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121.
122.
Sharp KH Schneider S Cockayne A Paoli M 《The Journal of biological chemistry》2007,282(14):10625-10631
Pathogens such as Staphylococcus aureus require iron to survive and have evolved specialized proteins to steal heme from their host. IsdC is the central conduit of the Isd (iron-regulated surface determinant) multicomponent heme uptake machinery; staphylococcal cell-surface proteins such as IsdA, IsdB, and IsdH are thought to funnel their molecular cargo to IsdC, which then mediates the transfer of the iron-containing nutrient to the membrane translocation system IsdDEF. The structure of the heme-IsdC complex reveals a novel heme site within an immunoglobulin-like domain and sheds light on its binding mechanism. The folding topology is reminiscent of the architecture of cytochrome f, cellobiose dehydrogenase, and ethylbenzene dehydrogenase; in these three proteins, the heme is bound in an equivalent position, but interestingly, IsdC features a distinct binding pocket with the ligand located next to the hydrophobic core of the beta-sandwich. The iron is coordinated with a tyrosine surrounded by several non-polar side chains that cluster into a tightly packed proximal side. On the other hand, the distal side is relatively exposed with a short helical peptide segment that acts as a lip clasping onto almost half of the porphyrin plane. This structural feature is argued to play a role in the mechanism of binding and release by switching to an open conformation and thus loosening the interactions holding the heme. The structure of the heme-IsdC complex provides a template for the understanding of other proteins, such as IsdA, IsdB, and IsdH, that contain the same heme-binding module as IsdC, known as the NEAT (near transporter) domain. 相似文献
123.
Competition for pollination is thought to be an important factor structuring flowering in many plant communities, particularly
among plant taxa with morphologically similar and easily accessible flowers. We examined the potential for heterospecific
pollen transfer (HPT) in a community of four Acacia species in a highly seasonal tropical habitat in Mexico. Partitioning of pollen flow among sympatric species appears to be
achieved, in part, through segregation of flowering in seasonal time, and interspecific differences in pollinator guilds.
However, two coflowering species (Acacia macracantha and Acacia angustissima) shared multiple flower visitors, raising the possibility of HPT. Each of these coflowering species showed high intraspecific
daily synchrony in pollen release, but dehisce at different times of day. Pollinators rapidly harvested available pollen from
one species before abandoning it to visit the flowers of the second later in the day. The activity of shared pollinators,
predominantly bees, is thus structured throughout the day, and potential for HPT reduced. Suggestive evidence in favour of
a resource partitioning explanation for this pattern is provided by the fact that A. macracantha showed significantly greater intraspecific synchrony when coflowering with a potential competitor (A. angustissima) than when flowering alone. We discuss our results in light of previous work on coflowering acacia assemblages in Tanzania
and Australia.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
相似文献
Nigel E. RaineEmail: |
124.
125.
Reconstituted nicotinic acetylcholine receptors (nAChRs) exhibit significant gain-of-function upon addition of cholesterol to reconstitution mixtures, and cholesterol affects the organization of nAChRs within domain-forming membranes, but whether nAChR partitions to cholesterol-rich liquid-ordered (“raft” or lo) domains or cholesterol-poor liquid-disordered (ldo) domains is unknown. We use coarse-grained molecular dynamics simulations to observe spontaneous interactions of cholesterol, saturated lipids, and polyunsaturated (PUFA) lipids with nAChRs. In binary Dipalmitoylphosphatidylcholine:Cholesterol (DPPC:CHOL) mixtures, both CHOL and DPPC acyl chains were observed spontaneously entering deep “non-annular” cavities in the nAChR TMD, particularly at the subunit interface and the β subunit center, facilitated by the low amino acid density in the cryo-EM structure of nAChR in a native membrane. Cholesterol was highly enriched in the annulus around the TMD, but this effect extended over (at most) 5–10 Å. In domain-forming ternary mixtures containing PUFAs, the presence of a single receptor did not significantly affect the likelihood of domain formation. nAChR partitioned to any cholesterol-poor ldo domain that was present, regardless of whether the ldo or lo domain lipids had PC or PE headgroups. Enrichment of PUFAs among boundary lipids was positively correlated with their propensity for demixing from cholesterol-rich phases. Long n-3 chains (tested here with Docosahexaenoic Acid, DHA) were highly enriched in annular and non-annular embedded sites, partially displacing cholesterol and completely displacing DPPC, and occupying sites even deeper within the bundle. Shorter n-6 chains were far less effective at displacing cholesterol from non-annular sites. 相似文献
126.
Commodified kin: death,mourning, and competing claims on the bodies of organ donors in the United States 总被引:1,自引:0,他引:1
Sharp LA 《American anthropologist》2001,103(1):112-133
A pronounced disjunction characterizes symbolic constructions of the cadaveric donor body in the United States, where procurement professionals and surviving donor kin vie with one another in their desires to honor this unusual category of the dead. Of special concern is the medicalized commodification of donor bodies, a process that shapes both their social worth and emotional value. Among professionals, metaphorical thinking is key: death and body fragmentation are cloaked in ecological imagery that stresses renewal and rebirth. Such objectification also obscures the origins of transplantable organs, renders individual donors anonymous, and silences kin who mourn their dead. In response, donor kin have grown increasingly assertive, generating alternative public mortuary forms that exclude professional mediators. In so doing, they challenge the medical assumption that anonymity is central to transplantation's continued success. Through donor quilts and Web cemeteries, they proclaim the personal identities of donors who, at times, may speak beyond the grave, offering critiques of donation as a socio-medical process in the United States, [organ transplantation, medical technology, body parts, commodification, United States] 相似文献
127.
