In vivo expression of the lacY gene in two segments leads to functional lac permease.
about
Functional characterization of ORCTL2--an organic cation transporter expressed in the renal proximal tubulesThe kamikaze approach to membrane transportThe complete general secretory pathway in gram-negative bacteriaHelix packing of lactose permease in Escherichia coli studied by site-directed chemical cleavage.Diversity and versatility of lipid-protein interactions revealed by molecular genetic approaches.Employing Escherichia coli to functionally express, purify, and characterize a human transporterA polytopic membrane protein displays a reversible topology dependent on membrane lipid composition.Assembly of functional Escherichia coli RNA polymerase containing beta subunit fragments.A phospholipid acts as a chaperone in assembly of a membrane transport protein.In vivo assembly of rhodopsin from expressed polypeptide fragmentsA transcription blocker isolated from a designed repeat protein combinatorial library by in vivo functional screenMechanisms of integral membrane protein insertion and foldingThe central cytoplasmic loop of the major facilitator superfamily of transport proteins governs efficient membrane insertion.Properties of permease dimer, a fusion protein containing two lactose permease molecules from Escherichia coli.Anchoring of DNA to the bacterial cytoplasmic membrane through cotranscriptional synthesis of polypeptides encoding membrane proteins or proteins for export: a mechanism of plasmid hypernegative supercoiling in mutants deficient in DNA topoisomeraseTet protein domains interact productively to mediate tetracycline resistance when present on separate polypeptidesThe NG domain of the prokaryotic signal recognition particle receptor, FtsY, is fully functional when fused to an unrelated integral membrane polypeptide.Role of YidC in folding of polytopic membrane proteinsSevered molecules functionally define the boundaries of the cystic fibrosis transmembrane conductance regulator's NH(2)-terminal nucleotide binding domain.Lessons from lactose permeaseFunctional expression of mouse mdr1 in Escherichia coli.Functional complementation of internal deletion mutants in the lactose permease of Escherichia coli.Functional assembly of a randomly cleaved proteinA general method for determining helix packing in membrane proteins in situ: helices I and II are close to helix VII in the lactose permease of Escherichia coli.Folding and activity of circularly permuted forms of a polytopic membrane protein.Cotranslational folding of membrane proteins probed by arrest-peptide-mediated force measurements.YidC protein, a molecular chaperone for LacY protein folding via the SecYEG protein machinery.Assembly of a hetero-oligomeric membrane protein complexInsertional mutagenesis of hydrophilic domains in the lactose permease of Escherichia coli.YidC assists the stepwise and stochastic folding of membrane proteinsSplit invertase polypeptides form functional complexes in the yeast periplasm in vivo.Reconstitution of mutant V2 vasopressin receptors by adenovirus-mediated gene transfer. Molecular basis and clinical implication.Four cysteines of the membrane protein DsbB act in concert to oxidize its substrate DsbA.In vivo assembly of active maltose binding protein from independently exported protein fragments.Calnexin interaction with N-glycosylation mutants of a polytopic membrane glycoprotein, the human erythrocyte anion exchanger 1 (band 3).The accessibility of yeast ribosomal protein L1 as probed by proteolysis and site-directed mutagenesis is different in intact 60 and 80 S ribosome.Stable interactions between the transmembrane domains of the adenosine A2A receptor.The Cpx two-component signal transduction pathway is activated in Escherichia coli mutant strains lacking phosphatidylethanolamine.Specificity and promiscuity in membrane helix interactions.Functional organization of repeat addition processivity and DNA synthesis determinants in the human telomerase multimer.
P2860
Q24315129-29E2E980-1212-4E26-9BED-13CA7C5739AFQ28210636-25A1B8E7-DE52-49BE-9E57-959F0732ABA9Q29615298-255D3AF4-7710-406F-BF29-8424719AA908Q33891527-54508529-DC38-4C46-817B-02B07E820311Q33944665-AB89AE48-7D04-4F7A-9D9F-89C1C0200C01Q34065202-1D5F0777-E0AE-48F2-84E4-D88DE9023B15Q34087224-0CE7D12C-FC7B-437F-8D83-5CEAC3AB21FAQ34348062-C27C75C8-FCE8-4734-AE0B-BA30DC501367Q34384353-C6847558-B06E-490E-A8EE-7CB4D7077553Q34422662-6C7DCE36-7249-47B3-A679-02C9DA9DD5FEQ35020594-A92101DD-7AD7-4FEB-A68A-A69945309AF0Q35118815-52BDD473-B243-4F84-8DDD-AF75D3211722Q35191643-D3C82855-68D5-4376-8D23-F62C3BC8D0D2Q35454494-03708A90-38F1-4713-BE2F-FF95BB232994Q36087188-53849D4E-ED0E-482F-A82B-D63C3329B75FQ36149618-1253DCE4-325E-4565-899D-EA62938564FEQ36177060-B3599B7F-D050-4A10-8BAA-FB2E242A0515Q36321967-E97F519D-F481-4B6D-BB38-B982375B4D3BQ36436335-C8C689BB-B4B5-48EE-B924-6EE5542A353FQ36475370-6C3F8C69-0FE4-454A-9767-8C1AA95663AAQ36578935-20EE37A7-E0EE-4D3B-90FE-5BE00FF27B92Q36845441-A6B2BC2B-B85A-4F4D-9765-0C4CD81F2DFDQ36866599-C0B28BD0-F54B-4E89-B80E-0501C5C9809EQ37042961-3AEB8B5E-6496-418A-85A0-CFF9842498AAQ37104857-B19F2C65-2E5B-45DA-B2EE-D0237D0379C6Q37157341-D3A95B73-7544-402B-8DFF-BDAE40F6D300Q37201273-0CE36F24-2AAD-4A50-8581-F5A887E1047AQ37299569-9694F7EA-1398-434D-860F-918108DE9602Q37345596-C97069F3-A33C-4B70-A74F-03CAFEE7C356Q37348184-CD9CB5D8-A83C-4D14-9CE4-D475EDD03763Q37357623-A1BDE3B2-2435-445C-8C75-6D708A1138FFQ37372689-3D720C99-3A55-4AF5-90B3-5F56DACEE42BQ38289355-2B88DB2E-447A-41B2-8FC2-85150303DEF4Q38310510-3A3C671C-0689-4F58-9A74-34F23E1759A4Q38323896-7C5D7ED9-3CE9-46BA-9167-997022608AAAQ38360057-0CCD58A2-833C-48FC-9DBF-5E7C13E02851Q39639215-2F023CB2-A995-4D81-BDC9-6972645475E1Q39844417-B9CC4980-1135-4469-BF91-D5823B2767B7Q40646055-D7396C13-B2BB-40AC-9C74-54A44F530954Q40763366-3A312253-A275-4413-A8F7-7C054006FFD8
P2860
In vivo expression of the lacY gene in two segments leads to functional lac permease.
description
1990 nî lūn-bûn
@nan
1990 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@ast
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@en
type
label
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@ast
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@en
prefLabel
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@ast
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@en
P2860
P356
P1476
In vivo expression of the lacY gene in two segments leads to functional lac permease.
@en
P2093
P2860
P304
P356
10.1073/PNAS.87.11.4325
P407
P577
1990-06-01T00:00:00Z