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101.
Effects of combined expression of antifungal barley seed proteins in transgenic wheat on powdery mildew infection 总被引:7,自引:0,他引:7
Bieri Stéphane Potrykus Ingo Fütterer Johannes 《Molecular breeding : new strategies in plant improvement》2003,11(1):37-48
Transgenicwheat plants (variety Frisal) constitutively expressing a number of potentialantifungal proteins alone or in combinations were generated and tested forincreased resistance to Blumeria graminis f.sp. tritici(powdery mildew) in a detached leaf infection assay. The most significativerateof protection was obtained with an apoplastic ribosome-inactivation proteinfrombarley seed. Apoplastic Barnase was less efficient and individual plant linesharbouring a barley seed chitinase and -1,3-glucanase showed linespecificphenotypes from increased resistance to increased susceptibility. Combinationbycrossing of three barley seed proteins did not lead to significant improvementof protection. 相似文献
102.
103.
Schumacher J Otte AC Becker T Sun Y Wienker TF Wirth B Franke P Abou Jamra R Propping P Deckert J Nöthen MM Cichon S 《Human genetics》2003,114(1):115-117
A duplication of chromosome 15q24-q26 (DUP25) has been reported to be associated with anxiety disorders. We tested for the presence of DUP25 in a sample of 50 patients with panic disorder and 50 controls using a quantitative real-time PCR approach. Contrary to the original finding, our results were compatible with the absence of DUP25, and no significant difference could be detected between patients and controls (P=1.0). Thus, our study does not support the hypothesis of an involvement of DUP25 in panic disorder. 相似文献
104.
Gong X Xie T Yu L Hesterberg M Scheide D Friedrich T Yu CA 《The Journal of biological chemistry》2003,278(28):25731-25737
An azido-ubiquinone derivative, 3-azido-2-methyl-5-methoxy[3H]-6-decyl-1,4-benzoquinone ([3H]azido-Q), was used to study the ubiquinone/protein interaction and to identify the ubiquinone-binding site in Escherichia coli NADH:ubiquinone oxidoreductase (complex I). The purified complex I showed no loss of activity after incubation with a 20-fold molar excess of [3H]azido-Q in the dark. Illumination of the incubated sample with long wavelength UV light for 10 min at 0 degrees C caused a 40% decrease of NADH:ubiquinone oxidoreductase activity. SDS-PAGE of the complex labeled with [3H]azido-Q followed by analysis of the radioactivity distribution among the subunits revealed that subunit NuoM was heavily labeled, suggesting that this protein houses the Q-binding site. When the [3H]azido-Q-labeled NuoM was purified from the labeled reductase by means of preparative SDS-PAGE, a 3-azido-2-methyl-5-methoxy-6-decyl-1,4-benzoquinone-linked peptide, with a retention time of 41.4 min, was obtained by high performance liquid chromatography of the protease K digest of the labeled subunit. This peptide had a partial NH2-terminal amino acid sequence of NH2-VMLIAILALV-, which corresponds to amino acid residues 184-193 of NuoM. The secondary structure prediction of NuoM using the Toppred hydropathy analysis showed that the Q-binding peptide overlaps with a proposed Q-binding motif located in the middle of the transmembrane helix 5 toward the cytoplasmic side of the membrane. Using the PHDhtm hydropathy plot, the labeled peptide is located in the transmembrane helix 4 toward the periplasmic side of the membrane. 相似文献
105.
In caulonemal filaments of the mossPhyscomitrella patens (Hedw.), red light triggers a phytochrome-mediated transient depolarisation of the plasma membrane and the formation of side branch initials. Three-electrode voltage clamp and ion flux measurements were employed to elucidate the ionic mechanism and physiological relevance of the red-light-induced changes in ion transport. Current-voltage analyses indicated that ion channels permeable to K+ and Ca2+ are activated at the peak of the depolarisation. Calcium influx evoked by red light coincided with the depolarisation in various conditions, suggesting the involvement of voltage-gated Ca2+ channels. Respective K+ fluxes showed a small initial influx followed by a dramatic transient efflux. A role of anion channels in the depolarising current is suggested by the finding that Cl– efflux was also increased after red light irradiation. In the presence of tetraethylammonium (10 mM) or niflumic acid (1 M), which block the red-light-induced membrane depolarisation and ion fluxes, the red-light-promoted formation of side branch initials was also abolished. Lanthanum (100 M), which inhibits K+ fluxes and part of the initial Ca2+ influx activated by red light, reduced the development of side branch initials in red light by 50%. The results suggest a causal link between the red-light-induced ion fluxes and the physiological response. The sequence of events underlying the red-light-triggered membrane potential transient and the role of ion transport in stimulus-response coupling are discussed in terms of a new model for ion-channel interaction at the plasma membrane during signalling.Abbreviations [Ca2+]c
cytosolic free Ca2+
- I-V
current-voltage
- E
equilibrium potential
- Pr
red-light-absorbing phytochrome form
- Pr
far-red-light-absorbing phytochrome form
- SPQ
6-methoxy-l-(3-sulphonatopropyl)quinolinium
- TEA
tetraethylammonium 相似文献
106.
