Assessment of environmental effects of deep ocean mining of manganese nodules

Deep ocean mining for manganese nodules is under development by several multinational mining consortia. Initial estimates of probable environmental effects of this mining were made before any actual operations were conducted. Recent pilot mining tests near Hawaii have provided an opportunity to verify and modify the initial estimates. The two principal initial impacts of mining are in the near surface water associated with increased turbidity caused by mining discharge, and in a relatively limited zone at the sea floor associated with collector traverse. Examples are presented of estimates of reduction in primary production in the turbid plume as well as the contrasting effect of increased nutrients. Effects of the mining collector on benthic populations are considered. The limitations of extrapolation of results obtained during pilot mining tests are discussed.     

Reductive microbial dissolution of manganese nodules as a possible hazard of deep-sea mining

The microbial lysis of deep-sea nodules as a possible result of large-scale, deep-sea mining is considered. It is assumed that the Mn (IV) and Fe (III) compounds of the manganese nodules are reduced by the numerous aerobic bacteria at the sediment/water interface as soon as the adjacent nodule area is buried by sedimentation of the disturbed deposits and the organic-rich debris from the blooming surface plankton. Intensive mineralization processes in the resettled sediments cause oxygen depletion. Subsequently, the aerobic (and anaerobic) microorganisms will switch to Mn (IV) and Fe (III) oxides as alternative electron acceptors in order to continue their energy-conserving (ATP synthesis) reactions (anaerobic respiration). The higher the amount of decomposable organic matter, the more intensive are these processes. Consequently, buried manganese nodules may be dissolved, thereby liberating mobile Mn (II), Fe (II) and several trace elements (Ni, Cu, Co and others). This possible hazard and its ecological consequences should be evaluated carefully before deep-sea mining is started on a large scale.     

Novel paralogous gene families with potential function in legume nodules and seeds

Within the plant kingdom, legumes are unusual in their ability to form nitrogen-fixing nodules in symbiosis with certain bacteria in the family Rhizobiaceae (rhizhobia). Genes that are required for signaling between plant and symbiont, and for the development and maintenance of the nodule, were either created de novo or adopted from other plant pathways. Only in recent years have genome-scale sequence data from legumes made it possible to identify large, novel families of genes probably evolved to function in nodulation. Members of these novel families are expressed in seeds or nodules, and are homologous to defense-related proteins. Perhaps the most striking example is a large family (of more than 340 members) of cysteine cluster proteins that have homology to plant defensins.     

Low potential manganese ions as efficient electron donors in native anoxygenic bacteria

Systematic control over molecular driving forces is essential for understanding the natural electron transfer processes as well as for improving the efficiency of the artificial mimics of energy converting enzymes. Oxygen producing photosynthesis uniquely employs manganese ions as rapid electron donors. Introducing this attribute to anoxygenic photosynthesis may identify evolutionary intermediates and provide insights to the energetics of biological water oxidation. This work presents effective environmental methods that substantially and simultaneously tune the redox potentials of manganese ions and the cofactors of a photosynthetic enzyme from native anoxygenic bacteria without the necessity of genetic modification or synthesis. A spontaneous coordination with bis-tris propane lowered the redox potential of the manganese (II) to manganese (III) transition to an unusually low value (~400?mV) at pH?9.4 and allowed its binding to the bacterial reaction center. Binding to a novel buried binding site elevated the redox potential of the primary electron donor, a dimer of bacteriochlorophylls, by up to 92?mV also at pH?9.4 and facilitated the electron transfer that is able to compete with the wasteful charge recombination. These events impaired the function of the natural electron donor and made BTP-coordinated manganese a viable model for an evolutionary alternative.     

Kojic acid and its manganese and zinc complexes as potential radioprotective agents

The naturally occurring fungal metabolite kojic acid and its manganese and zinc complexes have been evaluated as potential radioprotectors in mice. Their toxicity and radioprotective activity (survival rate) have been determined and compared with that of WR-2721 (amifostine). The results of in vivo radioprotection showed that these compounds exhibited significant radioprotective effects against lethal dose of gamma-irradiation in mice.     

Tetanic potentiation of miniature end-plate potential frequency at frog neuromuscular junction in manganese solutions

Using a sciatic nerve-sartorius muscle preparation of the frog, we have studied the effect of Mn on the increase in miniature end-plate potential (MEPP) frequency that occurs during tetanic stimulation (50 Hz, 2-3 min) of the nerve in nominally Ca2+-free, Mn2+ and Mg2+ solutions. During stimulation the frequency increased over the first minutes to reach an asymptote. The time course for the increase was analyzed following the model proposed by Barton, Cohen and Van der Kloot (1983). The ratio of the Ca2+ bound to the receptor at intervals during the tetanus, b, to the Ca2+ bound before stimulation was begun, b0, was calculated from MEPP frequencies. b/b0 indicates changes in intraterminal Ca2+ concentration produced by the tetanus. In solutions made with no added Ca2+ but containing 1 mM MgEGTA, the increase in b/b0 during stimulation showed a linear or convex time course. Similar time courses were obtained in solutions containing Mn2+ or Mg2+ as the sole divalent cation. On the other hand, when solutions contained Ca2+, the time course for the increase followed a sigmoidal curve. The present results suggest that Mn2+ enters the nerve terminal during stimulation and raises the intracellular Ca2+ concentration, which in turn promotes transmitter release.     

