about
Murine but not human basophil undergoes cell-specific proteolysis of a major endoplasmic reticulum chaperoneA new isoform of interleukin-3 receptor {alpha} with novel differentiation activity and high affinity binding modePotential non-T cells source of interleukin-4 in food allergyBasophil-mediated protection against gastrointestinal helminths requires IgE-induced cytokine secretion.Effect of premedications in a murine model of asparaginase hypersensitivityHost basophils are dispensable for induction of donor T helper 2 cell differentiation and severity of experimental graft-versus-host disease.Interferon-γ-producing immature myeloid cells confer protection against severe invasive group A Streptococcus infectionsHelminth infection is associated with decreased basophil responsiveness in human beings.STAT1 negatively regulates lung basophil IL-4 expression induced by respiratory syncytial virus infectionBasophils: what they 'can do' versus what they 'actually do'.IL-3 induces basophil expansion in vivo by directing granulocyte-monocyte progenitors to differentiate into basophil lineage-restricted progenitors in the bone marrow and by increasing the number of basophil/mast cell progenitors in the spleenInnate cells and T helper 2 cell immunity in airway inflammation.Emerging functions of basophils in protective and allergic immune responses.New paradigms in basophil development, regulation and function.Role of basophils in the initiation of Th2 responsesBasophils as critical orchestrators of Th2-type immune responses.The role of basophils in the pathogenesis of allergic disease.Recent advances in understanding basophil functions in vivo.Deficiency of the adaptor protein SLy1 results in a natural killer cell ribosomopathy affecting tumor clearanceIgE and IL-33-mediated triggering of human basophils inhibits TLR4-induced monocyte activation.In vitro differentiation of near-unlimited numbers of functional mouse basophils using conditional Hoxb8.Important and specific role for basophils in acute allergic reactions.Immunomodulation by gastrointestinal carbon black nanoparticle exposure in ovalbumin T cell receptor transgenic mice.
P2860
Q28480479-61290CAA-DE6A-4947-A92E-9A790FC2A064Q28511122-7591204D-1940-48FA-B951-A5BDDC155E1CQ34070125-86522811-7C12-4614-A244-4C60EC68BFB7Q34661411-199B35C0-4AA3-41E0-A00B-9F141FA62E93Q35156439-05B549BB-0EE4-45DB-8B27-E986E818DAA2Q35563471-B8558B55-7728-4971-8BB4-3F803E0CBC79Q35801558-F030BBD7-25A7-457A-945D-298B664832F3Q36069576-BF4B71FE-57A3-4DA6-9A7E-545FE1D07F7AQ37127325-B0696403-1758-4290-8C6E-B4EC8D0F0996Q37325472-0FDDB153-8F63-4D86-9C0C-3275788AB2E1Q37372759-5176B5E8-B3D7-4545-9710-85FEAA22FC62Q37600200-E649CE8D-8E9A-4B95-806D-FD8B7B3FC44DQ37673990-C0C71114-04B4-4F81-8212-133C4AF4E3D9Q37686073-22528784-46D8-4739-B56E-9E68B83F2FA8Q37690006-DF5A4385-005C-4BC2-985F-22A96C6FFFE7Q37755330-948B4BF2-98E7-4FBD-989E-4E598ABDD594Q37875210-289812AC-2488-4319-845F-9F942F0A8F6CQ40068521-3B4306B6-EF91-483B-95AB-933C1384262FQ40364044-C1FFFB9A-F16D-4018-84CB-D2ED1FC68186Q44056900-E02F3300-2279-49EA-9776-200365346F55Q46014710-43693868-97E5-45F9-976A-EFCEB9B8B570Q50065229-596C5A3E-DBAF-4456-9383-F34455F925FEQ51469648-CECD90FB-C01C-429C-B7B8-DE76BE73201A
P2860
description
2006 nî lūn-bûn
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2006年の論文
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2006年論文
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2006年論文
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2006年論文
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2006年論文
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name
When is a mouse basophil not a basophil?
@ast
When is a mouse basophil not a basophil?
@en
type
label
When is a mouse basophil not a basophil?
@ast
When is a mouse basophil not a basophil?
@en
prefLabel
When is a mouse basophil not a basophil?
@ast
When is a mouse basophil not a basophil?
@en
P2860
P1433
P1476
When is a mouse basophil not a basophil?
@en
P2093
James J Lee
Michael P McGarry
P2860
P304
P356
10.1182/BLOOD-2006-06-027490
P407
P577
2006-09-26T00:00:00Z