Improved Tet-responsive promoters with minimized background expression.
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The transcriptional co-repressor myeloid translocation gene 16 inhibits glycolysis and stimulates mitochondrial respirationFitting Transporter Activities to Cellular Drug Concentrations and Fluxes: Why the Bumblebee Can FlyA potassium leak channel silences hyperactive neurons and ameliorates status epilepticusComplex transcriptional modulation with orthogonal and inducible dCas9 regulators.A comprehensive system for generation and evaluation of induced pluripotent stem cells using piggyBac transposition.Systematic dissection and optimization of inducible enhancers in human cells using a massively parallel reporter assay.Graded or threshold response of the tet-controlled gene expression: all depends on the concentration of the transactivator.Phenotype specific analyses reveal distinct regulatory mechanism for chronically activated p53Inducible and reversible lentiviral and Recombination Mediated Cassette Exchange (RMCE) systems for controlling gene expression.A system for creating stable cell lines that express a gene of interest from a bidirectional and regulatable herpes simplex virus type 1 promoter.Liver-Enriched Gene 1, a Glycosylated Secretory Protein, Binds to FGFR and Mediates an Anti-stress Pathway to Protect Liver Development in Zebrafish.The role of mRNA and protein stability in the function of coupled positive and negative feedback systems in eukaryotic cells.Transient, inducible, placenta-specific gene expression in miceImprovement of the reverse tetracycline transactivator by single amino acid substitutions that reduce leaky target gene expression to undetectable levels.Expression levels of Fv1: effects on retroviral restriction specificities.The integrative role of orexin/hypocretin neurons in nociceptive perception and analgesic regulation.Fluorescent protein vectors for pancreatic islet cell identification in live-cell imaging.An optogenetic gene expression system with rapid activation and deactivation kinetics.Inhibiting eukaryotic transcription: Which compound to choose? How to evaluate its activity?Unparalleled control of neural activity using orthogonal pharmacogenetics.A next step in adeno-associated virus-mediated gene therapy for neurological diseases: regulation and targeting.Inclusion of an IgG1-Fc spacer abrogates efficacy of CD19 CAR T cells in a xenograft mouse model.Genetically engineered suicide gene in mesenchymal stem cells using a Tet-On system for anaplastic thyroid cancerTet-On Systems For Doxycycline-inducible Gene Expression.High levels of BRC4 induced by a Tet-On 3G system suppress DNA repair and impair cell proliferation in vertebrate cells.Foamy virus-adenovirus hybrid vectors for gene therapy of the arthritides.Induced transgene expression for the treatment of solid tumors by hematopoietic stem cell-based gene therapy.The retroviral vector family: something for everyone.Tightly regulated 'all-in-one' lentiviral vectors for protection of human hematopoietic cells from anticancer chemotherapy.Blue light-mediated transcriptional activation and repression of gene expression in bacteriaOptimized Sleeping Beauty transposons rapidly generate stable transgenic cell lines.Precise integration of inducible transcriptional elements (PrIITE) enables absolute control of gene expression.Single-cell analysis reveals heterogeneity in onset of transgene expression from synthetic tetracycline-dependent promoters.A novel inducible mutagenesis screen enables to isolate and clone both embryonic and adult zebrafish mutants.Applying an Inducible Expression System to Study Interference of Bacterial Virulence Factors with Intracellular Signaling.An all-in-one, Tet-On 3G inducible PiggyBac system for human pluripotent stem cells and derivatives.DNA-binding of the Tet-transactivator curtails antigen-induced lymphocyte activation in mice.An Inducible Retroviral Expression System for Tandem Affinity Purification Mass-Spectrometry-Based Proteomics Identifies Mixed Lineage Kinase Domain-like Protein (MLKL) as an Heat Shock Protein 90 (HSP90) Client.A bispecific transmembrane antibody simultaneously targeting intra- and extracellular epitopes of the epidermal growth factor receptor inhibits receptor activation and tumor cell growth.CRISPR/Cas9 delivery with one single adenoviral vector devoid of all viral genes.
