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61.
Christa Testerink Paul B Larsen Fionn McLoughlin Dieuwertje van der Does John AJ van Himbergen Teun Munnik 《Plant signaling & behavior》2008,3(9):681-683
Constitutive triple response 1 (CTR1) is a protein kinase that represses plant responses to ethylene. Recently, we have shown that CTR1 function is negatively regulated by the lipid second messenger phosphatidic acid (PA) in vitro.1 PA was shown to inhibit (1) CTR1''s protein kinase activity, (2) the intramolecular interaction between N-terminus and kinase domain, and (3) the interaction of CTR1 with the ethylene receptor ETR1. PA typically accumulates within minutes in response to biotic or abiotic stresses, which are known to induce ethylene formation. Although long-term treatment with ethephon does stimulate PA accumulation, our results show no fast increase in PA in response to ethylene. A speculative model is presented which explains how stress-induced PA formation could switch on downstream ethylene responses via interaction of the lipid with CTR1.Key words: lipid signaling, phosphatidic acid, ethylene, constitutive triple response 1, plant stress signaling, protein kinase, phospholipase D 相似文献
62.
The utility of the morphological variation of pollen for resolving the evolutionary history of Billia (subfam. Hippocastanoideae,Sapindaceae) 下载免费PDF全文
In this study, we examined the utility of pollen morphology for resolving questions about the evolutionary history of Billia, which is a poorly known genus of Neotropical trees. Billia has been traditionally circumscribed with two species and treated as sister to Aesculus L. However, the number of species in Billia is uncertain, because the genus exhibits abundant morphological diversity but little discontinuous variation. Therefore, Billia may be monotypic and highly polymorphic, or it may have two species with blurred boundaries due to incipient speciation and/or hybridization. Moreover, one recent molecular phylogenetic study shows Billia nested withinAesculus. Our work sought to address the following questions: (i) Are there discontinuities in the pollen of Billia that may suggest species boundaries? (ii) Does the pollen of Billia show evidence for inter-specific hybridization? (iii) Do the exine morphology and size of pollen in Billia differ from those in Aesculus? Our results from scanning electron microscopy showed that pollen exine morphology is not taxonomically informative in Billia but that there are significant differences in pollen size between red- and white-flowered individuals. Thus, our pollen data support the utility of flower color in Billia for species delimitation. Our assessments of pollen viability do not support hybridization in the genus, but cannot be used to rule it out. Finally, pollen exine morphology may lend some support to an evolutionary origin ofBillia within eastern North American Aesculus. In contrast, data on pollen size suggest that Billia may belong in a topological position outside of Aesculus. 相似文献
63.
Effect of High Product Concentration in a Dual Fed-batch Asymmetric 3-oxo Ester Reduction by Baker's Yeast 总被引:3,自引:0,他引:3
Ifoeng Chin-Joe Adrie J. J. Straathof Jack T. Pronk Jaap A. Jongejan Joseph J. Heijnen 《Biocatalysis and Biotransformation》2002,20(5):337-345
Baker's-yeast-mediated asymmetric ethyl 3-oxobutanoate reduction using a fed-batch feeding strategy for both the 3-oxo ester and the electron donor, was explored as potential production system for enantiopure ethyl ( S )-3-hydroxybutanoate. The dual feed strategy was based on kinetic and stoichiometric data. One major aspect is the effect of high product concentrations on the progress of the reduction. According to initial rate experiments, product inhibition occurs at concentrations above 600 mM product causing a 10-fold decrease of the initial biomass-specific reduction rate. By using optimized feed rates and a biomass concentration of 43 g dw l -1 , a product concentration of 350 mM was reached within 80 h with a degree of conversion of 95%. The volumetric productivity was 0.58 g l -1 h -1 , using 2.1 kg pressed yeast kg product -1 and 0.52 kg glucose kg product -1 . During the fed-batch biotransformation the reduction rate continuously decreased and reduction ceased after 80 h, due to biocatalyst inactivation after prolonged use at increasing high product concentrations. The continuous decrease in reducing activity led to very high ethyl 3-oxobutanoate levels in the reactor resulting in an increase of the undesired specific ethyl ( R )-3-hydroxybutanoate production rate. Therefore, the enantiomeric excess of the product decreased, from initially 100 to ~75% at 80 h. It is concluded that the design of processes for efficient asymmetric bioreduction cannot solely be based on initial rate kinetics, but require detailed knowledge of the effects on activity and enantioselectivity upon long-term exposure to process conditions. 相似文献
64.
