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51.
Dev K. Singh Avia Rosenhouse-Dantsker Colin G. Nichols Decha Enkvetchakul Irena Levitan 《The Journal of biological chemistry》2009,284(44):30727-30736
Our earlier studies have shown that channel activity of Kir2 subfamily of inward rectifiers is strongly suppressed by the elevation of cellular cholesterol. The goal of this study is to determine whether cholesterol suppresses Kir channels directly. To achieve this goal, purified prokaryotic Kir (KirBac1.1) channels were incorporated into liposomes of defined lipid composition, and channel activity was assayed by 86Rb+ uptake. Our results show that 86Rb+ flux through KirBac1.1 is strongly inhibited by cholesterol. Incorporation of 5% (mass cholesterol/phospholipid) cholesterol into the liposome suppresses 86Rb+ flux by >50%, and activity is completely inhibited at 12–15%. However, epicholesterol, a stereoisomer of cholesterol with similar physical properties, has significantly less effect on KirBac-mediated 86Rb+ uptake than cholesterol. Furthermore, analysis of multiple sterols suggests that cholesterol-induced inhibition of KirBac1.1 channels is mediated by specific interactions rather than by changes in the physical properties of the lipid bilayer. In contrast to the inhibition of KirBac1.1 activity, cholesterol had no effect on the activity of reconstituted KscA channels (at up to 250 μg/mg of phospholipid). Taken together, these observations demonstrate that cholesterol suppresses Kir channels in a pure protein-lipid environment and suggest that the interaction is direct and specific.Inwardly rectifying potassium channels (Kir) are known to play critical roles in the regulation of multiple cellular functions including membrane excitability, heart rate, and vascular tone (1–3). Kir channels are classified into seven subfamilies (Kir1–7) identified by distinct biophysical properties and sensitivities to different regulators (2). Our earlier studies have shown that Kir2 channels, one of the major subfamilies of Kir that are responsible for maintaining membrane potential in a variety of cell types, are strongly suppressed by the elevation of membrane cholesterol (4, 5). Cholesterol-induced suppression of Kir2 was first observed in aortic endothelial cells (4), in which resting K+ conductance is dominated by Kir2.1 and Kir2.2 channels (6), and then when channels were heterologously expressed in Chinese hamster ovary cells (5, 7). Furthermore, the same effect was observed ex vivo in endothelial cells and bone marrow-derived progenitor cells isolated from hypercholesterolemic pigs (8, 9).In terms of the mechanism, the first insights came from comparing the effects of cholesterol and of its chiral analogue, epicholesterol. Although the two sterols are known to have almost identical effects on the biophysical properties of the lipid bilayer (10, 11), their impact on Kir activity is completely different; partial substitution of endogenous cholesterol with epicholesterol resulted in significant increase in Kir current in endothelial cells (4). These observations suggest that specific sterol-protein interactions may be involved in the cholesterol sensitivity of Kir2 channels. However, in the complex environment of the plasma membrane, cholesterol may interact not only with the channels themselves but also with other proteins, which in turn may regulate the activity of the channels. In the cellular environment, therefore, it is impossible to discriminate between direct channel-cholesterol interactions and indirect effects. Moreover, it is impossible to define the actual concentrations of cholesterol in any given membrane compartment. To quantitatively test direct cholesterol-protein interactions, it is necessary to examine sensitivity of pure Kir channels to membrane cholesterol in a membrane of defined lipid composition. To date, only the cytoplasmic domains of several mammalian Kir channels have been purified (Kir2.1, Kir3.1, and Kir3.2) (12–15). We therefore concentrate in this study on the effect of cholesterol on two bacterial K+ channels that differ in the level of their homology to mammalian Kir channels, KirBac1.1 and KcsA. KirBac channels have high sequence homology with mammalian Kirs (e.g. 52% homology between KirBac1.1 and Kir2.1; see Fig. 7A) and have now been extensively used as structural models of mammalian Kir channels (3, 16, 17). The sequence similarity between KcsA and mammalian K channels lies mainly in the transmembrane domain (18). The overall sequence homology of KcsA to mammalian Kir channels is relatively low (e.g. 22% homology between KcsA and Kir2.1; see Fig. 7A), with an entirely different cytoplasmic domain structure.Open in a separate windowFIGURE 7.Cholesterol has no effect on KcsA-mediated 86Rb+ uptake. A, time courses of 86Rb+ uptake into liposomes reconstituted with 50 μg of cholesterol/mg of PL and as compared with liposomes containing no cholesterol (control). Both batches of liposomes contained 5 μg of KcsA/mg of PL. Blank liposomes contain no protein. The points represent averages of three independent experiments (means ± S.D.). B, normalized time courses of 86Rb+ uptake in liposomes incorporating 50, 150, and 250 μg of cholesterol/mg of PL. C, maximal uptake of 86Rb+ after 240 s in liposomes containing 10, 25, 50, 100, 150, 200, and 250 μg of cholesterol/mg of PL normalized to control (means ± S.D. of 3–5 independent experiments; *, p < 0.05). DPM, disintegrations per minute.Here we show that, similarly to Kir2 channels, prokaryotic Kir channels incorporated into liposomes are strongly suppressed by an increase in membrane cholesterol. Furthermore, the sensitivity of prokaryotic Kir to cholesterol is stereo-selective to cholesterol optical analogues. In contrast, KscA channels are insensitive to membrane cholesterol. These observations suggest that cholesterol directly suppresses Kir channels. 相似文献
52.
