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Coelenterate Neuropeptides: Structure, Action and Biosynthesis 总被引:3,自引:0,他引:3
GRIMMELIKHUIJZEN CORNELIS J. P.; CARSTENSEN KLAUS; DARMER DOROTHEA; MOOSLER ANGELIKA; NOTHACKER HANS-PETER; REINSCHEID RAINER K.; SCHMUTZLER CORNELIA; VOLLERT HENNING; MCFARLANE IAN; RINEHART KENNETH L. 《Integrative and comparative biology》1992,32(1):1-12
Evolutionary "old" nervous systems such as those of coelenteratesare peptidergic: Using various radioimmunoassays we have nowisolated 13 novel neuropeptides from sea anemones and severalothers from hydrozoan polyps and medusae. These peptides areall structurally related and contain the C-terminal sequenceArg-X-NH2 or Lys-X-NH2, where X is Ala, Asn, Ile, Phe, Pro orTrp. Three neuropeptides have a novel N-terminal L-3-phenyllactylresidue, which protects against degradation by nonspecific aminopeptidases.The neuropeptides from sea anemones are produced by differentsets of neurones and have excitatory or inhibitory actions onisolated muscle preparations, suggesting that they are neurotransmittersor neuromodulators. We have also cloned the precursor proteinfor the sea-anemone neuropeptide Antho-RFamide (<Glu-Gly-Arg-Phe-NH2).In Calliactis parasitica this precursor harbours 19 copies ofimmature Antho-RFamide (Gln-Gly-Arg-Phe-Gly) together with 7other, putative neuropeptide sequences. The precursor of Anthopleuraelegantissima contains 14 copies of Antho-RFamide and 19 other,putative neuropeptides. This shows that the biosynthetic machineryfor neuropeptides in coelenterates, the lowest animal grouphaving a nervous system, is already very efficient and similarto that of higher invertebrates, such as molluscs and insects,and vertebrates. 相似文献
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Hydrophilins from distant organisms can protect enzymatic activities from water limitation effects in vitro 总被引:2,自引:0,他引:2
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JOSEF PFEILSCHIFTER WOLFGANG EBERHARDT RICHARD HUMMEL DIETER KUNZ HEIKO MÜHL DOROTHEA NITSCH CHRISTOPH PLÜSS GABY WALKER 《Cell biology international》1996,20(1):51-58
In recent years, NO, a gas previously considered a potentially toxic chemical, has become established as a diffusible universal messenger mediating cell—cell communication throughout the body. In mammals, NO is a recognized mediator of blood vessel relaxation that helps to maintain blood pressure. In the central nervous system NO acts as a non-conventional neurotransmitter and participates in the establishment of long-term plasticity required for memory formation. In addition, NO is responsible for some parts of the host response to sepsis and inflammation and contributes to certain disease states. A number of strategies have emerged with regard to a pharmacological control of pathological NO overproductions. This review will discuss these novel therapeutic approaches that may provide new means for clinical medicine. 相似文献
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BASTIEN CHRIST BERNHARD KRÄUTLER DOROTHEA BARTELS STEFAN HÖRTENSTEINER 《Plant, cell & environment》2014,37(11):2521-2531
Angiosperm resurrection plants exhibit poikilo‐ or homoiochlorophylly as a response to water deficit. Both strategies are generally considered as effective mechanisms to reduce oxidative stress associated with photosynthetic activity under water deficiency. The mechanism of water deficit‐induced chlorophyll (Chl) degradation in resurrection plants is unknown but has previously been suggested to occur as a result of non‐enzymatic photooxidation. We investigated Chl degradation during dehydration in both poikilochlorophyllous (Xerophyta viscosa) and homoiochlorophyllous (Craterostigma pumilum) species. We demonstrate an increase in the abundance of PHEOPHORBIDE a OXYGENASE (PAO), a key enzyme of Chl breakdown, together with an accumulation of phyllobilins, that is, products of PAO‐dependent Chl breakdown, in both species. Phyllobilins and PAO levels diminished again in leaves from rehydrated plants. We conclude that water deficit‐induced poikilochlorophylly occurs via the well‐characterized PAO/phyllobilin pathway of Chl breakdown and that this mechanism also appears conserved in a resurrection species displaying homoiochlorophylly. The roles of the PAO/phyllobilin pathway during different plant developmental processes that involve Chl breakdown, such as leaf senescence and desiccation, fruit ripening and seed maturation, are discussed. 相似文献
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TUULA LARMOLA JUKKA ALM SARI JUUTINEN DOROTHEA KOPPISCH JÜRGEN AUGUSTIN PERTTI J. MARTIKAINEN JOUKO SILVOLA 《Freshwater Biology》2006,51(12):2252-2264
1. We studied the patterns of litter decomposition in lake littoral habitats and investigated whether decay rates, as an integrating proxy for environmental conditions in the sediment, would co‐vary with net carbon dioxide (CO2) exchange and methane (CH4) efflux. These gas fluxes are known to be sensitive to environmental conditions. Losses in the mass of cellulose, root, rhizome and moss litter were measured during 2 years in boreal littoral wetlands in Finland and compared with published data on concurrently measured gas fluxes. Four study sites covered a range of sediment types and hydrological conditions. 2. Decomposition was not linearly related to the duration of flooding but depended on sediment type. Readily decomposable litter fractions, such as cellulose and rhizome litter, lost mass at a faster rate in marshes with a longer period of flooding but wide water level fluctuations that hinder establishment of a Sphagnum cover, than in peat‐forming fens. In marshes, the mean first‐year mass losses were 83–99% and 19–62% for cellulose and rhizomes, respectively. In fens, the respective losses were 40–53% and 33%. In the first year, the loss in the mass of the more recalcitrant root litter did not differ between sites (mean 19–30%) and moss litter lost no mass. 3. The estimated first‐year carbon loss from belowground litter was about 0.1–0.3 times ecosystem respiration and roughly similar to net carbon gas (CO2, CH4) efflux, suggesting that vascular plants and recent plant residues contribute substantially to ecosystem release of carbon gases. On the other hand, at least 40% of the mass of the belowground litter remained on a littoral site after the first 2 years of decomposition. Slow decomposition may indicate the accumulation of organic‐rich sediments. The accumulated carbon could explain the excess CO2 release found in most littoral sites. In continuously inundated sites decomposition rates were similar to those in periodically flooded sites, but ecosystem‐atmosphere CO2 exchange fell to close to zero. This discrepancy implies that the released CO2 is dissolved in water and may be exported into the pelagic zone of the lake. 相似文献
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WHEN inbred mice are grafted with skin from inbred donors that differ from the recipients only by a single minor histocompatibility antigen, it is commonly observed that some recipients will retain their skin grafts while others will reject them. This is true of incompatibility for H-Y antigen, which is responsible for the rejection of male grafts by otherwise histocompatible inbred females of the same inbred strain1. Thus in the DBA/2 (DBA) strain, male-to-female skin grafts are rejected by only some recipients; in the C57BL (B6) strain, females always reject male skin; and C3H/An (C3H) females usually accept male skin grafts indefinitely. 相似文献