about
Matrix crosslinking forces tumor progression by enhancing integrin signalingDynamic Imaging of CD8(+) T cells and dendritic cells during infection with Toxoplasma gondiiMigratory dermal dendritic cells act as rapid sensors of protozoan parasitesReal-time imaging reveals the dynamics of leukocyte behaviour during experimental cerebral malaria pathogenesisAnalysis of behavior and trafficking of dendritic cells within the brain during toxoplasmic encephalitisA promiscuous lipid-binding protein diversifies the subcellular sites of toll-like receptor signal transduction.Activation of bone marrow-resident memory T cells by circulating, antigen-bearing dendritic cellsVisualizing leukocyte trafficking in the living brain with 2-photon intravital microscopy.Perivascular macrophages mediate neutrophil recruitment during bacterial skin infectionCutaneous immunosurveillance and regulation of inflammation by group 2 innate lymphoid cellsTrafficking of immune cells in the central nervous systemGeneralized Lévy walks and the role of chemokines in migration of effector CD8+ T cells.Vascular endothelial growth factor is constitutively expressed in normal human salivary glands and is secreted in the saliva of healthy individuals.Angiosarcomas express mixed endothelial phenotypes of blood and lymphatic capillaries: podoplanin as a specific marker for lymphatic endothelium.The skin immune atlas: three-dimensional analysis of cutaneous leukocyte subsets by multiphoton microscopy.Targeting Rho-GTPases in immune cell migration and inflammation.Real-time tracking of cell cycle progression during CD8+ effector and memory T-cell differentiationIRGM3 contributes to immunopathology and is required for differentiation of antigen-specific effector CD8+ T cells in experimental cerebral malariaVisualizing T cell migration in vivo.Immune cell migration as a means to control immune privilege: lessons from the CNS and tumors.Two-photon imaging of effector T-cell behavior: lessons from a tumor model.Dendritic cell behaviour in vivo: lessons learned from intravital two-photon microscopy.Behavior of parasite-specific effector CD8+ T cells in the brain and visualization of a kinesis-associated system of reticular fibers.Visualizing dendritic cell migration within the skin.Cell-autonomous and environmental contributions to the interstitial migration of T cells.Advances in imaging the innate and adaptive immune response to Toxoplasma gondii.Leukocyte migration in the interstitial space of non-lymphoid organs.T cell migration in intact lymph nodes in vivo.Monocyte homeostasis and the plasticity of inflammatory monocytes.Dermal group 2 innate lymphoid cells in atopic dermatitis and allergy.Group 2 innate lymphoid cells in the regulation of immune responses.The role of chemokines in cutaneous immunosurveillance.ILC2s and T cells cooperate to ensure maintenance of M2 macrophages for lung immunity against hookworms.Active immunotherapy combined with blockade of a coinhibitory pathway achieves regression of large tumor masses in cancer-prone miceReal-time cell cycle imaging during melanoma growth, invasion, and drug response.Regulatory T cells reversibly suppress cytotoxic T cell function independent of effector differentiation.Identification of a human cDNA encoding a novel Bcl-x isoform.Granzyme B promotes cytotoxic lymphocyte transmigration via basement membrane remodeling.A mouse model of vitiligo with focused epidermal depigmentation requires IFN-γ for autoreactive CD8⁺ T-cell accumulation in the skin.The Skin-Resident Immune Network.
P50
Q24646370-20D1196D-DDAC-4391-84DD-542F400B9A3CQ27316619-1F9729FF-9B1F-449F-A41F-C1208FD2649AQ27318300-9828C53F-54FB-4BEC-BCFB-6742A4FC7600Q27324676-3A0510A2-90A7-4F5D-9D64-18843E9A001AQ27349006-28E3D615-216C-4BE1-8B97-63068210CDB1Q28590602-7B8A95F2-F5D1-4644-AEE3-3D766E66CC29Q30478868-7A809A2E-F57C-444E-BCEC-90B97BCB81AFQ30531732-B3392C07-9CDA-4175-8305-BAA466A95E1BQ30583655-7AD2EDC5-A965-416B-99AD-C23F7812A951Q30612542-B49C6C70-A539-443C-8AAD-6454F28098D0Q33815795-6E939DBA-AABD-4EB4-AC26-BF3D51EAA91EQ34283399-1F5CC761-FB60-49C2-8D0E-BAAC402FC5DAQ34489914-8EDCDD01-B01A-4D27-A2DD-9F51156F80BCQ34502407-4217632E-F2B9-4661-9CD2-2E199908F8DDQ34714925-AA8F1116-63CF-47FD-A2C0-B97BA06F722AQ34803380-7C9A05E3-CEB9-4764-9F17-5501DE1C129CQ35138129-EC0E93CB-B736-4FCA-B16D-C3FFC5A967BBQ35187600-A477DEAA-0FE8-4446-87D2-031D88CAD019Q35621075-80B98271-9390-49D1-BFF4-3D2BA6826CC6Q36593767-9626F232-1768-477C-8FB3-BE0F943B9ABEQ37084893-D37D7D11-4503-4B54-81CA-653E077832F2Q37145830-7ABB1C30-4E84-4BE0-9B0E-34B7E5D4BFD3Q37227103-A939F6DF-340F-499C-9315-F129D98FD607Q37318829-B6B1C885-6A20-4E72-BF5F-CFC2A89A5E45Q37771878-D3A28B34-12D2-4A8F-BD41-EC6072B45539Q37791159-CB85DBBA-CB54-4172-AC18-6A5E6C45C003Q38193988-DDEDC548-3927-440A-955F-48A2AB60B66FQ38218405-8A13D55B-91CE-4CE5-9D3C-0F6C2FC4B9B9Q38223022-77AA2F2B-47BF-402D-861B-44DECD1DB2FBQ38280210-BA7F195C-8549-4C21-9FDB-5DDB9B3E20D7Q38319426-E11FC422-7F0A-47B6-87BC-6D0470C881B3Q38380177-53D54F2B-399A-4B9D-B861-AE1A5C2B83FFQ38415097-B16C62DA-4BD9-4DFD-8DAB-1012C063FC48Q38585990-BD98A176-A5D7-4CD7-B794-4601227A8E2BQ38987861-5F225ADE-0872-4243-A0FF-8A723E432DF4Q40252525-8EF0785F-5AEF-42A5-8321-D4FD6503116DQ41022937-B6F319A6-6622-4460-B68C-59C9028CAB0AQ41590208-B4A85D62-9927-4C49-B77F-A0F6607E3663Q42145851-DD34C33D-67CA-4098-80F3-1BB75FB1769CQ42433647-C385ABFB-9647-44E7-92A0-84B8C2F07265
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Wolfgang Weninger
@ast
Wolfgang Weninger
@en
Wolfgang Weninger
@es
Wolfgang Weninger
@nl
Wolfgang Weninger
@sl
type
label
Wolfgang Weninger
@ast
Wolfgang Weninger
@en
Wolfgang Weninger
@es
Wolfgang Weninger
@nl
Wolfgang Weninger
@sl
prefLabel
Wolfgang Weninger
@ast
Wolfgang Weninger
@en
Wolfgang Weninger
@es
Wolfgang Weninger
@nl
Wolfgang Weninger
@sl
P106
P21
P31
P496
0000-0003-3133-8699