about
A soluble form of the giant cadherin Fat1 is released from pancreatic cancer cells by ADAM10 mediated ectodomain sheddingThe cell-cell adhesion molecule EpCAM interacts directly with the tight junction protein claudin-7Identification of the cellular prohibitin 1/prohibitin 2 heterodimer as an interaction partner of the C-terminal cytoplasmic domain of the HIV-1 glycoproteinAcetylation of cyclin T1 regulates the equilibrium between active and inactive P-TEFb in cellsIdentification of the junctional plaque protein plakophilin 3 in cytoplasmic particles containing RNA-binding proteins and the recruitment of plakophilins 1 and 3 to stress granulesNO66, a highly conserved dual location protein in the nucleolus and in a special type of synchronously replicating chromatinA novel cell-cell junction system: the cortex adhaerens mosaic of lens fiber cellsDecoding Tat: the biology of HIV Tat posttranslational modificationsTat acetylation: a regulatory switch between early and late phases in HIV transcription elongationMethylglyoxal modification of Nav1.8 facilitates nociceptive neuron firing and causes hyperalgesia in diabetic neuropathyProteomic analysis of tardigrades: towards a better understanding of molecular mechanisms by anhydrobiotic organismsRat tissue kallikrein releases a kallidin-like peptide from rat low-molecular-weight kininogenLy6 family member C4.4A binds laminins 1 and 5, associates with galectin-3 and supports cell migrationTranscriptome survey of the anhydrobiotic tardigrade Milnesium tardigradum in comparison with Hypsibius dujardini and Richtersius coronifer.Comparison of protein expression profiles between monolayer and spheroid cell culture of HT-29 cells revealed fragmentation of CK18 in three-dimensional cell culture.Probing lysine acetylation in proteins: strategies, limitations, and pitfalls of in vitro acetyltransferase assays.Tardigrade workbench: comparing stress-related proteins, sequence-similar and functional protein clusters as well as RNA elements in tardigrades.Study of the development of chemoresistance in melanoma cell lines using proteome analysis.Isolation and identification of heterogeneous nuclear ribonucleoproteins (hnRNP) from purified plasma membranes of human tumour cell lines as albumin-binding proteins.Study of therapy resistance in cancer cells with functional proteome analysis.Phenotypic subunit composition of the tobacco (Nicotiana tabacum L.) vacuolar-type H(+)-translocating ATPase.Expression of calnexin reflects paneth cell differentiation and function.Acetylation of the HIV-1 Tat protein: an in vitro study.Transcript and proteome analysis reveals reduced expression of calgranulins in head and neck squamous cell carcinoma.PNA microarrays for hybridisation of unlabelled DNA samplesExpression of acyl-CoA synthetase 5 reflects the state of villus architecture in human small intestine.Analysis of p300 acetyltransferase substrate specificity by MALDI TOF mass spectrometry.Large-scale protein expression for proteome research.Phosphorylation on Ser106 modulates the cellular functions of the SHOX homeodomain protein.Identification of potential markers for the detection of pancreatic cancer through comparative serum protein expression profiling.Genes and proteins differentially expressed during in vitro malignant transformation of bovine pancreatic duct cells.Protein expression profiling reveals distinctive changes in serum proteins associated with chronic pancreatitis.A new method for detection of tumor driver-dependent changes of protein sialylation in a colon cancer cell line reveals nectin-3 as TGFBR2 targetSLA/LP/tRNP((Ser)Sec) antigen in autoimmune hepatitis: identification of the native protein in human hepatic cell extract.Modulation of oxidative phosphorylation machinery signifies a prime mode of anti-ageing mechanism of calorie restriction in male rat liver mitochondria.Tracking human contact allergens: from mass spectrometric identification of peptide-bound reactive small chemicals to chemical-specific naive human T-cell priming.Reference spectra from squamous epithelium and connective tissue allow whole section proteomics analysis.Identification of serum proteins involved in pancreatic cancer cachexia.Symplekin, a constitutive protein of karyo- and cytoplasmic particles involved in mRNA biogenesis in Xenopus laevis oocytes.Rapid T cell-based identification of human tumor tissue antigens by automated two-dimensional protein fractionation.