P2860
Q24307708-5DB0473C-EB24-4925-9553-51106C62D939Q26780025-B9CF94AF-5F5A-4FB0-BDF6-A6F940AC17EFQ30408313-00D5527A-E313-4FBC-9C9F-865E00B6F1EBQ33704483-610EC954-5100-4A85-BB97-22955F7A2B4AQ34040322-7346F2EB-A11F-40AA-AA39-5F3EDABEBB00Q34174445-933A713B-C7B6-4FD7-B05E-B5E5F95E4A86Q34556239-497B472C-A7A7-4F18-86AC-0FFDA20B5FE1Q35196159-797DB478-E2BD-45A3-BB47-F468D2FB909AQ35576955-6C5A1F83-DE65-4B45-8669-4FE51B2F1282Q35590371-6A103E11-9322-4C47-BB8B-36D1775DB9F5Q35930935-1625E3D4-998E-462D-8182-17DBD58CC3E4Q36056236-7098C3B0-2B35-4641-A0F7-31EDD6503A12Q36323197-0A466DCC-335B-423A-9765-FBF137AB7880Q37023758-0A608F3C-A8B2-48BF-A38A-51D2F75A863DQ37037995-B4FB45FB-0783-48B8-955A-6F354EF72664Q37072638-1B8F049C-E8B8-4071-B527-E90695C93A55Q37262758-0C75A4AD-DE56-495B-96C7-2F8480A49987Q37621830-0D5B12E0-0BBC-4D98-BA72-1EEE53A4FF7CQ37933073-4685D010-43E2-4DAE-B402-A45D1E04A4ADQ38034970-DAA007FF-96B2-4674-8FDE-1A2A1136BF9BQ38075068-B7659BB5-1D56-4207-968A-D82DF469C5F2Q38445486-1FEA1471-A343-4BA0-9B10-6D7DD4A6C5CCQ38696750-A7E5F6D0-3EA2-4984-AAB6-1D784A19A6AFQ38842593-84140873-478B-47C6-9FE6-DD97EEDDBA0AQ38956850-6122C35C-C9AD-4CC1-95A7-FBC474849682Q39171777-EC272780-7100-4303-9ED5-94E989F43531Q39382972-D6C8FBE0-D2F9-4210-8E69-E471BBC8939DQ40100053-7F8B8C74-8005-4C3D-A174-1F2667092ABAQ40782180-88020B38-58FC-4ED5-9C8C-6A054748EA9EQ40957421-F6645727-900A-48C4-93FC-3581E1DAA218Q41481272-3B154238-83E9-4F6B-8BE0-A251AE9FDA6CQ41510767-69B2298F-235A-418A-9C57-8D93D2994396Q41548554-74B7ED94-D579-499D-ABEF-D1D446BCB9B0Q41606943-EFFB6121-08F7-46C4-BCC5-3729B6C23256Q41827156-9A6EE6C6-B018-4CC1-90FD-3F119E25F12EQ41862662-EB19A071-5424-47A4-AC81-1A8EA6EB847AQ42380157-54E9721E-BC90-4225-9667-81D49B62E2BCQ42552328-9008B695-9288-4D20-8EDB-23234A0D8A64Q42628618-C667C103-514D-4E21-819F-F3F38B7B3F06Q47117286-98E0291F-31AB-4E33-AE16-E62282BAB7ED
P2860
Improved Tet-responsive promoters with minimized background expression.
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Improved Tet-responsive promoters with minimized background expression.
@ast
Improved Tet-responsive promoters with minimized background expression.
@en
type
label
Improved Tet-responsive promoters with minimized background expression.
@ast
Improved Tet-responsive promoters with minimized background expression.
@en
prefLabel
Improved Tet-responsive promoters with minimized background expression.
@ast
Improved Tet-responsive promoters with minimized background expression.
@en
P2093
P2860
P356
P1433
P1476
Improved Tet-responsive promoters with minimized background expression.
@en
P2093
Hermann Bujard
Manfred Gossen
Mathias Hampf
Niels Heinz
Rainer Loew
P2860
P2888
P356
10.1186/1472-6750-10-81
P577
2010-11-24T00:00:00Z
P5875
P6179
1008256175