A SILAC-based DNA protein interaction screen that identifies candidate binding proteins to functional DNA elements
about
Experimental characterization of the human non-sequence-specific nucleic acid interactomeHOT1 is a mammalian direct telomere repeat-binding protein contributing to telomerase recruitmentQuantitative mass spectrometry catalogues Salmonella pathogenicity island-2 effectors and identifies their cognate host binding partnersComplementary quantitative proteomics reveals that transcription factor AP-4 mediates E-box-dependent complex formation for transcriptional repression of HDM2Combining genomic and proteomic approaches for epigenetics researchA domesticated transposon mediates the effects of a single-nucleotide polymorphism responsible for enhanced muscle growthRegulation of renin expression by the orphan nuclear receptors Nr2f2 and Nr2f6.A SILAC-based screen for Methyl-CpG binding proteins identifies RBP-J as a DNA methylation and sequence-specific binding proteinAllele-specific quantitative proteomics unravels molecular mechanisms modulated by cis-regulatory PPARG locus variation.A quantitative proteomics analysis of subcellular proteome localization and changes induced by DNA damage.Advanced methods for the analysis of chromatin-associated proteins.Sequence-specific capture of protein-DNA complexes for mass spectrometric protein identification.Sub1 and RPA associate with RNA polymerase II at different stages of transcription.The emerging role of pseudogene expressed non-coding RNAs in cellular functionsPerspectives on the discovery of small-molecule modulators for epigenetic processes.Genomics meets proteomics: identifying the culprits in disease.Proteome-wide analysis of disease-associated SNPs that show allele-specific transcription factor binding.Analyzing the cryptome: uncovering secret sequences.An LXR-NCOA5 gene regulatory complex directs inflammatory crosstalk-dependent repression of macrophage cholesterol efflux.p53-Dependent subcellular proteome localization following DNA damageBreaking the histone code with quantitative mass spectrometry.Ecotopic viral integration site 1 (EVI1) regulates multiple cellular processes important for cancer and is a synergistic partner for FOS protein in invasive tumors.Expression of the Troponin C at 41C Gene in Adult Drosophila Tubular Muscles Depends upon Both Positive and Negative Regulatory Inputs.M phase phosphorylation of the epigenetic regulator UHRF1 regulates its physical association with the deubiquitylase USP7 and stability.Biochemical and cellular characterization of transcription factors binding to the hyperconserved core promoter-associated M4 motif.High-Frequency Variation of Purine Biosynthesis Genes Is a Mechanism of Success in Campylobacter jejuni.Proteomic analysis demonstrates activator- and chromatin-specific recruitment to promoters.Unbiased proteomic analysis of proteins interacting with the HIV-1 5'LTR sequence: role of the transcription factor Meis.Tissue-specific control of brain-enriched miR-7 biogenesisSystematic measurement of transcription factor-DNA interactions by targeted mass spectrometry identifies candidate gene regulatory proteins.Quantitative proteomic analysis reveals concurrent RNA-protein interactions and identifies new RNA-binding proteins in Saccharomyces cerevisiaeAlleles of a polymorphic ETV6 binding site in DCDC2 confer risk of reading and language impairment.EVI1 oncoprotein interacts with a large and complex network of proteins and integrates signals through protein phosphorylationUnbiased RNA-protein interaction screen by quantitative proteomics.Exploring the nicotinic acetylcholine receptor-associated proteome with iTRAQ and transgenic mice.Quantifying proteomes and their post-translational modifications by stable isotope label-based mass spectrometryThe role of WRKY transcription factors in plant immunity.A quantitative proteomics approach identifies ETV6 and IKZF1 as new regulators of an ERG-driven transcriptional network.Of proteins and DNA--proteomic role in the field of chromatin research.DNA-centered approaches to characterize regulatory protein-DNA interaction complexes.
