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101.
Mature citrus fruits, which are classified as non-climacteric, evolve very low amounts of ethylene during ripening but respond to exogenous ethylene by ripening-related pigment changes and accelerated respiration. In the present study we show that young citrus fruitlets attached to the tree produce high levels of ethylene, which decrease dramatically towards maturation. Upon harvest, fruitlets exhibited a climacteric-like rise in ethylene production, preceded by induction of the genes for 1-aminocyclopropane-1-carboxylate (ACC) synthase 1 (CsACS1), ACC oxidase 1 (CsACO1) and the ethylene receptor CsERS1. This induction was advanced and augmented by exogenous ethylene or propylene, indicating an autocatalytic system II-like ethylene biosynthesis. In mature, detached fruit, very low rates of ethylene production were associated with constitutive expression of the ACC synthase 2 (CsACS2) and ethylene receptor
CsETR1 genes (system I). CsACS1
gene expression was undetectable at this stage, even following ethylene or propylene treatment, and CsERS1 gene expression remained constant, indicating that no autocatalytic response had occurred. The transition from system II-like behavior of young fruitlets to system I behavior appears to be under developmental control.Abbreviations ACC
1-Aminocyclopropane-1-carboxylate
- CsACS1, CsACS2
ACC synthase
- CsACO1
ACC oxidase
- CsERS1, CsETR1
Ethylene receptors
- DAFB
Days after full bloom
- 1-MCP
1-Methylcyclopropene 相似文献
102.
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104.
Cherny I Rockah L Levy-Nissenbaum O Gophna U Ron EZ Gazit E 《Journal of molecular biology》2005,352(2):245-252
Amyloid fibril formation is the hallmark of major human maladies including Alzheimer's disease, type II diabetes, and prion diseases. Prion-like phenomena were also observed in yeast. Although not evolutionarily related, one similarity between the animal PrP and the yeast Sup35 prion proteins is the occurrence of short peptide repeats that are assumed to play a key role in the assembly of the amyloid structures. It was recently demonstrated that typical amyloid fibril formation is associated with biofilm formation by Escherichia coli. Here, we note the functional and structural similarity between oligopeptide repeats of the major curli protein and those of animal and yeast prions. We demonstrate that synthetic peptides corresponding to the repeats form fibrillar structures. Furthermore, conjugation of beta-breaker elements to the prion-like repeat significantly inhibits amyloid formation and cell invasion of curli-expressing bacteria. This implies a functional role of the repeat in the self-assembly of the fibrils. Since mammal prion, yeast prion, and curli protein are evolutionarily distinct, the conserved peptide repeats most likely define an optimized self-association motif that was independently evolved by diverse systems. 相似文献
105.
Schoonbroodt S Frans N DeSouza M Eren R Priel S Brosh N Ben-Porath J Zauberman A Ilan E Dagan S Cohen EH Hoogenboom HR Ladner RC Hoet RM 《Nucleic acids research》2005,33(9):e81
The use of oligonucleotide-assisted cleavage and ligation (ONCL), a novel approach to the capture of gene repertoires, in the construction of a phage-display immune antibody library is described. ONCL begins with rapid amplification of cDNA ends to amplify all members equally. A single, specific cut near 5′ and/or 3′ end of each gene fragment (in single stranded form) is facilitated by hybridization with an appropriate oligonucleotide adapter. Directional cloning of targeted DNA is accomplished by ligation of a partially duplex DNA molecule (containing suitable restriction sites) and amplification with primers in constant regions. To demonstrate utility and reliability of ONCL, a human antibody repertoire was cloned from IgG mRNA extracted from human B-lymphocytes engrafted in Trimera mice. These mice were transplanted with peripheral blood lymphocytes from Candida albicans infected individuals and subsequently immunized with C.albicans glyceraldehyde-3-phosphate dehydrogenase (GAPDH). DNA sequencing showed that ONCL resulted in efficient capture of gene repertoires. Indeed, full representation of all VH families/segments was observed showing that ONCL did not introduce cloning biases for or against any VH family. We validated the efficiency of ONCL by creating a functional Fab phage-display library with a size of 3.3 × 1010 and by selecting five unique Fabs against GAPDH antigen. 相似文献
106.
