about
The formation of the Bicoid morphogen gradient requires protein movement from anteriorly localized mRNAStochastic mRNA synthesis in mammalian cellsCell cycle-dependent recruitment of telomerase RNA and Cajal bodies to human telomeresMaking the message clear: visualizing mRNA localizationNature, nurture, or chance: stochastic gene expression and its consequencesUsing gene expression noise to understand gene regulationSingle-RNA counting reveals alternative modes of gene expression in yeastAssembling an intermediate filament network by dynamic cotranslation.Gametophytic selection in Arabidopsis thaliana supports the selective model of intron length reduction.From Cells to Virus Particles: Quantitative Methods to Monitor RNA PackagingPotentials of single-cell biology in identification and validation of disease biomarkersImaging Transcription: Past, Present, and FutureGenomic analysis at the single-cell levelUsing variability in gene expression as a tool for studying gene regulationTranscription goes digitalSingle molecule fluorescence approaches shed light on intracellular RNAsSingle-molecule fluorescence in situ hybridization: quantitative imaging of single RNA moleculesSmall RNA Detection by in Situ Hybridization MethodsA continuum model of transcriptional bursting.Single mammalian cells compensate for differences in cellular volume and DNA copy number through independent global transcriptional mechanisms.Imaging gene expression in single living cells.Nuclear accessibility of β-actin mRNA is measured by 3D single-molecule real-time tracking.Dynamics of single mRNPs in nuclei of living cells.Second harmonic super-resolution microscopy for quantification of mRNA at single copy sensitivity.cis -Proline-mediated Ser(P) 5 Dephosphorylation by the RNA Polymerase II C-terminal Domain Phosphatase Ssu72Single cell transcriptomics: methods and applicationsSingle-molecule mRNA decay measurements reveal promoter- regulated mRNA stability in yeastWidespread cytoplasmic mRNA transport in yeast: identification of 22 bud-localized transcripts using DNA microarray analysis.Systems Biology Approaches for Host-Fungal Interactions: An Expanding Multi-Omics FrontierEditing the Neuronal Genome: a CRISPR View of Chromatin Regulation in Neuronal Development, Function, and PlasticityStrength in numbers: quantitative single-molecule RNA detection assaysSingle-molecule enzymologyA versatile toolbox for posttranscriptional chemical labeling and imaging of RNAA model for aryl hydrocarbon receptor-activated gene expression shows potency and efficacy changes and predicts squelching due to competition for transcription co-activatorsThe pharmacodynamics of the p53-Mdm2 targeting drug Nutlin: the role of gene-switching noiseDeciphering Transcriptional Dynamics In Vivo by Counting Nascent RNA MoleculesEvidence against the energetic cost hypothesis for the short introns in highly expressed genesTranslation of 5' leaders is pervasive in genes resistant to eIF2 repressionHigh-throughput single-cell gene-expression profiling with multiplexed error-robust fluorescence in situ hybridizationQuantifying E. coli Proteome and Transcriptome with Single-Molecule Sensitivity in Single Cells
P2860
Q21145781-4137B6D3-4084-49B4-B517-BDE5897ABD5EQ21146037-5B681AD6-15DE-4575-9639-90F166F1CB91Q24540232-11D38DD4-93A1-4449-879D-9D39687328A2Q24610510-A6C1BFE4-7062-4915-896C-24AE6C0E2120Q24610764-2E0F57FE-892D-4FFB-B623-26F4A28D7F26Q24617979-D422F181-0F3F-40C7-B5F9-0FAC91C2A770Q24619115-902F6EEB-16E5-479F-BE31-D2DBB1806FC1Q24683808-AFFCEC5A-1189-45B1-8514-8E78A561EC85Q24813367-879BCD63-C055-43BA-BDE8-873CD7410940Q26739027-DB95C665-07BE-4485-BF93-6DD7314EE0E1Q26750469-2C2DD1ED-1F28-40E9-868D-D56EE120B1ADQ26772088-70D21C2F-14EE-4E04-AF8C-86BE88E8189FQ26830306-8F109D63-C67F-470A-9D4C-4BEE7AB8CF8DQ26864131-FB4CC0DA-4418-4146-909E-23FAACC57B63Q26864339-2D7B646E-19AA-4F4A-B526-AE2735CBD07EQ26999350-75E9C20B-4F99-4ED7-A7EC-306820252838Q27008906-6AD7B25C-737D-4F1A-ADD1-D65828A86A8DQ27011992-A900DF33-6BA9-4C51-896E-36D3D3DD8584Q27300235-A7383137-9E85-42D0-BBBE-08379FB9DA76Q27308751-04A34E27-689B-48A8-92BD-EC4AF0B7F0DCQ27310271-DC93988D-C6E0-4E16-A972-4CB1E0E43D2CQ27310650-74FEEDC4-1835-4E23-88A6-BA10785B4909Q27332235-1EE3758D-62BA-4E14-833B-1365CAFE0536Q27335005-ED5A73BA-A711-4EF4-BBC1-B17636B436FEQ27666319-7CDEE525-3C4D-415C-A0C0-B1B208E81C21Q27690585-C8094068-01E1-4B25-96A3-F0C1B68C7E18Q27931030-DD47AF63-A333-4C5E-A96A-8397AAC912C4Q27933261-18CA31E8-7DDD-4ACF-9C07-4AABA5C82E98Q28068488-27D1DDEB-5D73-41C5-B458-56BE38148AB0Q28075883-09E85B73-AD88-4F74-8BE7-8C7E53FB3D67Q28081247-BB2466B6-C216-4065-8D51-39615B936A40Q28144763-6CA8A488-5DA0-4DD7-A964-C7393BE8CCFAQ28315180-FCC95062-D4A0-46C5-88FD-77EA8EA1BD15Q28395513-08B17453-0501-46D4-9B18-1D4E6333CC89Q28542661-ECB539DD-B13E-456D-ACD9-9B4D37CE8631Q28607719-E8A43247-259C-44C6-8090-E8F52CD79985Q28757923-535BBF2F-B602-45A9-8863-53AB972837DEQ28771734-34287116-236E-4F21-8048-D06444C4BA04Q28822617-F1072C57-69D6-417E-A3D4-87E8B6DD9868Q29039105-AA74CABF-98C5-470D-A92A-3F37043E2A29
P2860
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Visualization of single RNA transcripts in situ.
@en
Visualization of single RNA transcripts in situ.
@nl
type
label
Visualization of single RNA transcripts in situ.
@en
Visualization of single RNA transcripts in situ.
@nl
prefLabel
Visualization of single RNA transcripts in situ.
@en
Visualization of single RNA transcripts in situ.
@nl
P2093
P1433
P1476
Visualization of single RNA transcripts in situ.
@en
P2093
P304
P356
10.1126/SCIENCE.280.5363.585
P407
P577
1998-04-01T00:00:00Z