about
CA150, a nuclear protein associated with the RNA polymerase II holoenzyme, is involved in Tat-activated human immunodeficiency virus type 1 transcriptionMethods for assessing the statistical significance of molecular sequence features by using general scoring schemesAssociation of charge clusters with functional domains of cellular transcription factorsMolecular genetic analysis of Suppressor 2 of zeste identifies key functional domainsThe yeast ADR6 gene encodes homopolymeric amino acid sequences and a potential metal-binding domain.The Saccharomyces cerevisiae CKS1 gene, a homolog of the Schizosaccharomyces pombe suc1+ gene, encodes a subunit of the Cdc28 protein kinase complex.A proline-rich region in the Zeste protein essential for transvection and white repression by ZesteSelf-association of the Drosophila zeste protein is responsible for transvection effects.The Drosophila zeste locus is nonessential.Genetic and molecular analysis of vgU and vgW: two dominant vg alleles associated with gene fusions in DrosophilaGenetic analysis of the enhancer of zeste locus and its role in gene regulation in Drosophila melanogaster.TAFII40 protein is encoded by the e(y)1 gene: biological consequences of mutationsAn unusual genomic position effect on Drosophila white gene expression: pairing dependence, interactions with zeste, and molecular analysis of revertantsMolecular analysis of the zeste-white interaction reveals a promoter-proximal element essential for distant enhancer-promoter communicationMutations of zeste that mediate transvection are recessive enhancers of position-effect variegation in Drosophila melanogaster.The novel transcription factor e(y)2 interacts with TAF(II)40 and potentiates transcription activation on chromatin templatesStepwise assembly of hyperaggregated forms of Drosophila zeste mutant protein suppresses white gene expression in vivo.Pairing between gypsy insulators facilitates the enhancer action in trans throughout the Drosophila genome.The mcp element from the Drosophila melanogaster bithorax complex mediates long-distance regulatory interactionsEffective blocking of the white enhancer requires cooperation between two main mechanisms suggested for the insulator function.Modulo, a new maternally expressed Drosophila gene encodes a DNA-binding protein with distinct acidic and basic regions.Enhancer blocking and transvection at the Drosophila apterous locusOrganizational analysis of elav gene and functional analysis of ELAV protein of Drosophila melanogaster and Drosophila virilis.The N-terminal TPR region is the functional domain of SSN6, a nuclear phosphoprotein of Saccharomyces cerevisiaeThe Saccharomyces cerevisiae SIN3 gene, a negative regulator of HO, contains four paired amphipathic helix motifsDNA-binding properties of the Drosophila melanogaster zeste gene productStable transformation of a mosquito cell line results in extraordinarily high copy numbers of the plasmidConserved DNA binding and self-association domains of the Drosophila zeste proteinA novel spatial transcription pattern associated with the segmentation gene, giant, of Drosophila.Properties of promoter regions of mdg1 Drosophila retrotransposon indicate that it belongs to a specific class of promoters.The Drosophila zeste protein binds cooperatively to sites in many gene regulatory regions: implications for transvection and gene regulation.A fragment of engrailed regulatory DNA can mediate transvection of the white gene in Drosophila.
P2860
Q24315725-4073B586-A257-402A-B9C2-140F8FFFC03FQ24558736-E5B9117B-C514-4399-9FF7-63DE90F735A5Q24609977-2BC4C3DB-CDF4-4097-B0D6-B4F2B0D09D84Q24649818-F2E5AABC-AE31-4670-9BFB-782B6E61C706Q27935142-8CE70348-9E4C-4754-82A2-3F1E1E6E3C09Q27938419-6B9E9BCA-87F9-40CB-A80B-91E2916B7396Q28768012-F6E29928-C700-4AA5-926A-026DF2531E74Q33921493-9834D3E6-AEE5-45A1-867B-15D606D5124BQ33955691-C31CB72E-BB9C-4AAA-97CC-6D027DFA8A6BQ33956845-CE821CF4-95D3-4661-A2E6-811A5A8B8057Q33956903-C929D31C-DCC8-4A42-B9BA-87A529ED88A4Q33958193-BA73EAAD-9F12-48AD-A033-5A7000F20C55Q33958868-423B5527-A824-446E-94D5-FF80C7432B5EQ33959418-33B1A46F-67F6-4CD4-8CA1-AB34315AA335Q33965668-5C957E4C-B811-4029-B433-ABE658227A4CQ33969106-36EFB7E3-8ADC-40B0-AE4C-1EBBED067B33Q34050930-D666BEFA-A3C7-4CE1-B0BF-768F3C8254F5Q34097511-C0069098-B037-4477-B339-9A58E721EF95Q34608100-47D08865-0722-406B-80F1-3B33F28CF387Q34825042-82D4FB3A-75B0-4958-AA63-DD7EBDA9B1CFQ35220726-804789D6-C37F-4580-9A43-33DF2010AAEDQ36391772-66557F6D-DE2E-4E5F-B620-FD1E4F413587Q36695373-0F9BB44D-CD7A-45EF-919A-BF02318BF3B1Q36724306-2D1A232D-D2B7-4FB5-8BB4-29DDF6956371Q36733371-416140DC-1325-44B9-BFB9-2DD0976CE290Q36782806-8966DF60-012E-4795-A625-7B75A7036299Q37075158-D2B77033-46B3-4EDB-801F-7C76A727BB9FQ40653955-5BBBF971-E834-44B7-A522-55FA3060CC6BQ40817942-3D39381F-124C-4AF3-93EC-E4D0A25C8BD9Q41080707-057A38FC-EEE1-49DF-A2E3-340DC08578F9Q41095085-A50AB8B3-6DD5-4666-A94F-958789C1CA4FQ41816404-F3AE7441-B6E0-4A96-A25C-FC2FFF654FE1
P2860
description
1987 nî lūn-bûn
@nan
1987 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1987 թվականի մարտին հրատարակված գիտական հոդված
@hy
1987年の論文
@ja
1987年学术文章
@wuu
1987年学术文章
@zh-cn
1987年学术文章
@zh-hans
1987年学术文章
@zh-my
1987年学术文章
@zh-sg
1987年學術文章
@yue
name
Structure and sequence of the Drosophila zeste gene
@ast
Structure and sequence of the Drosophila zeste gene
@en
type
label
Structure and sequence of the Drosophila zeste gene
@ast
Structure and sequence of the Drosophila zeste gene
@en
prefLabel
Structure and sequence of the Drosophila zeste gene
@ast
Structure and sequence of the Drosophila zeste gene
@en
P2093
P2860
P1433
P1476
Structure and sequence of the Drosophila zeste gene
@en
P2093
P2860
P304
P407
P577
1987-03-01T00:00:00Z