DNA sequence required for initiation of transcription in vitro from the major late promoter of adenovirus 2
about
Accurate transcription initiation by RNA polymerase II in a soluble extract from isolated mammalian nucleiIdentification of a conserved region required for hormone dependent transcriptional activation by steroid hormone receptorsInhibition of DNA-dependent transcription by the leader RNA of vesicular stomatitis virus: role of specific nucleotide sequences and cell protein bindingComparative inhibition of cellular transcription by vesicular stomatitis virus serotypes New Jersey and Indiana: role of each viral leader RNAProteins that bind to RNA polymerase II are required for accurate initiation of transcription at the adenovirus 2 major late promoterSequences controlling in vitro transcription of SV40 promoterstrans repression of the human metallothionein IIA gene promoter by PZ120, a novel 120-kilodalton zinc finger protein.Transcription of methylated eukaryotic viral genes in a soluble in vitro system.Mapping a eukaryotic promoter: a DNA sequence required for in vivo expression of adenovirus pre-early functions.The adenovirus major late promoter TATA box and initiation site are both necessary for transcription in vitro.Accurate transcription of cloned Xenopus rRNA genes by RNA polymerase I: demonstration by S1 nuclease mapping.Sequence requirements for the transcription of the rabbit beta-globin gene in vivo: the -80 region.Sequence homologies in the protamine gene family of rainbow troutIdentification of sequence-specific DNA-binding factors by label transfer: application to the adenovirus-2 major late promoterDNA sequences affecting specific initiation of transcription in vitro from the EIII promoter of adenovirus 2.Delimitation of far upstream sequences required for maximal in vitro transcription of an H2A histone gene.Transcription initiation by RNA polymerase II is inhibited by S-adenosylhomocysteineSequences upstream from the T-A-T-A box are required in vivo and in vitro for efficient transcription from the adenovirus serotype 2 major late promoter.In vitro characterization of the fibroin gene promoter by the use of single-base substitution mutantsDNA affinity labeling of adenovirus type 2 upstream promoter sequence-binding factors identifies two distinct proteins.Loss of a phosphorylated form of transcription factor CREB/ATF in poliovirus-infected cells.RAP30/74: a general initiation factor that binds to RNA polymerase II.Factors responsible for the higher transcriptional activity of extracts of adenovirus-infected cells fractionate with the TATA box transcription factorHigh-level transcription from the adenovirus major late promoter requires downstream binding sites for late-phase-specific factorsReplication protein A is a component of a complex that binds the human metallothionein IIA gene transcription start site.DNA binding and gene regulation by the herpes simplex virus type 1 protein ICP4 and involvement of the TATA element.Cotransfection with adenovirus DNA enhances transcription from linear DNA containing eucaryotic promoters.Mutation of the c-fos gene dyad symmetry element inhibits serum inducibility of transcription in vivo and the nuclear regulatory factor binding in vitroFactors involved in specific transcription by mammalian RNA polymerase II: purification, genetic specificity, and TATA box-promoter interactions of TFIID.Effects of the adenovirus 2 late promoter on simian virus 40 transcription and replication.Identification of a transcription factor which interacts with the distal domain of the adenovirus IVa2 promoter.RNA sequence containing hexanucleotide AAUAAA directs efficient mRNA polyadenylation in vitro.Characterization of a surrogate TATA box promoter that regulates in vitro transcription of the simian virus 40 major late geneControl of adenovirus late promoter expression in two human cell lines.Positive and negative control sequences within the distal domain of the adenovirus IVa2 promoter overlap with the major late promoter.A functional simian virus 40 origin of replication is required for the generation of a super T antigen with a molecular weight of 100,000 in transformed mouse cells.Downstream sequences affect transcription initiation from the adenovirus major late promoter.Transcription of adenovirus 5 early region 1b is elevated in permissive cells infected by a mutant with an upstream deletion.Accurate transcription of simian virus 40 chromatin in a HeLa cell extract.Evidence of transcription from the late region of the integrated simian virus 40 genome in transformed cells: location of the 5' ends of late transcripts in cells abortively infected and in cells transformed by simian virus 40.