P50
Q21132301-2C950742-A44B-419E-90F4-EE610AD1E717Q24311535-BD8E5E85-F382-4E55-9D0A-5B16E12B25CBQ24316304-AF8FF7B9-98A4-4C21-95C0-4CB933F29460Q24318644-1BB7ACC5-32AC-4683-9350-CF2BCC9AD788Q24541320-89721D5C-5E4B-48C4-AD88-6A19F7F280B0Q24610126-CBEE7668-67FE-40C5-A3DD-B0884191C15CQ28185462-5BA67A34-B60D-48DF-9230-7672551F4DC4Q28263762-6C264011-51EA-4554-9A96-16E0613F3354Q28264208-BBBD8A41-19CC-45D8-8612-5A8A773C6B87Q28266524-19568F00-44C0-460D-AB62-F881864C94C6Q28473155-1C4FB667-739D-4844-9BE1-952A4BC595EDQ28566237-6F532DD1-285F-48F1-A6C5-7D10EE0B23F3Q28570491-5F1C142C-AF13-46FC-9C3F-FDA2979F637CQ30493943-F7ABB3D0-6964-43A0-93F0-01DFDF47328CQ30834712-A2863DB0-8626-4840-9C7B-84BF794F834CQ30854136-A043250F-A214-4AD8-A65D-6E4499CBBA26Q30875687-C4D8D604-F3F2-4832-8F2C-CE804553DBBDQ30967441-7B7B647A-756C-4D3D-AB07-26D307288BB6Q31039838-C8E37619-FB8D-47FF-A0A7-E6EC45E7D882Q31053524-2EB2B7A0-1992-46EA-8E79-4A97CAD75F1DQ31095027-A41BED90-5DA6-490F-BF43-32A33A45B74DQ31121352-1FF6D3F9-5A26-4188-BBEC-ED2A181246D2Q31152472-BA9A8572-7E56-4967-9111-8F3D0AD08764Q31158758-5BF75AE9-B124-4492-95ED-AAD2848736B7Q33193081-14232B2B-26DD-4055-AEC4-8D5FF4BB9EB4Q33197112-393E5CC4-D2C6-4E21-9EEC-99884C0B0D4AQ33221255-910BA038-72FF-45AB-8585-2B2D1C97E899Q33222451-472F38CD-A1BF-4D99-93A4-4F7539E68B76Q33228428-BBF8F2A7-1F72-4459-B527-65D8BAE6EBB3Q33274798-44E6E1E7-0CF8-4302-BBC3-BCE88B6A886FQ33278299-88B02730-C20B-437E-B8CF-221234E73919Q33311111-1C261141-B089-465B-A7FC-D25BE3D54B04Q33361138-82234CC3-D8D2-4818-BC60-5651EED9A68CQ33493733-28E08CDC-DF5E-402B-9A14-64C57299DE7CQ33515304-A6D3F184-5352-4B48-8AC7-D1952ED417D0Q33632910-4D0A855B-4103-4FAD-8672-7F245F35BC4CQ33748119-3AC118A0-9C70-4D44-BDEC-73676F7BE8FBQ33752632-71325A02-B377-4C6A-A644-6F01C11072CCQ33787860-EB14EB07-6D4F-422A-B6D6-53A07F7EBAB0Q33882818-920AAEFE-6635-4FDE-B99B-84C5BA979A8F
P50
description
onderzoeker
@nl
name
Martina Schnölzer
@ast
Martina Schnölzer
@en
Martina Schnölzer
@es
Martina Schnölzer
@sl
type
label
Martina Schnölzer
@ast
Martina Schnölzer
@en
Martina Schnölzer
@es
Martina Schnölzer
@sl
prefLabel
Martina Schnölzer
@ast
Martina Schnölzer
@en
Martina Schnölzer
@es
Martina Schnölzer
@sl