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161.
162.
Boris Rotman 《Journal of cellular biochemistry》1977,7(1):29-35
Strains of Escherichia coli K12 were constructed for the specific purpose of evaluating the inducibility of the influx mechanism controlled by the lacY gene. These strains are heteromerodiploids characterized by a high and relatively constant level of β-D-galactosidase which is not affected significantly by induction of the Lac operon. These properties were obtained by introducing episomal lacI+,Oc,Z+,Y? genes into the cells. In these merodiploids the rate of o-nitrophenyl-β-D-galactopyranoside (ONPG) hydrolysis of extracted cells is 50-times that of intact cells. This difference indicates that the rate limiting step in the ONPG hydrolysis by intact cells is influx. Using a set of merodiploids with and without the LacY transport system, we were able to demonstrate a specific induction of ONPG influx. However, the increase in influx due to induction was only 3.5-fold as compared to the 40-fold increase observed when the LacY permease was measured by intracellular accumulation of [14C] TMG. 相似文献
163.
Yutaka Haitani Maiko Nakata Toshiya Sasaki Akiko Uchida & Hiroshi Takagi 《FEMS yeast research》2009,9(1):73-86
Rsp5 is an essential ubiquitin-protein ligase in Saccharomyces cerevisiae . We found previously that the Ala401Glu rsp 5 mutant is hypersensitive to various stresses that induce protein misfolding, suggesting that Rsp5 is a key enzyme for yeast cell growth under stress conditions. To isolate new Rsp5 variants as suppressors of the A401E mutant, PCR random mutagenesis was used in the rsp5 A401E gene, and the mutagenized plasmid library was introduced into rsp5 A401E cells. As a phenotypic suppressor of rsp5 A401E cells, we isolated a quadruple variant (Thr357Ala/Glu401Gly/Lys764Glu/Glu767Gly) on a minimal medium containing the toxic proline analogue azetidine-2-carboxylate (AZC). Site-directed mutagenesis experiments showed that the rsp5 T357A/K764E cells were much more tolerant to AZC than the wild-type cells, due to the smaller amounts of intracellular AZC. However, the T357A/K764E variant Rsp5 did not reverse the hypersensitivity of rsp5 A401E cells to other stresses such as high growth temperature, ethanol, and freezing treatment. Interestingly, immunoblot and localization analyses indicated that the general amino acid permease Gap1, which is involved in AZC uptake, was absent on the plasma membrane and degraded in the vacuole of rsp5 T357A/K764E cells before the addition of ammonium ions. These results suggest that the T357A/K764E variant Rsp5 induces constitutive inactivation of Gap1. 相似文献
164.
Abstract Amplification of the LYP1 transport system in the plasma membrane of Saccharomyces cerevisiae did not change the substrate specificity, the affinity and the pH optimum of the transport system for lysine, but significantly increased the uptake velocity and accumulation ratio. The dependence of active lysine uptake and accumulation on pH is probably given by the properties of the permease itself rather than by the value of available protonmotive force. 相似文献
165.
Ngozi P. Paul Thiruselvam Viswanathan Jian Chen Masafumi Yoshinaga Barry P. Rosen 《Molecular microbiology》2023,119(4):505-514
The pentavalent organoarsenical arsinothricin (AST) is a natural product synthesized by the rhizosphere bacterium Burkholderia gladioli GSRB05. AST is a broad-spectrum antibiotic effective against human pathogens such as carbapenem-resistant Enterobacter cloacae. It is a non-proteogenic amino acid and glutamate mimetic that inhibits bacterial glutamine synthetase. The AST biosynthetic pathway is composed of a three-gene cluster, arsQML. ArsL catalyzes synthesis of reduced trivalent hydroxyarsinothricin (R-AST-OH), which is methylated by ArsM to the reduced trivalent form of AST (R-AST). In the culture medium of B. gladioli, both trivalent species appear as the corresponding pentavalent arsenicals, likely due to oxidation in air. ArsQ is an efflux permease that is proposed to transport AST or related species out of the cells, but the chemical nature of the actual transport substrate is unclear. In this study, B. gladioli arsQ was expressed in Escherichia coli and shown to confer resistance to AST and its derivatives. Cells of E. coli accumulate R-AST, and exponentially growing cells expressing arsQ take up less R-AST. The cells exhibit little transport of their pentavalent forms. Transport was independent of cellular energy and appears to be equilibrative. A homology model of ArsQ suggests that Ser320 is in the substrate binding site. A S320A mutant exhibits reduced R-AST-OH transport, suggesting that it plays a role in ArsQ function. The ArsQ permease is proposed to be an energy-independent uniporter responsible for downhill transport of the trivalent form of AST out of cells, which is oxidized extracellularly to the active form of the antibiotic. 相似文献
166.
Alena Matjková-Forejtováa Olga Kinclováa Hana Sychrováa 《FEMS microbiology letters》1999,176(1):257-262
The Candida albicans amino-acid Can1 permease expressed in Saccharomyces cerevisiae is degraded in the vacuole after internalisation by endocytosis. The CaCan1 inactivation and degradation is slow and not inducible by ammonium ions or 'stress' conditions. Using Saccharomyces cerevisiae mutants defective in ubiquitin-protein ligase and ubiquitin-protein hydrolase we have shown that the degradation of heterologous CaCan1 permease is ubiquitin dependent. 相似文献
167.