Summary A reproducible Romanowsky-Giemsa staining (RGS) can be carried out with standardized staining solutions containing the two dyes azure B (AB) and eosin Y (EY). After staining, cell nuclei have a purple coloration generated by DNA-AB-EY complexes. The microspectra of cell nuclei have a sharp and intense absorption band at 18 100 cm–1 (552 nm), the so called Romanowsky band (RB), which is due to the EY chromophore of the dye complexes. Other absorption bands can be assigned to the DNA-bound AB cations.Artificial DNA-AB-EY complexes can be prepared outside the cell by subsequent staining of DNA with AB and EY. In the first step of our staining experiments we prepared thin films of blue DNA-AB complexes on microslides with 1:1 composition: each anionic phosphodiester residue of the nucleic acid was occupied by one AB cation. Microspectrophotometric investigations of the dye preparations demonstrated that, besides monomers and dimers, mainly higher AB aggregates are bound to DNA by electrostatic and hydrophobic interactions. These DNA-AB complexes are insoluble in water. Therefore it was possible to stain the DNA-AB films with aqueous EY solutions and also to prepare insoluble DNA-AB-EY films in the second step of the staining experiments. After the reaction with EY, thin sites within the dye preparations were purple. The microspectra of the purple spots show a strong Romanowsky band at 18 100 cm–1. Using a special technique it was possible to estimate the composition of the purple dye complexes. The ratio of the two dyes was approximately EY:AB1:3. The EY anions are mainly bound by hydrophobic interaction to the AB framework of the electrical neutral DNA-AB complexes. The EY absorption is red shifted by the interaction of EY with the AB framework of DNA-AB-EY. We suppose that this red shift is caused by a dielectric polarization of the bound EY dianions.The DNA chains in the DNA-AB complexes can mechanically be aligned in a preferred direction k. Highly orientated dye complexes prepared on microslides were birefringent and dichroic. The orientation is maintained during subsequent staining with aqueous EY solutions. In this way we also prepared highly orientated purple DNA-AB-EY complexes on microslides. The light absorption of both types of dye complexes was studied by means of a microspectrophotometer equipped with a polarizer and an analyser. The sites of best orientation within the dye preparations were selected under crossed nicols according to the quality of birefringence. Subsequently, the absorption spectra of the highly orientated dye complexes were measured with plane polarized light. We found that the transition moments, m
AB, of the bound AB cations in DNA-AB and DNA-AB-EY are orientated almost perpendicular to k, i.e. m
ABk. On the contrary, the transition moments, m
EY, of the bound EY anions in DNA-AB-EY are polarized parallel to k, i.e. m
EY k. The transition moments m
AB and m
EY lay in the direction of the long axes of the AB and EY chromophores. For that reason, in both DNA-AB and DNA-AB-EY the long molecular axes of the AB cations are orientated approximately perpendicular to the DNA chains, while the long molecular axes of the EY chromophores are polarized in the direction of the DNA chains. Therefore, in DNA-AB-EY the long axes of AB and EY are perpendicular to each other, m
ABm
EY. This molecular arrangement fully agrees with our quantitative measurements and with the theory of the absorption of plane polarized light by orientated dye complexes, which has been developed and discussed in detail. 相似文献
107.
108.
109.
110.
W G Zumft A Dreusch S L?chelt H Cuypers B Friedrich B Schneider 《European journal of biochemistry》1992,208(1):31-40
The nosZ genes encoding the multicopper enzyme nitrous oxide reductase of Alcaligenes eutrophus H16 and the type strain of Pseudomonas aeruginosa were cloned and sequenced for structural comparison of their gene products with the homologous product of the nosZ gene from Pseudomonas stutzeri [Viebrock, A. & Zumft, W. G. (1988) J. Bacteriol. 170, 4658-4668] and the subunit II of cytochrome-c oxidase (COII). Both types of enzymes possess the CuA binding site. The nosZ genes were identified in cosmid libraries by hybridization with an internal 1.22-kb PstI fragment (NS220) of nosZ from P. stutzeri. The derived amino acid sequences indicate unprocessed gene products of 70084 Da (A. eutrophus) and 70695 Da (P. aeruginosa). The N-terminal sequences of the NosZ proteins have the characteristics of signal peptides for transport. A homologous domain, extending over at least 50 residues, is shared among the three derived NosZ sequences and the CuA binding region of 32 COII sequences. Only three out of nine cysteine residues of the NosZ protein (P. stutzeri) are invariant. Cys618 and Cys622 are assigned to a binuclear center, A, which is thought to represent the CuA site of NosZ and is located close to the C terminus. Two conserved histidines, one methionine, one aspartate, one valine and two aromatic residues are also part of the CuA consensus sequence, which is the domain homologous between the two enzymes. The CuA consensus sequence, however, lacks four strictly conserved residues present in all COII sequences. Cys165 is likely to be a ligand of a second binuclear center, Z, for which we assume mainly histidine coordination. Of 23 histidine residues in NosZ (P. stutzeri), 14 are invariant, 7 of which are in regions with a degree of conservation well above the 50% positional identity between the Alcaligenes and Pseudomonas sequences. Conserved tryptophan residues are located close to several potential copper ligands. Trp615 may contribute to the observed quenching of fluorescence when the CuA site is occupied. 相似文献