Despite tremendous progress in the study of voltage-gated channels, the molecular mechanism underlying voltage sensing has remained a matter of debate. We review five new studies that make major progress in the field. The studies employ a battery of distinct approaches that have the common aim of measuring the motion of the voltage sensor. We interpret the results in light of the recent crystal structure of the mammalian potassium channel Kv1.2. We focus on the transmembrane movement of the voltage sensor as a key element to the detection of membrane potential and to the control of channel gating. 相似文献
107.
108.
Coley SE Lavi E Sawicki SG Fu L Schelle B Karl N Siddell SG Thiel V 《Journal of virology》2005,79(5):3097-3106
Mouse hepatitis virus (MHV) is the prototype of group II coronaviruses and one of the most extensively studied coronaviruses. Here, we describe a reverse genetic system for MHV (strain A59) based upon the cloning of a full-length genomic cDNA in vaccinia virus. We show that the recombinant virus generated from cloned cDNA replicates to the same titers as the parental virus in cell culture ( approximately 10(9) PFU/ml), has the same plaque morphology, and produces the same amounts and proportions of genomic and subgenomic mRNAs in virus-infected cells. In a mouse model of neurological infection, the recombinant and parental viruses are equally virulent, they replicate to the same titers in brain and liver, and they induce similar patterns of acute hepatitis, acute meningoencephalitis, and chronic demyelination. We also describe improvements in the use of the coronavirus reverse genetic system based on vaccinia virus cloning vectors. These modifications facilitate (i) the mutagenesis of cloned cDNA by using vaccinia virus-mediated homologous recombination and (ii) the rescue of recombinant coronaviruses by using a stable nucleocapsid protein-expressing cell line for the electroporation of infectious full-length genomes. Thus, our system represents a versatile and universal tool to study all aspects of MHV molecular biology and pathogenesis. We expect this system to provide valuable insights into the replication of group II coronaviruses that may lead to the development of novel strategies against coronavirus infections, including the related severe acute respiratory syndrome coronavirus. 相似文献
109.
110.
Yana Reznick Ehud Banin Anat Lipovsky Rachel Lubart Pazit Polak Zeev Zalevsky 《Journal of visualized experiments : JoVE》2013,(77)
Recently there were several publications on the bactericidal effect of visible light, most of them claiming that blue part of the spectrum (400 nm-500 nm) is responsible for killing various pathogens1-5. The phototoxic effect of blue light was suggested to be a result of light-induced reactive oxygen species (ROS) formation by endogenous bacterial photosensitizers which mostly absorb light in the blue region4,6,7. There are also reports of biocidal effect of red and near infra red8 as well as green light9.In the present study, we developed a method that allowed us to characterize the effect of high power green (wavelength of 532 nm) continuous (CW) and pulsed Q-switched (Q-S) light on Pseudomonas aeruginosa. Using this method we also studied the effect of green light combined with antibiotic treatment (gentamycin) on the bacteria viability. P. aeruginosa is a common noscomial opportunistic pathogen causing various diseases. The strain is fairly resistant to various antibiotics and contains many predicted AcrB/Mex-type RND multidrug efflux systems10.The method utilized free-living stationary phase Gram-negative bacteria (P. aeruginosa strain PAO1), grown in Luria Broth (LB) medium exposed to Q-switched and/or CW lasers with and without the addition of the antibiotic gentamycin. Cell viability was determined at different time points. The obtained results showed that laser treatment alone did not reduce cell viability compared to untreated control and that gentamycin treatment alone only resulted in a 0.5 log reduction in the viable count for P. aeruginosa. The combined laser and gentamycin treatment, however, resulted in a synergistic effect and the viability of P. aeruginosa was reduced by 8 log''s.The proposed method can further be implemented via the development of catheter like device capable of injecting an antibiotic solution into the infected organ while simultaneously illuminating the area with light. 相似文献