共查询到20条相似文献,搜索用时 19 毫秒
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Laura Chouinard-Thuly François Dumont Caroline Provost Mathieu Lemieux Daniel Chapdelaine Oscar Quintana Sanchez Pierre-Olivier Montiglio 《Journal of Applied Entomology》2020,144(4):331-334
Insecticides have adverse effects on human health and the environment. Thus, the development of non-chemical replacement to manage insect pests is urgent. An alternative is to bait sticky traps with attractive insect sex pheromones or plant volatiles. In Quebec, the tarnished plant bug (Lygus lineolaris) is a major insect pest. We tested the efficiency of sex pheromones (mixture of hexyl butyrate (HB), (E)-2-hexenyl butyrate (E2HB) and (E)-4-oxo-2-hexenal (KA)) and sunflower (Helianthus annuus) volatiles (pinene, sabinene and phenylacetaldehyde) as sticky trap baits for the tarnished plant bug in strawberry fields of the Laurentians in Southern Québec, Canada. The pheromones decreased the number of tarnished plant bug caught in the traps compared to a control. The sunflower volatile did not have any effect on the number of individuals caught in the traps. Different Lygus species use HB, E2HB and KA in different ratios for sexual signals and alarm signals and for species recognition. GC-MS analysis of the sex pheromone bait revealed that the ratios between the three main compounds did not match the intended ratio for the L. lineolaris species. This mismatch probably explains our results. Individuals were not attracted to sunflower volatiles. Our results point to the difficulty of manufacturing and using sex pheromones as baits. Future work should assess the effect of several pheromone ratios. 相似文献
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Thaila Fernanda dos Reis Jo?o Filipe Menino Vinícius Leite Pedro Bom Neil Andrew Brown Ana Cristina Colabardini Marcela Savoldi Maria Helena S. Goldman Fernando Rodrigues Gustavo Henrique Goldman 《PloS one》2013,8(11)
To characterize the mechanisms involved in glucose transport, in the filamentous fungus Aspergillus nidulans, we have identified four glucose transporter encoding genes hxtB-E. We evaluated the ability of hxtB-E to functionally complement the Saccharomyces cerevisiae EBY.VW4000 strain that is unable to grow on glucose, fructose, mannose or galactose as single carbon source. In S. cerevisiae HxtB-E were targeted to the plasma membrane. The expression of HxtB, HxtC and HxtE was able to restore growth on glucose, fructose, mannose or galactose, indicating that these transporters accept multiple sugars as a substrate through an energy dependent process. A tenfold excess of unlabeled maltose, galactose, fructose, and mannose were able to inhibit glucose uptake to different levels (50 to 80 %) in these s. cerevisiae complemented strains. Moreover, experiments with cyanide-m-chlorophenylhydrazone (CCCP), strongly suggest that hxtB, -C, and –E mediate glucose transport via active proton symport. The A. nidulans ΔhxtB, ΔhxtC or ΔhxtE null mutants showed ~2.5-fold reduction in the affinity for glucose, while ΔhxtB and -C also showed a 2-fold reduction in the capacity for glucose uptake. The ΔhxtD mutant had a 7.8-fold reduction in affinity, but a 3-fold increase in the capacity for glucose uptake. However, only the ΔhxtB mutant strain showed a detectable decreased rate of glucose consumption at low concentrations and an increased resistance to 2-deoxyglucose. 相似文献
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ATP-binding cassette (ABC) transporters constitute one of the largest families of integral membrane proteins, including importers, exporters, channels, receptors, and mechanotransducers, which fulfill a plethora of cellular tasks. ABC transporters are involved in nutrient uptake, hormone and xenobiotic secretion, ion and lipid homeostasis, antibiotic and multidrug resistance, and immunity, thus making them prime candidates for cellular regulation and pharmacological intervention. In recent years, numerous various structures of ABC transporters have been determined by X-ray crystallography or cryogenic electron microscopy. Structural and functional studies revealed that various auxiliary domains play key roles for the subcellular localization of ABC transporters and recruitment of regulatory factors. In this regard, the ABC transporter associated with antigen processing TAP stands out. In the endoplasmic reticulum membrane, TAP assembles the peptide-loading complex, which serves as a central checkpoint in adaptive immunity. Here, we discuss the various aspects of auxiliary domains for ABC transporter function with a particular emphasis on the structure of the peptide-loading complex, which is crucial for antigen presentation in adaptive immunity. 相似文献