P2860
Q21183985-2D60840E-33C6-46F6-B469-B3A1126E97D4Q24293211-BDDEBB56-5071-45CC-95D7-18A2E9A01565Q24302123-63F920AB-F71D-42CF-87A9-85335D0ED56BQ24337403-95687C64-FC64-4CB8-991A-B8D3111C85BBQ26824645-F1B5B4AF-B048-4BF1-B9D3-59FA0E8684AAQ28590229-60D1A854-2E53-45F6-9EA6-D38CEA466115Q28730509-7FC8BB26-D024-4FF5-A83F-750AEF474495Q31032788-C9303FF0-82B1-4089-810D-6BF725AB6A3CQ33558410-3FB6860A-9E8F-4975-AA21-A3F0703953BDQ33770130-3336E008-F54B-4772-A340-DAFAB70AB437Q33840345-E3B6E666-1AE3-43E4-8295-54E8A3E3D801Q34058458-8CD43C73-8819-47DD-A80B-8AA348E18828Q34067654-0C3D1D7A-B6EF-434C-A604-4DBCEF03A604Q34160931-93670341-D212-4F6C-8345-E9D8AE1CDB3DQ34185471-2D7C31CE-770E-4F4D-81CC-F11588DA1BD6Q34378398-14F9CF1B-C9A1-42BB-9F19-0AE79C6B3AD0Q34426635-19167670-FA4D-4BE9-9768-96CBE96D8964Q34901101-BDE85409-9567-4530-974C-617983BC751DQ35590401-A15403E0-B2C4-4658-9662-F48565468843Q35590492-E9AA3205-76F0-484C-A30F-0F4C414BFFEAQ35645008-AD228249-5886-4F27-A24B-8895038AC4A9Q35750824-FC090A9B-830B-4790-A84A-BE5B951946D7Q35862241-15F744A7-E2F3-4D86-AB3D-C3075299DBEDQ35882313-667AB809-44B3-442C-8AD5-4B184F9BD7BFQ36117500-5C89BBE3-1F17-40F6-BFCD-F693E2AB9E53Q36177519-47B91A85-9282-43F4-B144-CEC98C0EC93BQ36318689-23DDB9F8-03A4-43F7-8940-1757EB62CF2DQ36422209-D96A516B-C0A3-4AE7-A2CE-3D8E35EAD37BQ36557067-885D765A-A8E8-44F5-8294-1723B70FA2A0Q36653801-6FE455FA-A753-45F7-93A5-99C70AF6D674Q36889276-77231739-C7D6-4C4A-9D6A-0186B7723F5BQ37010437-D96F0684-8A3B-4A50-A716-B35EE4C4D32CQ37068625-66D77946-1C33-4CCD-B3ED-C8DC5018E564Q37229254-50190ADF-44DA-4F1B-A4CA-8A6933DB8AAEQ37250387-2C62CE0C-EDB2-45BF-9DF3-77823617DCE0Q37297419-80F544F8-4763-4795-B9BB-0FCA27871025Q37472672-9BF52AF3-BAFE-47A3-8C9F-1D084F129327Q37507603-F7AC052B-0D64-4F43-9315-775DC2EB2867Q37660056-1B6E0D7E-F7D4-4677-B85A-225734652FD8Q37696323-02545F4E-0276-4DCB-B8C7-5D8BADF2D279
P2860
A SILAC-based DNA protein interaction screen that identifies candidate binding proteins to functional DNA elements
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
A SILAC-based DNA protein inte ...... ins to functional DNA elements
@en
A SILAC-based DNA protein inte ...... ns to functional DNA elements.
@nl
type
label
A SILAC-based DNA protein inte ...... ins to functional DNA elements
@en
A SILAC-based DNA protein inte ...... ns to functional DNA elements.
@nl
prefLabel
A SILAC-based DNA protein inte ...... ins to functional DNA elements
@en
A SILAC-based DNA protein inte ...... ns to functional DNA elements.
@nl
P2860
P356
P1433
P1476
A SILAC-based DNA protein inte ...... ins to functional DNA elements
@en
P2093
Gerhard Mittler
Matthias Mann
P2860
P304
P356
10.1101/GR.081711.108
P50
P577
2008-11-17T00:00:00Z