Correlation of specific keratins with different types of epithelial differentiation: monoclonal antibody studies.
about
A human keratin 14 "knockout": the absence of K14 leads to severe epidermolysis bullosa simplex and a function for an intermediate filament proteinAssociation of basonuclin with ability of keratinocytes to multiply and with absence of terminal differentiationA group of type I keratin genes on human chromosome 17: characterization and expressionMouse differentiation-specific keratins 1 and 10 require a preexisting keratin scaffold to form a filament networkAmino acid sequence and gene organization of cytokeratin no. 19, an exceptional tail-less intermediate filament proteinIdentification of protein IT of the intestinal cytoskeleton as a novel type I cytokeratin with unusual properties and expression patternsThe expression of mutant epidermal keratin cDNAs transfected in simple epithelial and squamous cell carcinoma linesStructural and cell surface antigen expression in the rete ovarii and epoophoron differs from that in the Fallopian tube and in endometriosisOrganization of uroplakin subunits: transmembrane topology, pair formation and plaque compositionUrothelial function reconsidered: a role in urinary protein secretionIntermediate filaments: a historical perspectiveCorneal stem cells: bridging the knowledge gap.Ablation of uroplakin III gene results in small urothelial plaques, urothelial leakage, and vesicoureteral refluxMonoclonal cytokeratin antibodies that distinguish simple from stratified squamous epithelia: characterization on human tissuesThe amino acid sequence of chicken muscle desmin provides a common structural model for intermediate filament proteins.Monoclonal antibodies to desmin, the muscle-specific intermediate filament protein.Tissue polypeptide antigen (TPA) is related to the non-epidermal keratins 8, 18 and 19 typical of simple and non-squamous epithelia: re-evaluation of a human tumor marker.Outcome of experimental porcine circovirus type 1 infections in mid-gestational porcine foetuses.New insights into the development and differentiation of the human anorectal epithelia. Are there clinical consequences?Hydrophobic Proteome Analysis of Triple Negative and Hormone-Receptor-Positive-Her2-Negative Breast Cancer by Mass Spectrometer.Cultured corneal epithelia for ocular surface disease.Clinical, electron microscopic, and monoclonal antibody studies of intraocular epithelial downgrowthBiomarkers of Alzheimer's disease risk in peripheral tissues; focus on buccal cells.Immunolocalization of keratin polypeptides in human epidermis using monoclonal antibodiesInterferons mediate terminal differentiation of human cortical thymic epithelial cells.Monoclonal antibody analysis of keratin expression in the central nervous systemThe human keratins: biology and pathology.A human peripheral blood monocyte-derived subset acts as pluripotent stem cellsNonepidermal members of the keratin multigene family: cDNA sequences and in situ localization of the mRNAsEffect of substratum and retinoids upon the mucosecretory differentiation of airway epithelial cells in vitro.Annotation of human cancers with EGFR signaling-associated protein complexes using proximity ligation assaysTNIP1, a retinoic acid receptor corepressor and A20-binding inhibitor of NF-κB, distributes to both nuclear and cytoplasmic locationsDistribution of cytokeratin polypeptides in human transitional cell carcinomas, with special emphasis on changing expression patterns during tumor progression.An adherent subline of a unique small-cell lung cancer cell line downregulates antigens of the neural cell adhesion molecule.Cytokeratins in normal and malignant transitional epithelium. Maintenance of expression of