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物质运输系统是植物和环境间相互作用的方法之一,受膜上接合的转运蛋白的控制.植物中数量最多的膜转运蛋白是接合ATP的盒式蛋白,简称ABC蛋白.通过核基困BLAST同源序列查询,在拟南芥中发现了60个开放阅读框架(ORFs)编码ABC转运蛋白,在编码的60个蛋白上发现有89个ABC结构域. 相似文献
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Thomas J. Henry 《ZooKeys》2012,(220):1-114
The phyline plant bug genus Tytthus Fieber, previously containing 19 species, is revised. Isoproba Osborn and Drake, 1915, incorrectly placed in the subfamily Bryocorinae, tribe Dicyphini, is synonymized as a junior synonym of Tytthus Fieber, syn. n.; the only included species, Isoproba picea Osborn and Drake is transferred to Tytthus, comb. n., as the senior synonym of Tytthus hondurensis Carvalho, syn. n.; and Tytthus koreanus Josifov and Kerzhner, 1972 is synonymized with Tytthus chinensis (Stål 1860), syn. n.; and a lectotype for Tytthus parviceps is designated. The six new species Tytthus femoralis from Cuba, Ecuador, Guatemala, Jamaica, Mexico, and Peru,Tytthus fuscicornis from New Mexico (USA), Tytthus mexicanus from Mexico, Tytthus pallidus from Brazil and Panama, Tytthus uniformis from Arizona and New Mexico (USA), and Tytthus wheeleri from the eastern United States are described, bringing the total number of species for the genus to 24. A color adult habitus illustration of Tytthus wheeleri, color photographs for each species (except Tytthus juturnaiba Carvalho and Wallerstein), illustrations of male genitalia, scanning electron photomicrographs of selected structures of certain species, and an identification key are provided to facilitate species recognition. A phylogenetic analysis is offered to help infer relationships. 相似文献
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植物ABC和MATE转运蛋白与次生代谢物跨膜转运 总被引:1,自引:0,他引:1
植物产生大量的次生代谢物,不但对植物自身适应性具有极其重要的作用,而且有着巨大的实用价值。次生代谢物的跨膜转运是植物次生代谢工程研究的一个新兴领域。ABC(ATP-binding cassette)和MATE(multidrug and toxin extrusion)转运蛋白与生物体内多种物质的跨膜转运有关,在植物次生代谢物的运输过程中均发挥着重要作用。文章主要综述了ABC和MATE转运蛋白在植物次生代谢物跨膜转运中的研究进展。 相似文献
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Eun-Yeong Bergsdorf Anselm A. Zdebik Thomas J. Jentsch 《The Journal of biological chemistry》2009,284(17):11184-11193
Members of the CLC gene family either function as chloride channels or as
anion/proton exchangers. The plant AtClC-a uses the pH gradient across the
vacuolar membrane to accumulate the nutrient
in this organelle. When AtClC-a was
expressed in Xenopus oocytes, it mediated
exchange
and less efficiently mediated Cl–/H+ exchange.
Mutating the “gating glutamate” Glu-203 to alanine resulted in an
uncoupled anion conductance that was larger for Cl– than
. Replacing the “proton
glutamate” Glu-270 by alanine abolished currents. These could be
restored by the uncoupling E203A mutation. Whereas mammalian endosomal ClC-4
and ClC-5 mediate stoichiometrically coupled
2Cl–/H+ exchange, their
transport is largely uncoupled from
protons. By contrast, the AtClC-a-mediated
accumulation in plant vacuoles
requires tight
coupling. Comparison of AtClC-a and ClC-5 sequences identified a proline in
AtClC-a that is replaced by serine in all mammalian CLC isoforms. When this
proline was mutated to serine (P160S), Cl–/H+
exchange of AtClC-a proceeded as efficiently as
exchange, suggesting a role of this residue in
exchange. Indeed, when the corresponding serine of ClC-5 was replaced by
proline, this Cl–/H+ exchanger gained efficient
coupling. When inserted into the model Torpedo chloride channel
ClC-0, the equivalent mutation increased nitrate relative to chloride
conductance. Hence, proline in the CLC pore signature sequence is important
for
exchange and conductance both in
plants and mammals. Gating and proton glutamates play similar roles in
bacterial, plant, and mammalian CLC anion/proton exchangers.CLC proteins are found in all phyla from bacteria to humans and either
mediate electrogenic anion/proton exchange or function as chloride channels
(1). In mammals, the roles of
plasma membrane CLC Cl– channels include transepithelial
transport
(2–5)
and control of muscle excitability
(6), whereas vesicular CLC
exchangers may facilitate endocytosis
(7) and lysosomal function
(8–10)
by electrically shunting vesicular proton pump currents
(11). In the plant
Arabidopsis thaliana, there are seven CLC isoforms
(AtClC-a–AtClC-g)2
(12–15),
which may mostly reside in intracellular membranes. AtClC-a uses the pH
gradient across the vacuolar membrane to transport the nutrient nitrate into
that organelle (16). This
secondary active transport requires a tightly coupled
exchange. Astonishingly, however, mammalian ClC-4 and -5 and bacterial EcClC-1
(one of the two CLC isoforms in Escherichia coli) display tightly
coupled Cl–/H+ exchange, but anion flux is largely
uncoupled from H+ when
is transported
(17–21).
