Transgenic mice provide new insights into the role of TGF-alpha during epidermal development and differentiation.
about
Suprabasal desmoglein 3 expression in the epidermis of transgenic mice results in hyperproliferation and abnormal differentiation.Targeted expression of RALT in mouse skin inhibits epidermal growth factor receptor signalling and generates a Waved-like phenotype.Transgenic expression of the human amphiregulin gene induces a psoriasis-like phenotypeAP-2alpha: a regulator of EGF receptor signaling and proliferation in skin epidermisArsenic enhancement of skin neoplasia by chronic stimulation of growth factorsUnderstanding the Impact of ErbB Activating Events and Signal Transduction on Antigen Processing and Presentation: MHC Expression as a Model.Identification of heparin-binding EGF-like growth factor as a target in intercellular regulation of epidermal basal cell growth by suprabasal retinoic acid receptors.Ultrastructure of epidermis of mice with chronic proliferative dermatitisMig6 is a negative regulator of EGF receptor-mediated skin morphogenesis and tumor formationAngiopoietin-related growth factor (AGF) promotes epidermal proliferation, remodeling, and regenerationEarly onset of neoplasia in the prostate and skin of mice with tissue-specific deletion of PtenTransgenic mice expressing a mutant keratin 10 gene reveal the likely genetic basis for epidermolytic hyperkeratosis.Intermediate filaments: a historical perspectiveConditional activin receptor type 1B (Acvr1b) knockout mice reveal hair loss abnormality.Extensive phenotypic characterization of a new transgenic mouse reveals pleiotropic perturbations in physiology due to mesenchymal hGH minigene expression.Current therapies for wound healing: electrical stimulation, biological therapeutics, and the potential for gene therapy.Human papillomavirus 16 E5 oncogene contributes to two stages of skin carcinogenesisEctopic Cdx2 expression in murine esophagus models an intermediate stage in the emergence of Barrett's esophagus.The production and applications of genetically modified skin cells.From wavy hair to naked proteins: the role of transforming growth factor alpha in health and disease.Epidermal hyperproliferation in mice lacking fatty acid transport protein 4 (FATP4) involves ectopic EGF receptor and STAT3 signalingTargeting expression of keratinocyte growth factor to keratinocytes elicits striking changes in epithelial differentiation in transgenic mice.Dual inhibition of both the epidermal growth factor receptor and erbB2 effectively inhibits the promotion of skin tumors during two-stage carcinogenesis.Targeted disruption of LIG-1 gene results in psoriasiform epidermal hyperplasia.Cutaneous gene transfer and therapy: the present and the future.Overexpression of transcription factor sp2 inhibits epidermal differentiation and increases susceptibility to wound- and carcinogen-induced tumorigenesis.Saliva and growth factors: the fountain of youth resides in us all.Mutant laboratory mice with abnormalities in hair follicle morphogenesis, cycling, and/or structure: annotated tables.MDM2 induces hyperplasia and premalignant lesions when expressed in the basal layer of the epidermis.Sleep loss and cytokines levels in an experimental model of psoriasis.Amphiregulin carboxy-terminal domain is required for autocrine keratinocyte growth.Antigen presentation by keratinocytes directs autoimmune skin disease.Fate and plasticity of the epidermis in response to congenital activation of BRAF.Dendritic cells under investigation in autoimmune disease.Tunneling-nanotube development in astrocytes depends on p53 activation.Morpho-regulation of ectodermal organs: integument pathology and phenotypic variations in K14-Noggin engineered mice through modulation of bone morphogenic protein pathway.Emerging interactions between skin stem cells and their niches.Involvement of TNF-α converting enzyme in the development of psoriasis-like lesions in a mouse model.Genetically null mice reveal a central role for epidermal growth factor receptor in the differentiation of the hair follicle and normal hair development.Tumorigenic conversion of immortal human keratinocytes through stromal cell activation.