P2860
Q27860728-D60E54F1-19ED-48E2-A198-45744311A78EQ29616455-14DE2DED-E261-447B-B4AC-33AD02E77B9BQ30449969-9DE8A76F-C52D-4330-9C59-A5693AE43562Q30452294-C9B76CF6-B958-4975-8E2F-0D4BE81E7534Q33880732-7800F004-CA1C-4ADA-852A-058D5C09D64FQ33934127-3939F836-5D4E-4802-8142-A6CB5A17E682Q33957223-36D0E635-5525-44C0-B2E3-919061E9F5CDQ35285139-46456490-0EEB-4511-93C3-D1294CD65971Q35318627-5F0BF974-A8AB-4771-A6FE-4DE72470F864Q35445893-A62751B2-7B48-4FB1-910D-E9DD635C060CQ35513064-BADFEF23-88C1-4E9C-BE1F-F04149058C6FQ35526985-6E04806C-0C0A-400A-89EF-C88E65113886Q35679812-86825D8A-2BBD-44F4-8A66-BAB990B44B53Q35941751-F18983CE-C566-48B9-A0E4-B6E471BCDC70Q36274317-C1EDEB5F-C303-4CDD-B6E3-86F853387FEFQ36276162-9FBC3330-B203-44B5-9A2C-F3501760C85BQ36313763-5C15693A-C57F-4C91-AF1A-8E80AE7857D0Q36322310-B37D65FF-D5F2-4638-A693-64B421D24028Q36323065-7BBB9E7C-CDD4-4B82-8576-34321BE4F45CQ36779590-C90D0BAE-AF9F-4CFC-B569-B38CD3238B42Q36783237-D64C8086-77DF-409A-AC9D-32ABD088532CQ36786682-6A6B2E05-8C1C-4AF6-BAAC-6F64A95E2A16Q36787211-BA1764CC-68EA-4BE0-B476-E1C000A0AFC3Q36798302-8F30E39F-48E6-483F-A32E-57CEEC90ACBBQ36807280-58F0691D-C61A-4D61-B7E6-8CC2B64AE5C4Q36830332-070674D6-2E96-4F90-B8C3-1CD72251B1C0Q36836793-993147A0-F16B-4167-B443-8C880D84F852Q36837457-9DD6F15F-BCC0-4160-9FDF-1645333806D1Q36846156-BDE64E2A-C4CD-4D03-8661-E700B383103AQ36855672-42C200EC-13EA-4E76-BD22-961AAA8C2A73Q36885200-C00D4E10-DCF4-4806-96AB-55A90C23C7F9Q36885633-F075D91C-5AEA-4613-857B-35E3F9A6AAB6Q36886730-84D9EFB5-CC59-4CBD-BD68-02065559FA49Q36893572-87DBEA16-C428-4ACF-B078-98214DA188EBQ36902531-F0DBFF76-852C-41D7-B29F-7B3A739613F8Q36909664-9FAA3CB1-F557-4882-8DD2-8831061BCB13Q36917834-772B76F8-7520-4183-8D78-2B331BD47B87Q36926595-29416DAB-CBF0-48D6-8943-97FBEBA6907AQ36927393-1D46256D-4522-4627-B777-FB331C458A71Q36932132-A6276880-815C-4A3D-A130-A1B1B374FE9F
P2860
DNA sequence required for initiation of transcription in vitro from the major late promoter of adenovirus 2
description
1981 nî lūn-bûn
@nan
1981 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1981 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1981年の論文
@ja
1981年論文
@yue
1981年論文
@zh-hant
1981年論文
@zh-hk
1981年論文
@zh-mo
1981年論文
@zh-tw
1981年论文
@wuu
name
DNA sequence required for init ...... late promoter of adenovirus 2
@ast
DNA sequence required for init ...... late promoter of adenovirus 2
@en
type
label
DNA sequence required for init ...... late promoter of adenovirus 2
@ast
DNA sequence required for init ...... late promoter of adenovirus 2
@en
prefLabel
DNA sequence required for init ...... late promoter of adenovirus 2
@ast
DNA sequence required for init ...... late promoter of adenovirus 2
@en
P2860
P356
P1476
DNA sequence required for init ...... late promoter of adenovirus 2
@en
P2093
P2860
P304
P356
10.1073/PNAS.78.2.820
P407
P577
1981-02-01T00:00:00Z