The lack of appropriate expression systems for plant CLC transporters
(12) has so far impeded
structure-function analysis that may shed light on the ability of AtClC-a to
perform efficient
exchange. This dearth of data contrasts with the extensive mutagenesis work
performed with CLC proteins from animals and bacteria.The crystal structure of bacterial CLC homologues
(22,
23) and the investigation of
mutants (17,
19–21,
24–29)
have yielded important insights into their structure and function. CLC
proteins form dimers with two largely independent permeation pathways
(22,
25,
30,
31). Each of the monomers
displays two anion binding sites
(22). A third binding site is
observed when a certain key glutamate residue, which is located halfway in the
permeation pathway of almost all CLC proteins, is mutated to alanine
(23). Mutating this gating
glutamate in CLC Cl– channels strongly affects or even
completely suppresses single pore gating
(23), whereas CLC exchangers
are transformed by such mutations into pure anion conductances that are not
coupled to proton transport
(17,
19,
20). Another key glutamate,
located at the cytoplasmic surface of the CLC monomer, seems to be a hallmark
of CLC anion/proton exchangers. Mutating this proton glutamate to
nontitratable amino acids uncouples anion transport from protons in the
bacterial EcClC-1 protein (27)
but seems to abolish transport altogether in mammalian ClC-4 and -5
(21). In those latter
proteins, anion transport could be restored by additionally introducing an
uncoupling mutation at the gating glutamate
(21).The functional complementation by AtClC-c and -d
(12,
32) of growth phenotypes of a
yeast strain deleted for the single yeast CLC Gef1
(33) suggested that these
plant CLC proteins function in anion transport but could not reveal details of
their biophysical properties. We report here the first functional expression
of a plant CLC in animal cells. Expression of wild-type (WT) and mutant
AtClC-a in Xenopus oocytes indicate a general role of gating and
proton glutamate residues in anion/proton coupling across different isoforms
and species. We identified a proline in the CLC signature sequence of AtClC-a
that plays a crucial role in
exchange. Mutating it to serine, the residue present in mammalian CLC proteins
at this position, rendered AtClC-a Cl–/H+ exchange
as efficient as
exchange. Conversely, changing the corresponding serine of ClC-5 to proline
converted it into an efficient
exchanger. When proline replaced the critical serine in Torpedo
ClC-0, the relative conductance of
this model Cl– channel was drastically increased, and
“fast” protopore gating was slowed. 相似文献
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The chromosome of Thermotoga maritima strain MSB8 was found to have an 8,870-bp region that is not present in its published sequence. The isolate that was sequenced by The Institute for Genomic Research (TIGR) in 1999 is apparently a laboratory variant of the isolate deposited at the Deutsche Sammlung von Mikroorganismen und Zellkulturen (DSM 3109) in 1986. This newly sequenced region from the DSMZ culture was located between TM1848 (cbp, cellobiose phosphorylase) and TM1847 (the 3′ end of a truncated ROK regulator). The new region contained seven genes: a beta glucosidase gene (bglA), three trehalose ABC transporter genes (treEFG), three xylose ABC transporter genes (xylE2F2K2), and the 5′ end of a gene encoding the ROK regulator TM1847. We present a new differential scanning fluorimetry method using a low pH that was necessary to screen potential ligands of these exceptionally thermostable periplasmic substrate-binding proteins. This method showed that trehalose, sucrose, and glucose stabilized TreE, and their binding was confirmed by measuring changes in intrinsic fluorescence upon ligand binding. Binding constants of 0.024 μM, 0.300 μM, and 56.78 μM at 60°C, respectively, were measured. XylE2 ligands were similarly determined and xylose, glucose, and fucose bound with Kd (dissociation constant) values of 0.042 μM, 0.059 μM, and 1.436 μM, respectively. Since there is no discernible phenotypic difference between the TIGR isolate and the DSMZ isolate despite the variance in their genomes, we propose that they be called genomovars: T. maritima MSB8 genomovar TIGR and T. maritima MSB8 genomovar DSM 3109, respectively. 相似文献