Louis Grandjean Tomotada Iwamoto Anna Lithgow Robert H Gilman Kentaro Arikawa Noriko Nakanishi Laura Martin Edith Castillo Valentina Alarcon Jorge Coronel Walter Solano Minoo Aminian Claudia Guezala Nalin Rastogi David Couvin Patricia Sheen Mirko Zimic David AJ Moore 《PloS one》2015,10(5)
BackgroundThe comparison of Mycobacterium tuberculosis bacterial genotypes with phenotypic, demographic, geospatial and clinical data improves our understanding of how strain lineage influences the development of drug-resistance and the spread of tuberculosis.MethodsTo investigate the association of Mycobacterium tuberculosis bacterial genotype with drug-resistance. Drug susceptibility testing together with genotyping using both 15-loci MIRU-typing and spoligotyping, was performed on 2,139 culture positive isolates, each from a different patient in Lima, Peru. Demographic, geospatial and socio-economic data were collected using questionnaires, global positioning equipment and the latest national census.ResultsThe Latin American Mediterranean (LAM) clade (OR 2.4, p<0.001) was significantly associated with drug-resistance and alone accounted for more than half of all drug resistance in the region. Previously treated patients, prisoners and genetically clustered cases were also significantly associated with drug-resistance (OR''s 2.5, 2.4 and 1.8, p<0.001, p<0.05, p<0.001 respectively).ConclusionsTuberculosis disease caused by the LAM clade was more likely to be drug resistant independent of important clinical, genetic and socio-economic confounding factors. Explanations for this include; the preferential co-evolution of LAM strains in a Latin American population, a LAM strain bacterial genetic background that favors drug-resistance or the "founder effect" from pre-existing LAM strains disproportionately exposed to drugs. 相似文献
65.
Bakker BM Overkamp KM van Maris AJ Kötter P Luttik MA van Dijken JP Pronk JT 《FEMS microbiology reviews》2001,25(1):15-37
In Saccharomyces cerevisiae, reduction of NAD(+) to NADH occurs in dissimilatory as well as in assimilatory reactions. This review discusses mechanisms for reoxidation of NADH in this yeast, with special emphasis on the metabolic compartmentation that occurs as a consequence of the impermeability of the mitochondrial inner membrane for NADH and NAD(+). At least five mechanisms of NADH reoxidation exist in S. cerevisiae. These are: (1) alcoholic fermentation; (2) glycerol production; (3) respiration of cytosolic NADH via external mitochondrial NADH dehydrogenases; (4) respiration of cytosolic NADH via the glycerol-3-phosphate shuttle; and (5) oxidation of intramitochondrial NADH via a mitochondrial 'internal' NADH dehydrogenase. Furthermore, in vivo evidence indicates that NADH redox equivalents can be shuttled across the mitochondrial inner membrane by an ethanol-acetaldehyde shuttle. Several other redox-shuttle mechanisms might occur in S. cerevisiae, including a malate-oxaloacetate shuttle, a malate-aspartate shuttle and a malate-pyruvate shuttle. Although key enzymes and transporters for these shuttles are present, there is as yet no consistent evidence for their in vivo activity. Activity of several other shuttles, including the malate-citrate and fatty acid shuttles, can be ruled out based on the absence of key enzymes or transporters. Quantitative physiological analysis of defined mutants has been important in identifying several parallel pathways for reoxidation of cytosolic and intramitochondrial NADH. The major challenge that lies ahead is to elucidate the physiological function of parallel pathways for NADH oxidation in wild-type cells, both under steady-state and transient-state conditions. This requires the development of techniques for accurate measurement of intracellular metabolite concentrations in separate metabolic compartments. 相似文献
66.
