Polypeptides of chloroplastic and cytoplastic origin required for development of Photosystem II activity,and chlorophyll-protein complexes,in Euglena gracilis Z chloroplast membranes

The development of photosynthetic activity and synthesis of chloroplast membrane polypeptides was studied during greening of Euglena gracilis Z in alternate light-dark-light cycles. The results show: (a) The development of both Photosystem II and Photosystem I can be dissociated from chlorophyll synthesis. (b) Most of the polypeptides required for development of Photosystem I are already synthesized during the initial light period (10–12 h); the further rise in Photosystem I activity in the dark is not inhibited by cycloheximide nor by chloramphenicol. (c) The development of Photosystem II requires continuous de novo synthesis of polypeptides and is inhibited by chloramphenicol. The water-splitting activity already present at the end of the first light period decays in the presence of chloramphenicol while that of 1,5-diphenylcarbazide oxidation is only partially retained. The activity can be repaired in the absence of chlorophyll synthesis and is correlated with the de novo synthesis of polypeptides of 50 000–60 000 daltons. The synthesis of these polypeptides and associated repair of Photosystem II activity is not inhibited by cycloheximide. (d) The chloroplast membranes can be resolved into about 40 distinct polypeptides, among them several in the molecular weight range 50 000–60 000, 20 000–35 000 and 10 000–15 000, which are major membrane constitutents. (e) The synthesis of two major polypeptides (M_r = 20 000–30 000) required for the formation of chlorophyll-protein complex(es) containing chlorophyll a and traces of chlorophyll b (CPII?) is light-dependent and cycloheximide-inhibited. It is concluded that the synthesis and addition to the growing membrane of chlorophyll and polypeptides required for the formation of Photosystem II and Photosystem I complexes can be dissociated in time. The H₂O-splitting enzyme(s) and possibly other components of Photosystem II complex are of chloroplastic origin and turn over in the dark while at least some of the chlorophyll binding polypeptides are of cytoplastic origin and their synthesis is light-controlled.     

Histological study of galls induced by aphids on leaves of Ulmus minor: Tetraneura ulmi induces globose galls and Eriosoma ulmi induces pseudogalls

The histological study of galls may provide information on the evolution of the organisms that induce them. The walls of two aphid-induced galls on leaves of Ulmus minor were therefore studied histologically: a globose gall induced by Tetraneura ulmi and a pseudogall induced by Eriosoma ulmi. Galls are regarded as extended phenotypes of aphids, and therefore, they can be used as tools for phylogenetic studies. The walls of the galls induced by T. ulmi are not reminiscent of the ungalled leaf structure of U. minor in any area, showing both cellular hypertrophy and hyperplasia. Galls induced by E. ulmi resemble the leaf structure of U. minor in certain aspects, but in most aspects they do not, showing only cellular hypertrophy. Processes of growth and differentiation are observed in both galls. Based on the findings of this study and other recent publications, we propose to categorize the galls induced by aphids into four types: (1) pseudogalls; (2) closed galls with a “door”; (3) closed galls determined by active processes of growth and differentiation of the lamina of the leaf; and (4) closed galls determined by active processes of growth and differentiation of the midvein.     

A sacred social: Christian relationalism and the re-enchantment of the world

This article intervenes in an ongoing debate as to whether or not Christianity introduces individualism into the lives of its converts. Drawing on an ethnographic account of Emmanuel, a French Catholic Charismatic community, it demonstrates that, counter to the argument that in social cases where Christianity is central, individualism emerges as a prominent value, in some cases it is relationalism that shapes Christian ethical aspirations. I argue that differences observed across contexts in expressions of value and configuration of personhood may be the result of the varied manners in which divine presence is experienced and understood to inhabit the world across Christian communities. Bringing God into the centre of ethnographic analysis in accounting for these differences broadens the debate's comparative reach, while underscoring the manner in which divine agency shapes the ethical aspirations of religious persons and their orientations to social others. Considering the ethical and political implications that one's orientation to the social can have, further investigation is called for into the manner in which the divine is experienced and invoked in social and ritual life.     

Precursors of glutamic acid nitrogen in primary neuronal cultures: Studies with15N