Katsue Daicho Nishiho Makino Toshiki Hiraki Masaru Ueno Masahiro Uritani Fumiyoshi Abe & Takashi Ushimaru 《FEMS microbiology letters》2009,298(2):218-227
Cholesterol (ergosterol in yeast) in conjunction with sphingolipids forms tight-packing microdomains, 'lipid rafts,' which are thought to be critical for intracellular protein sorting in eukaryotic cells. When the activity of Erg9 involved in the first step of ergosterol biogenesis, but not that of Erg6 involved in a late step, is compromised, vacuolar degradation of the tryptophan permease Tat2 is promoted. It is unknown whether this difference simply reflects the difference between the inhibition of early and late steps. Here, it is shown that the deletion in ERG2 , which encodes sterol C8–C7 isomerase (the next enzymatic step after Erg6), promotes the vacuolar degradation of Tat2. It suggests that the accumulation of specific sterol intermediates may alter lipid raft structures, promoting Tat2 degradation. The erg2 Δ-mediated Tat2 degradation required Tat2 ubiquitination. Lipid raft association of Tat2 is compromised in erg2 Δ cells. The erg2 Δ mutation showed a synthetic growth defect with the trp1 mutation, indicating that Tat2 sorting is preferentially compromised in these mutants. Consistent with this notion, the raft-associated protein Pma1 was associated with detergent-resistant membranes and sorted to the plasma membrane. This study suggests the potential for the pharmacological control of cellular nutrient uptake in humans by regulating enzymes involved in cholesterol biogenesis. 相似文献
168.
The nucleobase-ascorbate transporter or nucleobase-cation symporter-2 (NAT/NCS2)
family is one of the five known families of transporters that use nucleobases as
their principal substrates and the only one that is evolutionarily conserved and
widespread in all major taxa of organisms. The family is a typical paradigm of a
group of related transporters for which conservation in sequence and overall
structure correlates with high functional variations between homologs.
Strikingly, the human homologs fail to recognize nucleobases or related
cytotoxic compounds. This fact allows important biomedical perspectives for
translation of structure-function knowledge on this family to the rational
design of targeted antimicrobial purine-related drugs. To date, very few
homologs have been characterized experimentally in detail and only two, the
xanthine permease XanQ and the uric acid/xanthine permease UapA, have been
studied extensively with site-directed mutagenesis. Recently, the
high-resolution structure of a related homolog, the uracil permease UraA, has
been solved for the first time with crystallography. In this review, I summarize
current knowledge and emphasize how the systematic Cys-scanning mutagenesis of
XanQ, in conjunction with existing biochemical and genetic evidence for UapA and
the x-ray structure of UraA, allow insight on the structure-function and
evolutionary relationships of this important group of transporters. The review
is organized in three parts referring to (I) the theory of use of Cys-scanning
approaches in the study of membrane transporter families, (II) the state of the
art with experimental knowledge and current research on the NAT/NCS2 family,
(III) the perspectives derived from the Cys-scanning analysis of XanQ. 相似文献
169.
Andre Bazzone Wagner Steuer Costa Markus Braner Octavian C?linescu Lina Hatahet Klaus Fendler 《Journal of visualized experiments : JoVE》2013,(75)
The electrophysiological method we present is based on a solid supported membrane (SSM) composed of an octadecanethiol layer chemisorbed on a gold coated sensor chip and a phosphatidylcholine monolayer on top. This assembly is mounted into a cuvette system containing the reference electrode, a chlorinated silver wire.After adsorption of membrane fragments or proteoliposomes containing the membrane protein of interest, a fast solution exchange is used to induce the transport activity of the membrane protein. In the single solution exchange protocol two solutions, one non-activating and one activating solution, are needed. The flow is controlled by pressurized air and a valve and tubing system within a faraday cage.The kinetics of the electrogenic transport activity is obtained via capacitive coupling between the SSM and the proteoliposomes or membrane fragments. The method, therefore, yields only transient currents. The peak current represents the stationary transport activity. The time dependent transporter currents can be reconstructed by circuit analysis.This method is especially suited for prokaryotic transporters or eukaryotic transporters from intracellular membranes, which cannot be investigated by patch clamp or voltage clamp methods. 相似文献
170.
《Journal of molecular biology》2023,435(11):167975
Single-molecule force spectroscopy is a unique method that can probe the structural changes of single proteins at a high spatiotemporal resolution while mechanically manipulating them over a wide force range. Here, we review the current understanding of membrane protein folding learned by using the force spectroscopy approach. Membrane protein folding in lipid bilayers is one of the most complex biological processes in which diverse lipid molecules and chaperone proteins are intricately involved. The approach of single protein forced unfolding in lipid bilayers has produced important findings and insights into membrane protein folding. This review provides an overview of the forced unfolding approach, including recent achievements and technical advances. Progress in the methods can reveal more interesting cases of membrane protein folding and clarify general mechanisms and principles. 相似文献