about
'Come into the fold': A comparative analysis of bacterial redox enzyme maturation protein members of the NarJ subfamilyPhylogenetic and coevolutionary analysis of the β-barrel protein family comprised of mitochondrial porin (VDAC) and Tom40Oligoribonuclease is a central feature of cyclic diguanylate signaling in Pseudomonas aeruginosaDeletion variants of Neurospora mitochondrial porin: electrophysiological and spectroscopic analysis.The evolutionary history of mitochondrial porins.Diversity and evolution of the small multidrug resistance protein family.Outer membrane protein OmpW participates with small multidrug resistance protein member EmrE in quaternary cationic compound effluxThe cmbT gene encodes a novel major facilitator multidrug resistance transporter in Lactococcus lactis.Diversity and evolution of bacterial twin arginine translocase protein, TatC, reveals a protein secretion system that is evolving to fit its environmental nicheNarJ subfamily system specific chaperone diversity and evolution is directed by respiratory enzyme associationsSmall multidrug resistance proteins: a multidrug transporter family that continues to grow.Secondary multidrug efflux pump mutants alter Escherichia coli biofilm growth in the presence of cationic antimicrobial compounds.Two-step folding of recombinant mitochondrial porin in detergent.Multimeric forms of the small multidrug resistance protein EmrE in anionic detergent.Effects of ergosterol on the structure and activity of Neurospora mitochondrial porin in liposomes.Membrane composition influences the topology bias of bacterial integral membrane proteins.Respiration and ecological niche influence bacterial membrane lipid compositions.Structural and functional comparison of hexahistidine tagged and untagged forms of small multidrug resistance protein, EmrE.Spectroscopic analysis of small multidrug resistance protein EmrE in the presence of various quaternary cation compounds.Spectroscopic analysis of the intrinsic chromophores within small multidrug resistance protein SugE.Few Conserved Amino Acids in the Small Multidrug Resistance Transporter EmrE Influence Drug PolyselectivityAnti-Atherosclerotic Properties of Wild Rice in Low-Density Lipoprotein Receptor Knockout Mice: The Gut Microbiome, Cytokines, and Metabolomics Study
P50
Q26824511-C4419B39-E2D0-4DCC-BA85-77FD30DFD4B1Q28255680-44550607-B091-4FB4-A516-78E535B779BDQ28492562-E1987BD2-23E4-446A-A155-47013B2F2EE8Q30159897-9BB4676B-97F8-4606-B38A-76C5F0D439A5Q30479166-B8FF899F-871B-4AD8-B045-DB3C820BD887Q33473031-D9D5FF10-F708-4CFB-9242-54306E0BD7A9Q33570226-BDC30F7D-69BB-45D9-AF11-D14CFAE1391FQ34416981-CBF4D510-F27A-4088-B57E-9CF315DC6368Q35043567-186C054F-04E5-4386-94A3-4D96D3D0CD59Q35661379-DFC66A4C-62EB-4A58-AA12-2DDBA45168ADQ36973879-93DAEDBC-AD51-4F41-B9A7-EA71242E57A6Q40436730-3F058ED4-1B88-47FC-A22D-DD30696B58D6Q41869217-EC8BF69D-E054-47EE-A751-FA657AFD125EQ43207058-2C0BA9CD-172F-43FB-A88D-05AF93007106Q43235180-BA0A9722-E886-4B9D-8BEC-297168FD1575Q46522551-35295730-BA75-464F-8962-4CC1BD12E11AQ46827864-431F646B-61C6-4600-AE96-5D7C09BFCCFFQ47096111-7BD9C9D7-1511-4178-AE30-0D563EB91151Q54342473-63358C7C-060D-4798-9EF1-CD2F9555C026Q54360968-08ED6A1C-96C4-4A1E-893F-7B0409148CF7Q88984625-1CEF7476-3363-455D-B303-9AE349B416E1Q91642811-CD1604D3-F24E-4747-87A9-E59E5040F643
P50
description
researcher
@en
wetenschapper
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հետազոտող
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name
Denice C. Bay
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Denice C. Bay
@de
Denice C. Bay
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Denice C. Bay
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Denice C. Bay
@nl
Denice C. Bay
@sl
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
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Denice C. Bay
@de
Denice C. Bay
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Denice C. Bay
@es
Denice C. Bay
@nl
Denice C. Bay
@sl
P106
P1153
6701704886
P31
P496
0000-0002-3620-828X