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Polyamine stress at high pH in Escherichia coli K-12.MspA nanopores from subunit dimersPolyamines inhibit porin-mediated fluoroquinolone uptake in mycobacteriaMolecular basis of bacterial outer membrane permeability revisitedElucidating in vivo structural dynamics in integral membrane protein by hydroxyl radical footprintingVoltage gating of Escherichia coli porin channels: role of the constriction loop.Osmosensing by bacteria: signals and membrane-based sensorsBile salts affect expression of Escherichia coli O157:H7 genes for virulence and iron acquisition, and promote growth under iron limiting conditions.Characterization of a porin from the outer membrane of Vibrio anguillarum.Characterization of a second lysine decarboxylase isolated from Escherichia coli.Physiological polyamines: simple primordial stress moleculesOuter membrane permeability and antibiotic resistance.The role of transport mechanisms in mycobacterium tuberculosis drug resistance and tolerance.Inward potassium channel in guard cells as a target for polyamine regulation of stomatal movements.Excretion of endogenous cadaverine leads to a decrease in porin-mediated outer membrane permeability.Colicin import into Escherichia coli cells.Gene cloning and molecular characterization of lysine decarboxylase from Selenomonas ruminantium delineate its evolutionary relationship to ornithine decarboxylases from eukaryotes.Cadaverine inhibition of porin plays a role in cell survival at acidic pH.Molecular and proteome analyses highlight the importance of the Cpx envelope stress system for acid stress and cell wall stability in Escherichia coli.Polyamines decrease Escherichia coli outer membrane permeability.Amino acid substitutions in the pore of rat glutamate receptors at sites influencing block by polyamines.Porins of Escherichia coli: unidirectional gating by pressure.Colicins, spermine and cephalosporins: a competitive interaction with the OmpF eyelet.Polyamines improve K+/Na+ homeostasis in barley seedlings by regulating root ion channel activities.A Novel Process for Cadaverine Bio-Production Using a Consortium of Two Engineered Escherichia coli.
P2860
Q24812120-1924CB10-548B-4F61-91DF-C7AA03EEB63DQ28480508-292316EF-2387-4323-A155-33CF188EA8B2Q28533601-1D098996-8FE2-4BA0-A9DE-726B8368C31FQ29616208-46690E38-DC6E-4A4B-BBAA-F96D03E65BD7Q30157241-30CBC41D-E4DA-4CA4-9CCA-F9A7ECDC7E6FQ30176503-C7651E5A-8EB8-43D0-AB6A-E44AC126C022Q33538953-DF1F82D7-DF25-4BCF-8779-9F09E45F4E79Q34994858-2D10DAA4-7764-4B2C-83F4-04244EB0EF0EQ35609683-5A16B135-7E95-443E-B930-D353A2D20165Q35626192-1AB7A933-049A-410B-9379-1133DA95BABAQ36924386-FA24B71B-2C91-49C3-B64E-D3BDB593C5E5Q37227443-F2B50B9B-A46B-4E34-A4DF-F78B0F200110Q37277325-46DD8170-6837-4C15-B1C1-0220BCF12200Q39183961-C5D0E98C-5304-4EE1-839D-0F31CA5AF89AQ39494006-3EC85D41-2881-43D6-A6C5-B122F3E649A2Q39567863-CA874F39-7C8D-47F4-98F2-8B1E8231B411Q39587997-33C43638-A91D-48B1-A0F6-50B2D30E13B1Q39703074-8A341757-FB72-4B74-AEA3-EC17D13A1251Q39868463-F3D4340E-F307-4499-8FF8-1D1961EFDA3EQ40024336-923509D2-7156-4580-9C59-03F4B8D67A2EQ40922838-469245AD-4A11-4370-9725-D4E17E4D33E3Q41075422-BF589A20-559A-4E78-A1BB-390D5C52F232Q43003247-42E1C181-7E30-4D51-ADAA-8CD3C3DF057BQ46974255-0992EFCA-03E1-4D8C-B7A1-AAEB75F52C7BQ55407784-53175CFD-0922-4E04-A46C-65792082B240
P2860
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh
1995年學術文章
@zh-hant
name
Cadaverine induces closing of E. coli porins
@en
type
label
Cadaverine induces closing of E. coli porins
@en
prefLabel
Cadaverine induces closing of E. coli porins
@en
P2860
P1433
P1476
Cadaverine induces closing of E. coli porins
@en
P2093
A H Delcour
A L delaVega
P2860
P304
P356
10.1002/J.1460-2075.1995.TB00294.X
P407
P577
1995-12-01T00:00:00Z