about
Neural stem cell specific fluorescent chemical probe binding to FABP7Optimization of heavy chain and light chain signal peptides for high level expression of therapeutic antibodies in CHO cellsBruton's tyrosine kinase phosphorylates DDX41 and activates its binding of dsDNA and STING to initiate type 1 interferon response.Tropomodulin3 is a novel Akt2 effector regulating insulin-stimulated GLUT4 exocytosis through cortical actin remodeling.Proteomic analysis of colorectal cancer reveals alterations in metabolic pathways: mechanism of tumorigenesis.ORF018R, a highly abundant virion protein from Singapore grouper iridovirus, is involved in serine/threonine phosphorylation and virion assembly.The rice nucellin gene ortholog OsAsp1 encodes an active aspartic protease without a plant-specific insert and is strongly expressed in early embryo.Control of muscle differentiation by a mitochondria-targeted fluorophore.A fluorescent rosamine compound selectively stains pluripotent stem cells.High-performance graphene-titania platform for detection of phosphopeptides in cancer cells.An internal ribosome entry site (IRES) mutant library for tuning expression level of multiple genes in mammalian cells.The binding of fluorophores to proteins depends on the cellular environment.Use of a novel cytotoxic HEXIM1 peptide in the directed breast cancer therapy.Highly sensitive and quantitative human thrombospondin-1 detection by an M55 aptasensor and clinical validation in patients with atherosclerotic disease.RING1B O-GlcNAcylation regulates gene targeting of polycomb repressive complex 1 in human embryonic stem cells.Cleavage efficient 2A peptides for high level monoclonal antibody expression in CHO cells.Rapid quantification of Escherichia coli in food and media using bacteriophage T7 amplification and liquid chromatography-multiple reaction monitoring tandem mass spectrometry.Nonspecific interactions of chromatin with immunoglobulin G and protein A, and their impact on purification performance.BSCL2/seipin regulates adipogenesis through actin cytoskeleton remodelling.Functional profiling, identification, and inhibition of plasmepsins in intraerythrocytic malaria parasites.Multiple reaction monitoring mass spectrometry for the discovery and quantification of O-GlcNAc-modified proteins.HoxC5 and miR-615-3p target newly evolved genomic regions to repress hTERT and inhibit tumorigenesis.Impact of Signal Peptides on Furin-2A Mediated Monoclonal Antibody Secretion in CHO Cells.Cytoplasmic expression of a thermostable invertase from Thermotoga maritima in Lactococcus lactis.Cadmium nanoparticles citrullinate cytokeratins within lung epithelial cells: cadmium as a potential cause of citrullination in chronic obstructive pulmonary disease.A fluorescent probe for imaging symmetric and asymmetric cell division in neurosphere formation.Conservation of oncofetal antigens on human embryonic stem cells enables discovery of monoclonal antibodies against cancerProduction and Proteomic Characterization of Pharmaceutical-Grade Dermatophagoides pteronyssinus and Dermatophagoides farinae Extracts for Allergy VaccinesTumor Suppressor p14ARF Enhances IFN-γ–Activated Immune Response by Inhibiting PIAS1 via SUMOylationBrewing with malted barley or raw barley: what makes the difference in the processes?Multi-omics profiling of CHO parental hosts reveals cell line-specific variations in bioprocessing traitsMaternal factor NELFA drives a 2C-like state in mouse embryonic stem cellsProteomic profiling of barley spent grains guides enzymatic solubilization of the remaining proteins
P50
Q24595273-FC00B8C7-63F6-4004-A47C-3417735E2B2BQ28543595-9EB48A50-BE77-41B6-99A8-C2F24904B5B5Q30009223-41A42BFB-0196-45CC-BA98-27164B5AC97AQ30625919-9B9CF558-D37C-473B-BCDE-C947B69AA15EQ33237312-320610EE-42DA-498A-87F4-A32E4142547CQ33329044-CD01DE63-3919-4722-8779-AE1A84BB2AD8Q33340804-3E4A78DB-C28C-46DD-9905-8E13FA333175Q33519626-26AFCAC4-C785-4F2A-9B40-5A69305C45FEQ34135855-E6F0A9D1-1F5D-44B5-8BC6-96E9701D4B38Q34354285-EF7B6474-8CE5-458F-A170-39334408A47AQ35069983-73D26785-C287-4239-9181-F3864A9431F8Q36592169-58B48E12-AD7D-4E34-8909-CC46B0C49FB7Q36905702-91AF1495-FAEF-43D0-895B-D60F98C88BB3Q38309695-7AA69946-274E-40BB-B450-70D0B035E6E2Q40810699-C57735B4-9C38-4009-A9BB-9059A436B1B3Q42174102-E0A6154C-A141-4297-AEA4-C4D56C833269Q42178134-006DD38A-618F-47A1-BA5E-CFE7E74F1F0AQ42229466-396D9E0C-DD88-4145-B08E-F9F8FED73E09Q42813702-1D86ED68-EE81-497B-8954-621E5E361B46Q43270380-1756F961-A42E-43C1-8766-CBA6325E953AQ46186432-6575067F-B1D2-4F32-91F5-9D3CAAD05C7AQ47379639-1050039E-C687-43F2-AD99-7B319DDEC77CQ48094732-667DFDA7-4AB7-4B20-9519-AB3C650B23DAQ48280905-9870917B-8CAC-4943-9B16-E107635EF5A7Q49560359-6A562407-82EF-4F4A-A2DE-B822B2208150Q53045937-1311B18E-FDDB-4904-9253-05A7BADE1177Q58803669-4F3EB83B-DE04-43C2-AECE-DC8812374398Q61599250-283FE2E8-9707-44FC-B78D-A308148275FFQ61844765-235AFBB7-59B7-4F8E-B2F1-6808C3696682Q90263811-C0E7A285-4E5F-4501-A7E0-16302E502090Q91841672-114B3776-F849-4E8A-B5E4-B129CBADA1B2Q92610815-8859B178-5574-4307-9CFE-EC8C214CE8E9Q95495646-3DD6280C-8DD5-4E23-BEAD-697E49881B29
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Xuezhi Bi
@ast
Xuezhi Bi
@en
Xuezhi Bi
@es
Xuezhi Bi
@nl
Xuezhi Bi
@sl
type
label
Xuezhi Bi
@ast
Xuezhi Bi
@en
Xuezhi Bi
@es
Xuezhi Bi
@nl
Xuezhi Bi
@sl
prefLabel
Xuezhi Bi
@ast
Xuezhi Bi
@en
Xuezhi Bi
@es
Xuezhi Bi
@nl
Xuezhi Bi
@sl
P1053
A-8532-2015
P106
P31
P3829
P496
0000-0001-6702-0805