The relative content of manganese in plants

Summary Oats, vetch, and rye were grown as successive crops in pots of a manganese-deficient soil to which -MnO₂ had been added in increasing amounts. Manganese deficiency of oats was overcome with 32 ppm of added manganese. Additions of 10, 18 and 32 ppm caused a decrease in concentration of maganese in the plants. Vetch and rye were unaffected by manganese deficiency and kept on accumulating manganese with increasing additions to the soil. Of the three plants vetch showed the greatest uptake of manganese, both with and without added manganese.     

The interaction of manganese ions with DNA

We present the structure of the duplex formed by a fragment of auto-complementary DNA with the sequence d(CGTTAATTAACG). The structure was determined by X-ray crystallography. Up to date it is the first structure presenting the interaction between a DNA oligonucleotide and manganese ions. The presence of Mn²⁺ creates bonds among the N7 atom of guanines and phosphates. These bonds stabilize and determine the crystallographic network in a P3₂ space group, unusual in oligonucleotide crystals. The crystal structure observed is compared with those found in the presence of Mg²⁺, Ca²⁺ and Ni²⁺, which show different kinds of interactions. The double helices show end-to-end interactions, in a manner that the terminal guanines interact with the minor groove of the neighboring duplex, while the terminal cytosines are disordered. We have chosen this sequence since it contains a TTAA repeat. Such repeats are very rare in all genomes. We suggest that this sequence may be very susceptible to the formation of closely spaced thymine dimers.     

The tetranuclear manganese complex of Photosystem II

A polynuclear manganese complex functions in Photosystem II both to accumulate oxidizing equivalents and to bind water and catalyze its four-electron oxidation. Recent electron paramagnetic resonance (EPR) spectroscopic studies of the manganese complex show that four manganese ions are required to account for its magnetic properties. The exchange couplings between manganese ions in the S₂ state are characteristic of a Mn₄O₄ cubane-like structure. Based on this structure for the manganese complex in the S₂ state, as well as a consideration of the known properties of the manganese complex in Photosystem II and the coordination chemistry of manganese, structures are proposed for the five intermediate oxidation states of the manganese complex. A molecular mechanism for the formation of an O-O bond and the displacement of O₂ from the S₄ state is suggested.     

肺结节检测算法研究

探讨基于CT图像数据的肺结节自动检测算法。肺结节提取一般步骤为：CT图像预处理、肺实质分割、肺结节提取。     

The physiological significance of the leaf nodules of psychotria

Summary In 6-month growth experiments it was found that leaf-nodulatedPsychotria mucronata seedlings grown in N-poor soil showed a restricted growth and developed severe nitrogen-deficiency symptoms in the leaves. Plants in the same soil supplied with NO₃-N showed healthy growth and dark green leaves. Detached Psychotria leaves bearing leaf nodules exposed to an atmosphere containing N¹⁵-labelled nitrogen gas or acetylene gas gave no evidence of nitrogen fixation, either in the light or in the dark or in both in succession. Therefore nitrogen fixation is probably not associated with the leaf nodules. Chlorophyll retention was observed around the leaf nodules in senescent Psychotria leaves. Psychotria leaf-nodule discs placed on oat leaves cause chlorophyll retention in the oat leaves below the discs. As chlorophyll retention is a common bioassay for cytokinins, these results indicate that a cytokinin-like substance is involved. With the aid of autoradiography and C¹⁴-labelled α-amino-isobutyric acid it was shown that this amino acid accumulates in the leaf nodules. Such directed transport is also a property of cytokinin.     

The oxidation state of the photosystem II manganese cluster influences the structure of manganese stabilizing protein

Exposure of photosystem II membranes to trypsin that has been treated to inhibit chymotrypsin activity produces limited hydrolysis of manganese stabilizing protein. Exposure to chymotrypsin under the same conditions yields substantial digestion of the protein. Further probing of the unusual insensitivity of manganese stabilizing protein to trypsin hydrolysis reveals that increasing the temperature from 4 to 25 degrees C will cause some acceleration in the rate of proteolysis. However, addition of low (100 microM) concentrations of NH2OH, that are sufficient to reduce, but not destroy, the photosystem II Mn cluster, causes a change in PS II-bound manganese stabilizing protein that causes it to be rapidly digested by trypsin. Immunoblot analyses with polyclonal antibodies directed against the N-terminus of the protein, or against the entire sequence show that trypsin cleavage produces two distinct peptide fragments estimated to be in the 17-20 kDa range, consistent with proposals that there are 2 mol of the protein/mol photosystem II. The correlation of trypsin sensitivity with Mn redox state(s) in photosystem II suggest that manganese stabilizing protein may interact either directly with Mn, or alternatively, that the polypeptide is bound to another protein of the photosystem II reaction center that is intimately involved in binding and redox activity of Mn.     

The occurrence of nitrogen-fixing root nodules on non-leguminous plants

At present it is known that some 13 genera of non-leguminous Angiosperms include at least some species which bear root nodules with the property of nitrogen fixation. Alnus is the best known example. To assist in the assessment of the ecological importance of these plants, the author has surveyed the relevant literature to discover how many species in each of the genera have been recorded to bear noduleS. He also provides evidence of this feature in several species not hitherto reported. Of an estimated total complement of 342 species in the 13 genera, 118 species haye so far been recorded to bear nodules. The remaining species do not appear to have been examined for the presence of nodules.