ligand DB921 into nanotubes triggered by an alkali halide.Recognition protein C1q of innate immunity agglutinates nanodiamonds without activating complementInvestigations on the C1q–Calreticulin–Phosphatidylserine Interactions Yield New Insights into Apoptotic Cell RecognitionProteins of the Innate Immune System Crystallize on Carbon Nanotubes but Are Not ActivatedLanthanide-chelate silica nanospheres as robust multicolor Vis-NIR tagsThe Importance of Threading Dislocations on the Motion of Domain Boundaries in Thin FilmsTwin Boundaries Can Be Moved by Step Edges During Film GrowthEnhanced Self-Diffusion on Cu(111) by Trace Amounts of S: Chemical-Reaction-Limited KineticsStrain Relief through Heterophase Interface Reconstruction:Ag(111)/Ru(0001)Measuring Particle Size Distribution by Asymmetric Flow Field Flow Fractionation: A Powerful Method for the Preclinical Characterization of Lipid-Based NanoparticlesGallium - a versatile element for tuning the photoluminescence properties of InP quantum dotsIn Vivo Biotransformations of Indium Phosphide Quantum Dots Revealed by X-Ray Microspectroscopy
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Q27667309-1CFF17E3-D027-438F-B776-6CF0802BEC4CQ27700217-D7754EEB-CDEC-4053-878C-5EE5B8B0C929Q30596999-BC954F55-FDB0-474D-A450-0BDE824134E1Q40116810-F2EC8E66-5530-4D9A-9A6A-74D48C0DE900Q41854751-582D69FE-1F5A-4F22-8C8E-7D0B445BA374Q43157906-A422A810-0756-40AD-A3AB-D3D1A25FEF7FQ43422788-282CC4C2-B175-4097-BC61-641FCA2C72CAQ47327023-13415B07-0F1E-40DF-B450-F0ADD0FC16B2Q47796314-A0F313AD-2C77-4596-8B9C-826ECC00FD8EQ48061113-35285F74-6E01-43DE-A9ED-78784AC0CC1BQ48136838-12FB2802-2A14-4336-A56E-53999AE6177BQ54959609-46A19EBD-42C4-45B7-A915-0D23CC5CA019Q58118843-677579F8-E4CA-4C24-893C-3B4054CC8919Q59343981-5408E4B2-F5F8-4F74-A47C-4200FC211D9BQ59343983-DC0D68D0-5B2D-46AF-B672-25FC3D42FB9CQ59343988-A247852A-7A84-4608-B331-7CB5A10DF8B2Q59343992-1CA175A7-A89D-4CE3-9A2B-CB9013103F23Q59343993-9EE31194-5321-4A7E-82DF-A4B478661FF4Q59343995-231F23B8-6873-450B-B0DB-24F3ADC3816AQ59343996-2573E88B-4C79-4471-A2BC-D0B64F35C092Q61807190-2EC55769-1CF4-44D3-B48A-9FED8F345E9AQ91109086-BCF8BEC3-43F6-4D49-B7A1-EFBD5932AD34Q93182264-19B9533B-692C-4F93-830C-0B8FE431E55D
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description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Wai Li Ling
@ast
Wai Li Ling
@en
Wai Li Ling
@es
Wai Li Ling
@nl
Wai Li Ling
@sl
type
label
Wai Li Ling
@ast
Wai Li Ling
@en
Wai Li Ling
@es
Wai Li Ling
@nl
Wai Li Ling
@sl
prefLabel
Wai Li Ling
@ast
Wai Li Ling
@en
Wai Li Ling
@es
Wai Li Ling
@nl
Wai Li Ling
@sl
P108
P1053
F-9823-2012
P106
P108
P1153
35784536000
P31
P3829
P496
0000-0002-4264-5750