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Leslie Cuthbertson Veronica Kos Chris Whitfield 《Microbiology and molecular biology reviews》2010,74(3):341-362
Summary: Complex glycoconjugates play critical roles in the biology of microorganisms. Despite the remarkable diversity in glycan structures and the bacteria that produce them, conserved themes are evident in the biosynthesis-export pathways. One of the primary pathways involves representatives of the ATP-binding cassette (ABC) transporter superfamily. These proteins are responsible for the export of a wide variety of cell surface oligo- and polysaccharides in both Gram-positive and Gram-negative bacteria. Recent investigations of the structure and function of ABC transporters involved in the export of lipopolysaccharide O antigens have revealed two fundamentally different strategies for coupling glycan polymerization to export. These mechanisms are distinguished by the presence (or absence) of characteristic nonreducing terminal modifications on the export substrates, which serve as chain termination and/or export signals, and by the presence (or absence) of a discrete substrate-binding domain in the nucleotide-binding domain polypeptide of the ABC transporter. A bioinformatic survey examining ABC exporters from known oligo- and polysaccharide biosynthesis loci identifies conserved nucleotide-binding domain protein families that correlate well with themes in the structures and assembly of glycans. The familial relationships among the ABC exporters generate hypotheses concerning the biosynthesis of structurally diverse oligo- and polysaccharides, which play important roles in the biology of bacteria with different lifestyles. 相似文献
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ABC转运蛋白是一类利用ATP水解能量,逆浓度方向将一系列化合物转运通过膜结构的膜蛋白,这一类蛋白能转运离子,糖,氨基酸,维生素,多肽,多糖,激素,脂类及生物异源物质.P-糖蛋白(P-gp)、多药耐药相关蛋白(MRP)和乳腺癌耐药蛋白(BCRP)等ABC转运蛋白还具有转运抗癌药物的能力,因此对化疗的有效性有负面的影响.近年来,许多研究涉及到如何逆转由ABC转
运蛋白引起的肿瘤多药耐药性.本文概述了近年来在蛋白水平,mRNA水平或DNA水平上对ABC转运蛋白调控的研究. 相似文献
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The ATP-binding cassette (ABC) family of membrane transport proteins is the largest class of transporters in humans (48 members).
The majority of ABC transporters function at the cell surface. Therefore, defective folding and trafficking of the protein
to the cell surface can lead to serious health problems. The classic example is cystic fibrosis (CF). In most CF patients,
there is a deletion of Phe508 in the CFTR protein (ΔF508 CFTR) that results in defective folding and intracellular retention
of the protein (processing mutant). A potential treatment for most patients with CF would be to use a ligand(s) of CFTR that
acts a pharmacological chaperone to correct the folding defect. The feasibility of such an approach was first demonstrated
with the multidrug transporter P-glycoprotein (P-gp), an ABC transporter, and a sister protein of CFTR. It was found that
P-gps with mutations at sites equivalent to those found in CFTR processing mutants were rescued when they were expressed in
the presence of drug substrates or modulators of P-gp. These compounds acted as pharmacological chaperones and functioned
by promoting interactions among the various domains in the protein during the folding process. Several groups have attempted
to identify compounds that could rescue the folding defect in ΔF508 CFTR. The best compound identified through high-throughout
screening is a quinazoline derivative (CFcor-325). Expression of ΔF508 CFTR as well as other CFTR processing mutants in the
presence of 1 μM CFcor-325 promoted folding and trafficking of the mutant proteins to the cell surface in an active conformation.
Therefore, CFcor-325 and other quinazoline derivates could be important therapeutic compounds for the treatment of CF. 相似文献
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