P2860
Q24537740-3C876A99-41BA-4F16-A9DF-AC11DE6D61EEQ24539106-72AB7CAD-26E2-4360-8FC7-6CD4BBB95FC3Q24561448-4E23267E-2BAC-48CF-95C7-1568912036C9Q24684078-E97292D0-F760-490B-B188-3179428AD76AQ26341280-FCC644E8-37D0-44EF-8B52-EFC61CA61FFBQ27691330-90F3F79F-9210-4833-8B42-ADE4825A759FQ28343200-D27A2F85-2A6B-4001-B94D-52436AD60DFAQ28586536-BB4843DC-A897-427E-8555-7EB4BA6F67FDQ28590384-B8C867CA-36AD-4718-AFB3-AF044444730DQ28591474-7A84E0B3-7D1B-405D-9C8F-1332FF205A6DQ30524175-A39EEBDD-8E9F-411D-9BA7-9280E16E6318Q30990411-048864C5-877C-467E-94BC-0114FA5F88FCQ33284286-DF9052C7-9120-4CD5-BD3A-0F3B02D3BF3AQ33726516-791C4F7B-4179-42E1-B622-4410C98E565EQ33729165-8F161DC8-E55E-4B36-84A6-023A102558C3Q33785792-073B1969-343A-4B76-9F95-E20FDAFBDA07Q33805191-53B92879-0A72-412A-BC8D-672DBB32AFCDQ33873724-78A72DAC-B528-4A18-BFA1-68A11EAC2CE8Q33923414-F51CBB24-9B6F-4DCC-8DC5-6233568AF573Q33926726-061661EB-4DBF-457E-A030-BB7CC82A3EFCQ34036893-5A38FF38-5783-4767-88CB-FC6E2806DC24Q34045571-8D41D0DA-32C5-487F-A2DF-78024C14855EQ34130669-7D2624D9-36A0-4DF0-AB82-10D3C6707CCBQ34133670-E97C0934-0274-41C9-A104-6BAC9CC4C251Q34195600-A4A58C4F-5127-4687-900E-A0111F7B9F5CQ34268132-A77CAAFA-A065-483E-8713-AC4BA753BD4CQ34375131-A2212299-ADFC-46DB-8A15-2EB12F2EC19BQ34459252-5A6CBF95-A9F7-457F-ACE8-05F138349ABCQ34489720-C7CD7D33-9CCA-4C2B-814B-FB042DAF5A53Q34506348-89DAC3CA-C1CC-41CF-BB66-215F517B7C30Q34773509-D15A8E02-3B69-4FE0-B38C-A69EA0CFBB53Q34869794-85DD8691-146B-45C2-9DE3-0A263D7319C3Q34899259-B5E74D67-6DB6-415A-86ED-2ACC06420989Q35086727-C7C8F31A-AF10-499D-BFF5-66D54039F2E2Q35092637-F610A07E-D6D6-4871-831A-BE458A46CB2DQ35096113-8EAA1761-E0AD-4501-8F23-FEB2C0E2D248Q35174984-13DFC6B0-B29D-4F39-A93A-B1EA71FD007CQ35407596-32EDC4E5-2229-47F7-BDD0-B1F8932A4DB9Q35764781-36BDC4F4-63C0-48A0-B00D-B0B5174F5292Q35787577-1D3EF4B2-4DDD-45AE-8DAC-4BA0F9FCE6F2
P2860
Transgenic mice provide new insights into the role of TGF-alpha during epidermal development and differentiation.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年学术文章
@wuu
1991年学术文章
@zh-cn
1991年学术文章
@zh-hans
1991年学术文章
@zh-my
1991年学术文章
@zh-sg
1991年學術文章
@yue
1991年學術文章
@zh
1991年學術文章
@zh-hant
name
Transgenic mice provide new in ...... velopment and differentiation.
@en
Transgenic mice provide new in ...... velopment and differentiation.
@nl
type
label
Transgenic mice provide new in ...... velopment and differentiation.
@en
Transgenic mice provide new in ...... velopment and differentiation.
@nl
prefLabel
Transgenic mice provide new in ...... velopment and differentiation.
@en
Transgenic mice provide new in ...... velopment and differentiation.
@nl
P356
P1433
P1476
Transgenic mice provide new in ...... velopment and differentiation.
@en
P2093
P304
P356
10.1101/GAD.5.5.714
P577
1991-05-01T00:00:00Z