The vertebrate A-P axis is a time axis. The head is made first and more and more posterior levels are made at later and later stages. This is different to the situation in most other animals, for example, in Drosophila. Central to this timing is Hox temporal collinearity (see below). This occurs rarely in the animal kingdom but is characteristic of vertebrates and is used to generate the primary axial Hox pattern using time space translation and to integrate successive derived patterns (see below). This is thus a different situation than in Drosophila, where the primary pattern guiding Hox spatial collinearity is generated externally, by the gap and segmentation genes. 相似文献
67.
68.
This report describes a convenient method for the rapid and efficient
release of N-linked oligosaccharides from low microgram amounts of
glycoproteins. A 96-well MultiScreen assay system containing a
polyvinylidene difluoride (PVDF) membrane is employed to immobilize
glycoproteins for subsequent enzymatic deglycosylation. Recombinant
tissue-type plasminogen activator (rt-PA) is used to demonstrate the
deglycosylation of 0.1-50 micrograms of a glycoprotein. This method enabled
the recovery of a sufficient amount of N-linked oligosaccharides released
enzymatically with peptide N-glycosidase F (PNGaseF) from as little as 0.5
microgram rt-PA for subsequent analysis by matrix-assisted laser
desorption/ionization time-of-flight (MALDI- TOF) mass spectrometry. The
immobilization of rt-PA to the PVDF membrane did not sterically inhibit the
PNGaseF-mediated release of oligosaccharides from rt-PA as determined by
tryptic mapping experiments. Comparison of the oligosaccharides released
from 50 micrograms of rt-PA by either the 96-well plate method or by a
standard solution digestion procedure showed no significant differences in
the profiles obtained by high-pH anion-exchange chromatography with pulsed
amperometric detection (HPAEC-PAD). Both neutral and sialylated
oligosaccharide standards spiked into wells were recovered equally as
determined by HPAEC-PAD. One advantage of this approach is that reduction
and alkylation can be performed on submicrogram amounts of glycoproteins
with easy removal of reagents prior to PNGaseF digestion. In addition, this
method allows 60 glycoprotein samples to be deglycosylated in 1 day with
MALDI-TOF or HPAEC-PAD analysis being performed on the following day.
相似文献
69.
Strasser-Wozak EM Hartmann BL Geley S Sgonc R Böck G AJ Santos Hattmannstorfer R Wolf H Pavelka M Kofler R 《Cell death and differentiation》1998,5(8):687-693
The tumor suppressor p53 has been implicated in gamma irradiation-induced apoptosis. To investigate possible consequences of wild-type p53 loss in leukemia, we studied the effect of a single dose of gamma irradiation upon p53-deficient human T-ALL (acute lymphoblastic leukemia) CCRF - CEM cells. Exposure to 3 - 96 Gy caused p53-independent cell death in a dose and time-dependent fashion. By electron microscopic and other criteria, this cell death was classified as apoptosis. At low to intermediate levels of irradiation, apoptosis was preceded by accumulation of cells in the G2/M phase of the cell division cycle. Expression of Bcl-2 and Bax were not detectably altered after irradiation. Expression of the temperature sensitive mouse p53 V135 mutant induced apoptosis on its own but only slightly increased the sensitivity of CCRF - CEM cells to gamma irradiation. Thus, in these, and perhaps other leukemia cells, a p53- and Bcl-2/Bax-independent mechanism is operative that efficiently senses irradiation effects and translates this signal into arrest in the G2/M phase of the cell cycle and subsequent apoptosis. 相似文献
70.