We utilized gas chromatography-mass spectrometry to study the transfer of¹⁵N from [2-¹⁵N]glutamine, [¹⁵N]leucine, [¹⁵N]alanine, or¹⁵NH₄Cl to [¹⁵N]glutamate and [¹⁵N]aspartate in cultured cerebrocortical GABA-ergic neurons from the mouse. Initial rates of¹⁵N appearance (atom % excess) were somewhat higher with 2mM [2-¹⁵N]glutamine as a precursor than with 1mM [¹⁵N]leucine or 1mM [¹⁵N]alanine, but initial net formation (nmol [¹⁵N]glutamate/mg protein.min^–1) was roughly comparable with all precursors. At steady-state¹⁵N labeling was about two times greater with 2mM [2-¹⁵N]glutamine as precursor. The subsequent transfer of¹⁵N from glutamate to aspartate was extremely rapid, the labelling pattern of these two amino acid pools being virtually indistinguishable. We observed little reductive amination of 2-oxo-glutarate to yield [¹⁵N]glutamate in the presence of 0.3mM¹⁵NH₄Cl. Reductive amination through glutamate dehydrogenase was much more prominent at a concentration of 3.0mM¹⁵NH₄Cl. Glutamate formation via reductive amination was unaffected by inclusion of 1 mM 2-oxo-glutarate in the incubation medium. These results indicate that glutamate synthesis in cultured GABA-ergic neurons is derived not only from the glutaminase reaction, but also from transamination reactions in which both leucine and alamine are efficient N donors. Reductive amination of 2-oxo-glutarate in the glutamate dehydrogenase pathway plays a relatively minor role at lower concentrations of extracellular ammonia but becomes quite active at 3mM ammonia.     

The use of an internal standard for semiquantitative analysis of low temperature (77°K) fluorescence of photosynthetic cells

A simple method is described which permits quantitative estimation of chlorophyll fluorescence emission intensity relative to the chlorophyll concentration in sample material at 77°K. A fluorescent standard excited by light of a similar wavelength as that of the sample material but emitting at a slightly shorter wavelength is mixed with the sample in known proportions. The fluorescence yield of the various peaks of the sample are normalized to the fluorescence yield of the internal standard. The spectra are recorded using an inexpensive attachment consisting of a Dewar holder, mounted instead of the light source of any double beam or split beam spectrophotometer. A glass rod is immersed in the sample standard mixture and then placed in the liquid nitrogen containing Dewar. Exciting light is provided by a light pipe mounted at 90° to the sample holder, connected with a tungsten-hallogen lamp provided with an appropriate filter. This method has been found to be particularly useful for the quantitation of chlorophyll fluorescence emission at 77°K of photosynthetic cells or chlorophyll containing membrane fractions. For this purpose, phycocyanin was found to be a suitable internal standard.     

Effects of palmitate on astrocyte amino acid contents

The effects of palmitate on intracellular and extracellular amino acid concentrations of cultured astrocytes was studied. Exposure of astrocytes to either 0.72 mM or 0.36 mM palmitate was associated with a significant reduction in the intracellular pool of glutamine and taurine. In contrast, the intracellular concentration of histidine, glycine, citrulline, isoleucine and leucine were increased in the presence of 0.72 mM palmitate. Comparable changes in the extracellular amino acid pool were not observed. The data suggest that palmitic acid, which accumulates in the brain during periods of anoxia, alters the metabolism of several amino acids in cultured astrocytes. These changes may be of significance in terms of the pathophysiology of a stress such as anoxia.Special issue dedicated to Dr. Elling Kvamme     

Changes in thylakoid polypeptide phosphorylation during membrane biogenesis in Chlamydomonas reinhardii y-1

Thylakoid polypeptide phosphorylation has been studied in vivo and in vitro during plastid differentiation in Chlamydomonas reinhardii y-1. Pulse labeling cells at different stages of greening with [³²P]orthophosphate revealed differences in the pattern of protein phosphorylation. In the early phase of greening the 44–47 kDa reaction center II polypeptides were labeled but the 22–24 kDa polypeptides of the light-harvesting chlorophyll $\text{a}\text{b-}\text{protein}$ complex (LHC) were not. Later in the greening, coinciding with the formation of the antenna of Photosystem I and membrane stacking, the converse was found. Furthermore, the 22–24 kDa polypeptides of grana lamellae were less labeled than the same polypeptides found in the corresponding stroma lamellae. Polypeptides in the molecular mass range of 32–34 kDa were phosphorylated at all stages following the onset of greening. Dark-grown cells did not incorporate ³²P in vivo or in vitro into the polypeptides present in the residual thylakoids. Similarly, cells greened in the presence of chloramphenicol, in which the synthesis of reaction centers is inhibited, showed no light-stimulated phosphorylation in vitro. However, the residual 32–34 kDa and 44–47 kDa polypeptides found in thylakoids of these cells were phosphorylated in vivo, whereas the LHC polypeptides synthesized in the presence of chloramphenicol were not. Phosphorylation of the LHC polypeptides (22–24 kDa) in these cells occurred if new reaction center polypeptides and all antennae components were formed, following removal of the inhibitor and further incubation of the cells in the light. Phosphorylation of LHC polypeptides was not resumed if active reaction centers were formed in the absence of complete restoration of all antenna components (incubation in the dark or light with addition of cycloheximide). It is concluded that phosphorylation is correlated with the thylakoid polypeptide content and organization.