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51.
This paper describes a rapid and sensitive method to determine inorganic phosphate, even in the presence of labile organic phosphate compounds and large quantities of proteins. The method eliminates the use of sodium arsenite, a highly toxic compound, substituting bismuth citrate for it to stabilize the phosphomolybdic acid complex formed during the interaction of inorganic phosphate and molybdate reduced by ascorbic acid. This method has also been adapted to microplates and has been used to determine the activities of Na/K ATPase and alkaline phosphatase of intestinal basolateral and luminal plasma membranes. 相似文献
52.
Cluster Roots: A Curiosity in Context 总被引:17,自引:0,他引:17
Cluster roots are an adaptation for nutrient acquisition from nutrient-poor soils. They develop on root systems of a range
of species belonging to a number of different families (e.g., Proteaceae, Casuarinaceae, Fabaceae and Myricaceae) and are
also found on root systems of some crop species (e.g., albus, Macadamia integrifoliaandCucurbita pepo). Their morphology is variable but typically, large numbers of determinate branch roots develop over very short distances
of main root axes. Root clusters are ephemeral, and continually replaced by extension of the main root axes. Carboxylates
are released from cluster roots at very fast rates for only a few days during a brief developmental window termed an ‘exudative
burst’. Most of the studies of cluster-root metabolism have been carried out using the crop plant L. albus, but results on
native plants have provided important additional information on carbon metabolism and exudate composition. Cluster-root forming
species are generally non-mycorrhizal, and rely upon their specialised roots for the acquisition of phosphorus and other scarcely
available nutrients. Phosphorus is a key plant nutrient for altering cluster-root formation, but their formation is also influenced
by N and Fe. The initiation and growth of cluster roots is enhanced when plants are grown at a very low phosphate supply (viz.
≤1 μM P), and cluster-root suppression occurs at relatively higher P supplies. An important feature of some Proteaceae is
storage of phosphorus in stem tissues which is associated with the seasonality of cluster-root development and P uptake (winter)
and shoot growth (summer), and also maintains low leaf [P]. Some species of Proteaceae develop symptoms of P toxicity at relatively
low external P supply. Our findings with Hakea prostrata (Proteaceae) indicate that P-toxicity symptoms result after the capacity of tissues to store P is exceeded. P accumulation
in H. prostrata is due to its strongly decreased capacity to down-regulate P uptake when the external P supply is supra-optimal.
The present review investigates cluster-root functioning in (1) L.albus (white lupin), the model crop plant for cluster-root studies, and (2) native Proteaceae that have evolved in phosphate-impoverished
environments. 相似文献
53.
In this study, one of Doublesex genes from the common freshwater cladoceran Daphnia carinata, designated DapcaDsx1, was cloned using primers based on homologous sequences and rapid amplification of cDNA ends (RACE). qPCR was employed to quantify differences in DapcaDsx1 expression between the different sexual phases, with expression levels being higher in sexual females. The role of DapcaDsx1 in the reproductive transformation was further investigated in parthenogenetic-phase females and sexual-phase females using whole-mount in situ hybridization. This cellular localization study showed specific expression of DapcaDsx1 in the thoracic segments, second antenna and part of the ventral carapace. Higher expression levels were exhibited in sexual females compared to parthenogenetic females. This suggests that the DapcaDsx1 gene plays significant roles in switching modes of reproduction and during sexual differentiation. 相似文献
54.
The reaction of lead(II) nitrate with trisodium citrate Na3(C6H5O7) in a 1:22.5 ratio at pH 4.8 provides crystals of {Na(H2O)3}[Pb5(H2O)3(C6H5O7)3(C6H6O7)]·9.5H2O (1). The structure of 1 is two-dimensional and exhibits five distinct Pb(II) sites and four different modes of citrate bonding. The five lead sites all display hemidirected coordination geometries, that is, irregular distribution of neighboring oxygen atoms resulting in obvious gaps in the coordination spheres. Consequently, the lead coordination geometries exhibit proximal bonding to a number of oxygen donors, as well as distal interactions with nearest neighbors. The coordination numbers vary from 8 to 10, with ‘5+3’, ‘5+4’, ‘6+4’ and ‘7+3’ coordination modes where the first number refers to the proximal ligands and the second to the distal set. The four crystallographically distinct citrate groups include three with deprotonated carboxylate groups (C6H5O7)3− and one with a single protonated carboxyl group (C6H6O7)2. The citrate ligands bridge 3, 5, 7 and 7 lead sites. Three of the citrate groups exhibit tridentate chelation coordination to a lead site through two carboxylate oxygen donors and the hydroxyl groups. One citrate group projects an uncoordinated -OH group and a pendant protonated carboxyl group into the interlamellar domain. This latter carboxyl group coordinates to a sodium cation, which exhibits five coordinate geometry defined by three aqua ligands and the carbonyl oxygen of the -CO2H groups in the basal plane and a citrate -OH donor in the apical position. 相似文献
55.