PcaK, a high-affinity permease for the aromatic compounds 4-hydroxybenzoate and protocatechuate from Pseudomonas putida. 总被引:1,自引:0,他引:1 下载免费PDF全文
PcaK is a transporter and chemoreceptor protein from Pseudomonas putida that is encoded as part of the beta-ketoadipate pathway regulon for aromatic acid degradation. When expressed in Escherichia coli, PcaK was localized to the membrane and catalyzed the accumulation of two aromatic substrates, 4-hydroxybenzoate and protocatechuate, against a concentration gradient. Benzoate inhibited 4-hydroxybenzoate uptake but was not a substrate for PcaK-catalyzed transport. A P. putida pcaK mutant was defective in its ability to accumulate micromolar amounts of 4-hydroxybenzoate and protocatechuate. The mutant was also impaired in growth on millimolar concentrations of these aromatic acids. In contrast, the pcaK mutant grew at wild-type rates on benzoate. The Vmax for uptake of 4-hydroxybenzoate was at least 25 nmol/min/mg of protein, and the Km was 6 microM. PcaK-mediated transport is energized by the proton motive force. These results show that although aromatic acids in the undissociated (uncharged) form can diffuse across bacterial membranes, high-specificity active transport systems probably also contribute to the ability of bacteria to grow on the micromolar concentrations of these compounds that are typically present in soil. A variety of aromatic molecules, including naturally occurring lignin derivatives and xenobiotics, are metabolized by bacteria and may be substrates for transport proteins. The characterization of PcaK provides a foundation for understanding active transport as a critical step in the metabolism of aromatic carbon sources. 相似文献
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Distinct morphological variation is often associated with variation in life histories within and among populations of both plants and animals. In this study, we examined the heritability of morphology in three hatchery strains of brook trout (Salvelinus fontinalis), which were historically or are currently used for stocking and supplementation of both migratory and resident ecotypes in the upper Great Lakes region. In a common garden experiment, significant variation in body morphology was observed within and across populations sampled at three time periods. The most notable differences among strains were differences in dorso-ventral body depth and the shape of the caudal peduncle, with some differences in the anterior-posterior placement of the dorsal and ventral fins. Variation with and among 70 half-sib families indicates that heritabilities of morphology and body size were significant at most developmental time points both within and across strains. Heritabilities for morphological characters within strains ranged from 0 to 0.95 across time points. Significant within-strain heritabilities for length ranged from 0 to 0.93 across time points and for weight ranged from 0 to 0.88. Significant additive genetic variation exists within and across hatchery brook trout strains for morphology and size, indicating that these traits are capable of responding to natural or artificial selection. 相似文献
55.