urothelial differentiation features in transitional cell carcinomas and bladder carcinoma cell culture linesLocalization of keratin mRNA in human tracheobronchial epithelium and bronchogenic carcinomas by in situ hybridizationCytokeratin 20 in human carcinomas. A new histodiagnostic marker detected by monoclonal antibodiesDifferential loss of E-cadherin expression in infiltrating ductal and lobular breast carcinomasMonoclonal antibodies to human intermediate filament proteins. II. Distribution of filament proteins in normal human tissues.Differential staining of cytoid bodies and skin-limited amyloids with monoclonal anti-keratin antibodies
P2860
Q24306295-98FDF4CB-A084-4919-BBFE-653874613BEFQ24314712-9C0CC79F-6EDE-4917-900A-7B7CD9DF8CE0Q24336584-652C862B-CA63-41A2-BC87-7E2F807D8A25Q24337663-A193CE36-5352-4A6B-8075-6F82F4827C92Q24531660-DE98C3B7-C0CA-4565-99A7-8537317477AEQ24678952-0772AAA1-B9A2-4EDB-AFE0-060E4544F71BQ24680145-992B314E-06D0-4C07-A242-3E78FF22E561Q28142900-AE7712E1-3CC1-44A4-9F12-51E10163E3C5Q28360592-AD44E8E3-680C-4E87-BFA9-109F825F9DD4Q30641854-8D98D6D0-3EDE-4DC2-B6C6-00A7991D4DD1Q33284286-C9352256-0FED-4984-951C-66812307D15CQ33342166-21DBD015-1218-450B-AB39-8973686D2B8EQ33925813-9C09A315-3CCD-4B8A-A338-91BC89C8BDD0Q33928328-36874266-8757-4DEB-A1D1-CDB6683030D2Q33928334-DEFFB58C-49C9-48F1-B151-0A0FA8DEEEB8Q33934133-A358CDC2-2708-4A30-9DAC-1C11AFBC49BEQ33940121-880C0F5C-6D2C-43E6-A7EA-BEA2DCD5B6A6Q34054186-5CAB3371-9D69-4982-BF43-C8F94ADFB78AQ34084903-BD44A256-B686-4DEE-835B-31105108E27EQ34117974-9E30355D-A966-4A19-B2DF-CBBCB6C5F288Q34163220-9538E62C-2AD0-4C5A-8863-ADDD062A49D3Q34164967-AA9C0DA6-BBDA-4E43-9DD1-DC4C7A5A0138Q34201730-779C2760-754C-41A6-871A-7AD26A15154BQ34249630-3101757C-C304-4B88-A64B-732A94669D24Q34341479-DE840460-CA86-4A87-B017-87F258631844Q34625458-BAB9E9AD-9260-4B4F-9CD9-ACA212884D4CQ34776574-C95DEC41-A33B-4E60-A227-2C8AB6250D05Q34805982-6DA4B654-F712-4F01-BE18-8F0591DFB92EQ35030858-5BE0AA3E-F310-4DC3-AA0C-570F347A082EQ35032927-FB112E72-D796-4BB0-858F-EDC124CD7F43Q35631966-4288EA8F-71FE-4D0D-83D2-6A6F564322FBQ35767929-FCF689AF-6953-40EF-AAD0-E97D8FCCCC27Q35811170-A9276217-522E-48BF-8C11-9686477AAE85Q35817079-B50EDDE1-D70B-491C-93B0-8FF202B819CFQ35818550-7E2530C4-724B-46B7-857C-6C90B90DFFFAQ35818845-E7C1C5FC-32DD-42F5-8E22-70C7EE0D71B4Q35831412-F20041AB-8C94-48C2-9292-FA47D8688EB0Q35833680-25E86683-31D8-45E5-854F-F2C5F861A41EQ35857859-A774415B-F6B9-4854-A269-BBB8030521A3Q35858215-E828ACBB-2241-4F99-8438-9324D8FE4BEF
P2860
Correlation of specific keratins with different types of epithelial differentiation: monoclonal antibody studies.
description
1982 nî lūn-bûn
@nan
1982 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1982 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1982年の論文
@ja
1982年論文
@yue
1982年論文
@zh-hant
1982年論文
@zh-hk
1982年論文
@zh-mo
1982年論文
@zh-tw
1982年论文
@wuu
name
Correlation of specific kerati ...... : monoclonal antibody studies.
@ast
Correlation of specific kerati ...... : monoclonal antibody studies.
@en
Correlation of specific kerati ...... : monoclonal antibody studies.
@nl
type
label
Correlation of specific kerati ...... : monoclonal antibody studies.
@ast
Correlation of specific kerati ...... : monoclonal antibody studies.
@en
Correlation of specific kerati ...... : monoclonal antibody studies.
@nl
prefLabel
Correlation of specific kerati ...... : monoclonal antibody studies.
@ast
Correlation of specific kerati ...... : monoclonal antibody studies.
@en
Correlation of specific kerati ...... : monoclonal antibody studies.
@nl
P2093
P1433
P1476
Correlation of specific kerati ...... n: monoclonal antibody studies
@en
P2093
J Woodcock-Mitchell
M J Jarvinen
W G Nelson
P304
P356
10.1016/0092-8674(82)90234-3
P407
P577
1982-09-01T00:00:00Z