Nedialka G. Markova George G. Markov 《Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression》1983,741(1):7-14
Isopicnic centrifugation in Cs2SO4-Ag+ gradients at pH 7.0 reveals that the genome of the marine snail Rapana thomasiana Grosse (Gastropoda) contains an AT-rich satellite fraction comprising 5% of the DNA. Restriction enzyme analysis shows that the satellite DNA is composed of a number of related subsets arranged in tandem arrays. They have evolved from the segmental amplification of an 1460 bp long monomer unit with a complex inner organization. Most probably, the present basic repeat originates from an ancestral 400–500 bp long sequence in which some insertions and/or deletions have occurred. 相似文献
56.
Hsp42 is the general small heat shock protein in the cytosol of Saccharomyces cerevisiae 总被引:4,自引:0,他引:4 下载免费PDF全文
Haslbeck M Braun N Stromer T Richter B Model N Weinkauf S Buchner J 《The EMBO journal》2004,23(3):638-649
Small heat shock proteins (sHsps) are ubiquitous molecular chaperones that prevent the unspecific aggregation of proteins. So far, Hsp26 was the only unambiguously identified member of the sHsp family in Saccharomyces cerevisiae. We show here that the sHsp system in the cytosol of S. cerevisiae consists of two proteins, Hsp26 and Hsp42. Hsp42 forms large dynamic oligomers with a barrel-like structure. In contrast to Hsp26, which functions predominantly at heat shock temperatures, Hsp42 is active as a chaperone under all conditions tested in vivo and in vitro. Under heat shock conditions, both Hsp42 and Hsp26 suppress the aggregation of one-third of the cytosolic proteins. This subset is about 90% overlapping for Hsp42 and Hsp26. The sHsp substrates belong to different biochemical pathways. This indicates a general protective function of sHsps for proteome stability in S. cerevisiae. Consistent with this observation, sHsp knockout strains show phenotypical defects. Taken together, our results define Hsp42 as an important player for protein homeostasis at physiological and under stress conditions. 相似文献
57.
Crystal structure of heart 6‐phosphofructo‐2‐kinase/fructose‐2,6‐bisphosphatase (PFKFB2) and the inhibitory influence of citrate on substrate binding 下载免费PDF全文
Robert B. Crochet Jeong‐Do Kim Herie Lee Young‐Sun Yim Song‐Gun Kim David Neau Yong‐Hwan Lee 《Proteins》2017,85(1):117-124
The heart‐specific isoform of 6‐phosphofructo‐2‐kinase/fructose‐2,6‐bisphosphatase (PFKFB2) is an important regulator of glycolytic flux in cardiac cells. Here, we present the crystal structures of two PFKFB2 orthologues, human and bovine, at resolutions of 2.0 and 1.8 Å, respectively. Citrate, a TCA cycle intermediate and well‐known inhibitor of PFKFB2, co‐crystallized in the 2‐kinase domains of both orthologues, occupying the fructose‐6‐phosphate binding‐site and extending into the γ‐phosphate binding pocket of ATP. This steric and electrostatic occlusion of the γ‐phosphate site by citrate proved highly consequential to the binding of co‐complexed ATP analogues. The bovine structure, which co‐crystallized with ADP, closely resembled the overall structure of other PFKFB isoforms, with ADP mimicking the catalytic binding mode of ATP. The human structure, on the other hand, co‐complexed with AMPPNP, which, unlike ADP, contains a γ‐phosphate. The presence of this γ‐phosphate made adoption of the catalytic ATP binding mode impossible for AMPPNP, forcing the analogue to bind atypically with concomitant conformational changes to the ATP binding‐pocket. Inhibition kinetics were used to validate the structural observations, confirming citrate's inhibition mechanism as competitive for F6P and noncompetitive for ATP. Together, these structural and kinetic data establish a molecular basis for citrate's negative feed‐back loop of the glycolytic pathway via PFKFB2. Proteins 2016; 85:117–124. © 2016 Wiley Periodicals, Inc. 相似文献
58.