Andrew J. LAWRENCE Scott A. Carleton William R. Gould Clay T. Nichols 《The Journal of wildlife management》2021,85(6):1256-1266
Anthropogenic features increasingly affect ecological processes with increasing human demand for natural resources. Such effects also have the potential to vary depending on the sex and age of an individual because of inherent behavioral and life experience differences. For the lesser prairie-chicken (Tympanuchus pallidicinctus), studies on male survival are limited because most previous research has been focused on females. To better understand patterns of lesser prairie-chicken survival in habitat with varying levels of anthropogenic infrastructure associated with oil and natural gas development, we monitored survival of 178 radio-tagged male and female lesser prairie-chickens in eastern New Mexico, USA, from 2013 to 2015. We examined the relationships of shrub cover, proximity to and density of anthropogenic features (i.e., utility poles), displacement of natural vegetation by anthropogenic features (i.e., area of roads and well pads), and individual demographics (i.e., sex, age) with lesser prairie-chicken survival. Furthermore, we categorized the probable cause of mortality and examined its relationship with oil and gas development intensity (indexed by utility pole density) within 1,425 m of an individual's mortality site or final observed location. We predicted that survival would be lower for individuals exposed to greater levels of anthropogenic features, and that males and subadults would be more negatively affected than females and adults because of increased exposure to predators during the lekking season and naiveté. Relationships between survival and utility pole density, sex, and age were supported in our top-ranked models, whereas models including other anthropogenic and natural features (i.e., roads, well pads, shrub cover) received little support. We predicted a substantial decrease in adult and subadult male survival with increasing densities of utility poles. The relationship between survival and utility pole density for females was weaker and not as clearly supported as for males. We did not find a detectable difference in utility pole counts among probable mortality causes. Our findings highlight the importance of including male lesser prairie-chickens in research and conservation planning, and the negative effect that high densities of anthropogenic features can have on lesser prairie-chicken survival. © 2021 The Wildlife Society. 相似文献
56.
Wheatley KE Nichols PD Hindell MA Harcourt RG Bradshaw CJ 《Physiological and biochemical zoology : PBZ》2008,81(5):651-662
A major source of energy during lactation in mammals is provided through the mobilization of blubber fatty acids (FAs). We investigated the extent to which FAs were mobilized to support both maternal metabolic requirements and milk production in the Weddell seal and how this was reflected in the FA composition of the pup's blubber at the end of lactation (EL). FA composition of postpartum female blubber was similar in the 2 yr of study (2002 and 2003) but differed markedly by EL. Pup blubber FAs (at EL) were also different between years and did not match that of the mother's milk or blubber. Milk FA composition changed during lactation, which may have been a reflection of an increase in pup energy demands at different stages of development. In addition, there was evidence of feeding by some females during lactation, with higher levels of some FAs in the milk than in the blubber. Our results indicate that differential mobilization of FAs occurred in lactating Weddell seals and that this was related to total body lipid stores at postpartum. Furthermore, growing pups did not store FAs unmodified, providing evidence that selective use does occur and also that using FA composition to elucidate dietary sources may be problematic in growing individuals. 相似文献
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Cloning and sequencing of Escherichia coli ubiC and purification of chorismate lyase. 总被引:4,自引:0,他引:4 下载免费PDF全文
In Escherichia coli, chorismate lyase catalyzes the first step in ubiquinone biosynthesis, the conversion of chorismate to 4-hydroxybenzoate. 4-Hydroxybenzoate is converted to 3-octaprenyl-4-hydroxybenzoate by 4-hydroxybenzoate octaprenyltransferase. These two enzymes are encoded by ubiC and ubiA, respectively, and have been reported to map near one another at 92 min on the E. coli chromosome. We have cloned the ubiCA gene cluster and determined the nucleotide sequence of ubiC and a portion of ubiA. The nucleotide sequence abuts with a previously determined sequence that encodes a large portion of ubiA. ubiC was localized by subcloning, and overproducing plasmids were constructed. Overexpression of ubiC allowed the purification of chorismate lyase to homogeneity, and N-terminal sequence analysis of chorismate lyase unambiguously defined the beginning of the ubiC coding region. Although chorismate lyase showed no significant amino acid sequence similarity to 4-amino-4-deoxychorismate lyase (4-amino-4-deoxychroismate----4-aminobenzoate), the product of E. coli pabC, chorismate lyase overproduction could complement the growth requirement for 4-aminobenzoate of a pabC mutant strain. Of the several enzymes that convert chorismate to intermediates of E. coli biosynthetic pathways, chorismate lyase is the last to be isolated and characterized. 相似文献
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