R Dajani S Sharp S Graham S S Bethell R M Cooke D J Jamieson M W Coughtrie 《Protein expression and purification》1999,16(1):11-18
Sulfation, catalyzed by members of the sulfotransferase enzyme family, is a major metabolic pathway which modulates the biological activity of numerous endogenous and xenobiotic chemicals. A number of these enzymes have been expressed in prokaryotic and eukaryotic systems to produce protein for biochemical and physical characterization. However, the effective use of heterologous expression systems to produce recombinant enzymes for such purposes depends upon the expressed protein faithfully representing the "native" protein. For human sulfotransferases, little attention has been paid to this despite the widespread use of recombinant enzymes. Here we have validated a number of heterologous expression systems for producing the human dopamine-metabolizing sulfotransferase SULT1A3, including Escherichia coli, Saccharomyces cerevisiae, COS-7, and V79 cells, by comparison of Km values of the recombinant enzyme in cell extracts with enzyme present in human platelets and with recombinant enzyme purified to homogeneity following E. coli expression. This is the first report of heterologous expression of a cytosolic sulfotransferase in yeast. Expression of SULT1A3 was achieved in all cell types, and the Km for dopamine under the conditions applied was approximately 1 microM in all heterologous systems studied, which compared favorably with the value determined with human platelets. We also determined the subunit and native molecular weights of the purified recombinant enzyme by SDS-PAGE, electrospray ionization mass spectrometry, dynamic light scattering, and sedimentation analysis. The enzyme purified following expression in E. coli existed as a homodimer with Mr approximately 68,000 as determined by light scattering and sedimentation analysis. Mass spectrometry revealed two species with experimentally determined masses of 34,272 and 34,348 which correspond to the native protein with either one or two 2-mercaptoethanol adducts. We conclude that the enzyme expressed in prokaryotic and eukaryotic heterologous systems, and also purified from E. coli, equates to that which is found in human tissue preparations. 相似文献
128.
Calbindin-D(28k) controls [Ca(2+)](i) and insulin release. Evidence obtained from calbindin-d(28k) knockout mice and beta cell lines 总被引:3,自引:0,他引:3
Sooy K Schermerhorn T Noda M Surana M Rhoten WB Meyer M Fleischer N Sharp GW Christakos S 《The Journal of biological chemistry》1999,274(48):34343-34349
The role of the calcium-binding protein, calbindin-D(28k) in potassium/depolarization-stimulated increases in the cytosolic free Ca(2+) concentration ([Ca(2+)](i)) and insulin release was investigated in pancreatic islets from calbindin-D(28k) nullmutant mice (knockouts; KO) or wild type mice and beta cell lines stably transfected and overexpressing calbindin. Using single islets from KO mice and stimulation with 45 mM KCl, the peak of [Ca(2+)](i) was 3.5-fold greater in islets from KO mice compared with wild type islets (p < 0.01) and [Ca(2+)](i) remained higher during the plateau phase. In addition to the increase in [Ca(2+)](i) in response to KCl there was also a significant increase in insulin release in islets isolated from KO mice. Evidence for modulation by calbindin of [Ca(2+)](i) and insulin release was also noted using beta cell lines. Rat calbindin was stably expressed in betaTC-3 and betaHC-13 cells. In response to depolarizing concentrations of K(+), insulin release was decreased by 45-47% in calbindin expressing betaTC cells and was decreased by 70-80% in calbindin expressing betaHC cells compared with insulin release from vector transfected betaTC or betaHC cells (p < 0.01). In addition, the K(+)-stimulated intracellular calcium peak was markedly inhibited in calbindin expressing betaHC cells compared with vector transfected cells (225 nM versus 1,100 nM, respectively). Buffering of the depolarization-induced rise in [Ca(2+)](i) was also observed in calbindin expressing betaTC cells. In summary, our findings, using both isolated islets from calbindin-D(28k) KO mice and beta cell lines, establish a role for calbindin in the modulation of depolarization-stimulated insulin release and suggest that calbindin can control the rate of insulin release via regulation of [Ca(2+)](i). 相似文献
129.
130.
Pickard RT Strifler BA Kramer RM Sharp JD 《The Journal of biological chemistry》1999,274(13):8823-8831
Two new cloned human cDNAs encode paralogs of the 85-kDa cytosolic phospholipase A2 (cPLA2). We propose to call these cPLA2beta (114 kDa) and cPLA2gamma (61 kDa), giving the name cPLA2alpha to the well known 85-kDa enzyme. cPLA2beta mRNA is expressed more highly in cerebellum and pancreas and cPLA2gamma more highly in cardiac and skeletal muscle. Sequence-tagged site mapping places cPLA2beta on chromosome 15 in a region near a phosphoinositol bisphosphate phosphatase. The mRNA for cPLA2beta is spliced only at a very low level, and Northern blots in 24 tissues show exclusively the unspliced form. cPLA2beta has much lower activity on 2-arachidonoyl-phosphatidylcholine liposomes than either of the other two enzymes. Its sequence contains a histidine motif characteristic of the catalytic center of caspase proteases of the apoptotic cascade but no region characteristic of the catalytic cysteine. Sequence-tagged site mapping places cPLA2gamma on chromosome 19 near calmodulin. cPLA2gamma lacks the C2 domain, which gives cPLA2alpha its Ca2+ sensitivity, and accordingly cPLA2gamma has no dependence upon calcium, although cPLA2beta does. cPLA2gamma contains a prenyl group-binding site motif and appears to be largely membrane-bound. cPLA2alpha residues activated by phosphorylation do not appear to be well conserved in either new enzyme. In contrast, all three previously known catalytic residues, as well as one additional essential arginine, Arg-566 in cPLA2alpha, are conserved in both new enzyme sequences. Mutagenesis shows strong dependence on these residues for catalytic activity of all three enzymes. 相似文献