A. M. BORLAND H. GRIFFITHS C. MAXWELL M. C. FORDHAM M. S. J. BROADMEADOW 《Plant, cell & environment》1996,19(6):655-664
The interrelationships between the induction of CAM and the turnover of malate and citrate in the dicotyledenous tree Clusia minor were compared with seasonal changes in rainfall, leaf water status, PFD and photoinhibitory responses during the transition from wet to dry season in Trinidad. Over a period of 8 weeks, as rainfall declined from a maximum observed around week 3, leaf xylem tensions measured at dusk and dawn reflected the concurrent reduction in day-time carbon gain and an increase in the diel turnover of malate (exposed leaves) and citrate (shaded leaves). Clear seasonal trends were observed in the turnover of malate and citrate during the transition from wet to dry season. In contrast to the declining back-ground concentrations of citrate during the wet-dry season transition, malate accumulation was markedly enhanced and the ratio of malalc:citrate accumulated overnight increased as the dry season advanced. Photo-inhibitory responses, assessed by chlorophyll fluorescence, indicated that photochemistry was largely determined by the diurnal course of PFD incident on leaves, regardless of the magnitude of internal CO2 release from malate and citrate decarboxylation. In the long term, photochemical efficiency in both shaded and exposed leaves appeared to decline as the dry season progressed. Although there was a clear linear relationship between integrated PFD and overnight accumulation of malate, no such correlation was found for citrate. However, citrate breakdown during the day showed a much closer correlation with PFD as compared to malate, with levels of citrate measured at dusk declining in response to higher daily light intensities. Moreover, enhanced citrate decarboxylation during the day was strongly correlated with increased CAM and overnight accumulation of both malate and citrate. 相似文献
59.
Takashi Asai Daniel K Howe Kyoko Nakajima Tomoyoshi Nozaki Tsutomu Takeuchi L.David Sibley 《Experimental parasitology》1998,90(3):277-285
Asai, T., Howe, D. K., Nakajima, K., Nozaki, T., Takeuchi, T., and Sibley, L. D.Neospora caninum: Tachyzoites Express Type-I Nucleoside Triphosphate Hydrolase1. But Lack Nucleoside Diphosphate Hydrolase Activity.Experimental Parasitology90,277–285. We have identified type I nucleoside triphosphate hydrolase (NTPase; EC 3.6.1.3) activity, previously thought to be restricted to the virulent strains ofToxoplasma gondii, in the cell extracts ofNeospora caninumtachyzoites. Sequence analysis of a complete cDNA from Nc-1 strain indicated thatN. caninumNTPases shared approximately 69% identity to the NTPases ofT. gondiiand are most similar to the NTPase-I isozyme. Southern blot analysis of genomic DNA and sequence analysis of two independentNTPclones from the Nc-1 strain revealed the presence of multiple genes, at least two of which are transcribed. Substrate specificity andKmvalues for MgATP2−and MgADP−hydrolysis for recombinant or partially purified native NcNTPase were the same as those for the type I isozyme (NTPase-I). Significantly, no type II enzyme (NTPase-II) activity for NDP hydrolysis was detected in cell extracts ofN. caninum, although it is universally present in allT. gondiistrains that have been tested. This intriguing difference between these two closely related apicomplexan parasites may provide insight into the function of the NTPases during intracellular parasitism. 相似文献
60.
Water activity measurements by isopiestic method have been carried out on the aqueous solutions of alanine + potassium di-hydrogen citrate (KH2Cit) and alanine + tri-potassium citrate (K3Cit) over a range of temperatures at atmospheric pressure. From these measurements, values of the vapor pressure of solutions were determined. The effect of temperature and charge on the anion of salts on the vapor–liquid equilibrium of the investigated systems has been studied. The experimental water activities have been correlated successfully with the segment-based local composition Wilson and NRTL models. The agreement between the correlations and the experimental data is good. 相似文献