An amino-terminal fragment of lac repressor binds specifically to lac operator.
about
Cleavage of the site-specific recombination protein gamma delta resolvase: the smaller of two fragments binds DNA specificallyStructure of the DNA-binding region of lac repressor inferred from its homology with cro repressorPlasticity in protein-DNA recognition: lac repressor interacts with its natural operator 01 through alternative conformations of its DNA-binding domain.The Caulobacter crescentus FlbD protein acts at ftr sequence elements both to activate and to repress transcription of cell cycle-regulated flagellar genesBinding of the Bacillus subtilis spoIVCA product to the recombination sites of the element interrupting the sigma K-encoding gene.DNA binding properties of the purified Antennapedia homeodomainInteraction of two nonhistone proteins with the estradiol response element of the avian vitellogenin gene modulates the binding of estradiol-receptor complex.Escherichia coli RNA polymerase subunit omega and its N-terminal domain bind full-length beta' to facilitate incorporation into the alpha2beta subassembly.Multiple intrinsically disordered sequences alter DNA binding by the homeodomain of the Drosophila hox protein ultrabithoraxRecognition of specific nucleotide bases and cooperative DNA binding by the trans-acting nitrogen regulatory protein NIT2 of Neurospora crassaGenetic assignment of resonances in the NMR spectrum of a protein: lac repressor.Translational regulation: identification of the site on bacteriophage T4 rIIB mRNA recognized by the regA gene function.Two helix DNA binding motif of CAP found in lac repressor and gal repressor.Receptors for glucocorticosteroid and progesterone recognize distinct features of a DNA regulatory element.Ubiquitous and gene-specific regulatory 5' sequences in a sea urchin histone DNA clone coding for histone protein variantsSequence-specific interactions of the tight-binding I12-X86 lac repressor with non-operator DNA.Orientation of the Lac repressor DNA binding domain in complex with the left lac operator half site characterized by affinity cleaving.Quantification of transcription factor-DNA binding affinity in a living cell.Autorepressor properties of the pi-initiation protein encoded by plasmid R6K.Structural characterization and corepressor binding of the Escherichia coli purine repressor.Characterization of mutational specificity within the lacI gene for a mutD5 mutator strain of Escherichia coli defective in 3'----5' exonuclease (proofreading) activity.Contacts between hormone receptor and DNA double helix within a glucocorticoid regulatory element of mouse mammary tumor viruslac repressor-lac operator interaction: NMR observations.Sequence of galR gene indicates a common evolutionary origin of lac and gal repressor in Escherichia coliBacteriophage lambda int protein recognizes two classes of sequence in the phage att site: characterization of arm-type sites.Interaction between mutant alleles of araC of the Escherichia coli B/r L-arabinose operon.Contacts between Escherichia coli RNA polymerase and an early promoter of phage T7.Mutations in the lacY gene of Escherichia coli define functional organization of lactose permeaseSite-specific recombination functions of bacteriophage lambda: DNA sequence of regulatory regions and overlapping structural genes for Int and XisSequences of the recA gene and proteinPatterns of lambda Int recognition in the regions of strand exchange.Photochemically induced dynamic nuclear polarization investigation of complex formation of the NH2-terminal DNA-binding domain of lac repressor with poly[d(AT)].Model for lactose repressor protein and its interaction with ligands.On the interaction of the lac repressor headpiece with nucleic acids.Fine-tuning function: correlation of hinge domain interactions with functional distinctions between LacI and PurRPlasticity of quaternary structure: twenty-two ways to form a LacI dimer.In vivo genomic footprint of a yeast centromere.Characterization of the human immunoglobulin kappa gene 3' enhancer: functional importance of three motifs that demonstrate B-cell-specific in vivo footprintsGenomic footprinting: detection of putative regulatory proteins in the promoter region of the interferon alpha-1 gene in normal human tissues.Ligand-induced conformational changes and conformational dynamics in the solution structure of the lactose repressor protein
P2860
Q24594894-2C2BA024-8C5E-4993-B12D-E9894DBD5E4CQ24633269-78428CE8-7FCE-47DB-8891-2E3BCCB23014Q27639171-5C21A78A-1F7E-46A5-B3DF-2177F13A0CDBQ30454021-976D9A2A-7C0E-48F5-9F11-DC13DC0BC7BDQ33227904-6F5F8DDA-ED91-4B9C-BF28-4242D768991EQ33603927-EB04F66E-067F-4D36-9026-AE6847AB6773Q34357277-DF5ACDFE-FDCF-4DCD-8A23-CF20890059E6Q34517353-B9BEC73A-0849-4A00-AA13-1C85F2692DC8Q34782212-E9335F3F-9947-4B06-B6EE-EE4EAC374DBEQ34998584-4AEA0A77-ECEB-4ACD-939D-B11B1CD4F92DQ35358542-8BED453A-624F-4BEC-8FCB-B6DE8D8D7D0AQ35450970-888DDBB5-E909-4CD2-9196-50CD09FE66A2Q35527273-D9F486F8-5FEC-4895-AD02-71CD87BDC37DQ35601955-AAD1618A-8234-491D-B3EF-4E59A960A770Q35618059-ACA6811D-1029-4E8B-8FBC-84B6CB777D8BQ35738856-7197C881-B49A-4C39-ACE0-3F5F5B23BAE8Q35785662-6C905946-4743-405C-8C55-2B584D67C961Q35866522-A11C35E5-B757-44B3-A143-8F6945EA6D2AQ36132816-D3CED581-09EB-4993-B48E-D71446BA5309Q36140378-C9C7AACC-658A-4F23-B620-157A667F5EE7Q36248334-53B5FA76-C895-4CF0-ACD2-FB791ECA55EBQ36260795-1A53A4F4-D639-4409-AA1E-A0EFB7025EC4Q36275611-EB2CBEA3-0D9F-464B-9BA7-4FA423E000A2Q36290933-7D8BC75C-EBDE-4EA4-83B0-C633C0DE1851Q36326589-6199C829-D7FF-4DCB-9A3F-01231B501F7FQ36335287-3DECC7A9-8D96-41DA-9FC2-2E6CA4D69C27Q36350474-A7B640BB-D49A-4000-8A41-65842839692FQ36383894-AEFD39EE-AC23-4567-A057-B525C52B3926Q36387160-E2ECD7FF-3D3F-4C16-BC6A-187756664776Q36388167-747BA718-B133-4373-8A84-459E92D34C89Q36398220-4F854AAF-585C-4304-A9FB-5B090DBF22E1Q36405197-DD7F81AE-8B5B-4374-A58E-30684974E3DAQ36418534-EE131EFB-4E3C-4741-8266-A112C699E694Q36595508-4F2A4E3E-DC6F-4D9F-B34B-F127E6513ED9Q36639184-85FA1B0A-AFF8-4227-A739-0B74DB3E0E2BQ36640266-D12A388A-44B3-4E0B-B345-5BB70C1E859DQ36679998-53A7CC1B-F09E-47ED-891A-002DEAE459C8Q36705439-4B94FE54-3206-45BF-9574-47D6205640A6Q36710023-66D8D95F-738C-4B19-9174-184AC2C37A2AQ36724953-52884F8A-0D7C-4B93-B21A-4C3CCF444F18
P2860
An amino-terminal fragment of lac repressor binds specifically to lac operator.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 1978
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@en
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@nl
type
label
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@en
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@nl
prefLabel
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@en
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@nl
P2860
P356
P1476
An amino-terminal fragment of lac repressor binds specifically to lac operator.
@en
P2093
P2860
P304
P356
10.1073/PNAS.75.12.5851
P407
P577
1978-12-01T00:00:00Z