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排序方式: 共有315条查询结果,搜索用时 15 毫秒
1.
Clayton T Larue Michael Goley Lei Shi Artem G Evdokimov Oscar C Sparks Christine Ellis Andrew M Wollacott Timothy J Rydel Coralie E Halls Brook Van Scoyoc Xiaoran Fu Jeffrey R Nageotte Adewale M Adio Meiying Zheng Eric J Sturman Graeme S Garvey Marguerite J Varagona 《Pest management science》2019,75(8):2086-2094
2.
We established protocols for the analysis of genetic diversity in chayote (Sechium edule) by using isozyme markers, thereby determining the level of genetic diversity present in 42 accessions of chayote from Costa
Rica. We obtained clear and reproducible zymograms for eight enzyme staining systems: PGM, 6-PGD, PGI, IDH, MDH, SOD, SKD,
and EST, and were able to score 14 putative loci. Eight of the 14 loci examined were polymorphic. We found 35 distinct multilocus
genotypes among these accessions. Five of these multilocus genotypes were homozygous for all loci. In addition, our data also
revealed that most of the multilocus genotypes (24) were heterozygous for only one of the eight loci, and the rest were heterozygous
for two or three loci (9 and 4 accessions, respectively). Seven multilocus genotypes were found in two different accessions.
Dice similarity coefficient was used to study the relationship between accessions. This analysis, based on the presence and
absence of alleles, revealed that accessions collected in the same location seldom shared the same multilocus genotype. The
value of isozyme polymorphisms as tools to continue studies on the characterization of chayote is discussed. 相似文献
3.
Clayton T Larue Joel E Ream Xuefeng Zhou Farhard Moshiri Arlene Howe Michael Goley Oscar C Sparks Steven T Voss Erin Hall Christine Ellis Janice Weihe Qungang Qi Daniela Ribeiro Xiaoping Wei Shirley Guo Artem G Evdokimov Marguerite J Varagona James K Roberts 《Pest management science》2020,76(3):1031-1038
4.
Frederic Vandeperre Ruth M. Higgins Julio Sánchez‐Meca Francesc Maynou Raquel Goñi Pablo Martín‐Sosa Angel Pérez‐Ruzafa Pedro Afonso Iacopo Bertocci Romain Crec’hriou Giovanni D’Anna Mark Dimech Carmelo Dorta Oscar Esparza Jesús M. Falcón Aitor Forcada Ivan Guala Laurence Le Direach Concepción Marcos Celia Ojeda‐Martínez Carlo Pipitone Patrick J. Schembri Vanessa Stelzenmüller Ben Stobart Ricardo S. Santos 《Fish and Fisheries》2011,12(4):412-426
Marine protected areas (MPAs) are often promoted as tools for biodiversity conservation as well as for fisheries management. Despite increasing evidence of their usefulness, questions remain regarding the optimal design of MPAs, in particular concerning their function as fisheries management tools, for which empirical studies are still lacking. Using 28 data sets from seven MPAs in Southern Europe, we developed a meta‐analytical approach to investigate the effects of protection on adjacent fisheries and asking how these effects are influenced by MPA size and age. Southern European MPAs showed clear effects on the surrounding fisheries, on the ‘catch per unit effort’ (CPUE) of target species, but especially on the CPUE of the marketable catch. These effects depended on the time of protection and on the size of the no‐take area. CPUE of both target species and the marketable catch increased gradually by 2–4% per year over a long time period (at least 30 years). The influence of the size of the no‐take area appeared to be more complex. The catch rates of the entire fishery in and around the MPA were higher when the no‐take areas were smaller. Conversely, catch rates of selected fisheries that were expected to benefit most from protection increased when the no‐take area was larger. Our results emphasize the importance of MPA size on its export functions and suggest that an adequate, often extended, time frame be used for the management and the evaluation of effectiveness of MPAs. 相似文献
5.
Oscar Goñi María T. Sanchez-Ballesta Carmen Merodio María I. Escribano 《Postharvest Biology and Technology》2010,55(3):169-173
In order to obtain a better understanding of the active defense strategy of cherimoya (Annona cherimola Mill.) fruit, hydrolytic and antifungal activity, as well as expression of proteins functionally and immunogenically related to the pathogenesis-related proteins chitinase (PR-Q) and 1,3-β-glucanase (PR-2), were estimated in fruit at different ripening stages. Increase in expression of the 27 kDa constitutive chitinase and the induction of two new proteins, a 26 kDa chitinase and a 51 kDa 1,3-β-glucanase were associated with enhanced in vitro hydrolytic and antifungal activity of the acidic protein extract in ripe fruit. Ripening modified the expression of constitutive basic isoenzymes, with a sharp decrease in both relative accumulation and hydrolytic activity. Likewise, a new basic 33 kDa chitinase was induced in the over-ripe fruit, concomitant with accumulation of a basic constitutive 76 kDa 1,3-β-glucanase. At this stage, the basic protein extract modified in vitro growth inhibition of Botrytis cinerea. Short-term high CO2 treatment delayed fruit ripening and maintained a similar distribution of activity and isoenzymatic pattern in both protein fractions to that in unripe fruit. These results indicate that the changes in the pattern of defense proteins and hydrolytic activity in cherimoyas appear to be associated with ripening. Moreover, unlike the constitutively expressed isoenzymes, only the transitorily induced chitinases and 1,3-β-glucanases were associated with an active defense-related response. 相似文献
6.
Oscar González‐Davis Elizabeth Ponce‐Rivas M. Del Pilar Sánchez‐Saavedra María‐Enriqueta Muñoz‐Márquez William H. Gerwick 《Journal of the World Aquaculture Society》2012,43(3):387-399
Vibrio spp. are the most common and harmful shrimp pathogenic bacteria; however, microalgae and cyanobacteria have the ability to produce antimicrobial substances against these species. In this study, the organic and aqueous extracts of 28 species of marine microalgae and cyanobacteria were screened against Vibrio campbellii M1. Two of these phytoplankton species with antibacterial activity in aqueous extracts (Dunaliella tertiolecta and Skeletonema costatum) and nontoxic to brine shrimp Artemia franciscana nauplii were used to evaluate their anti‐Vibrio effect when used as green‐water cultures in Vibrio‐challenged white shrimp Litopenaeus vannamei cultures. No differences in mortality of juvenile L. vannamei were observed between treatments tested, suggesting that the pathogenicity of V. campbellii could be related to the growth stage of shrimp. The proximal composition of D. tertiolecta and S. costatum was in the recommended range for penaeid shrimp nutrition, allowing shrimp supplemented with these microalgae to have significantly greater total length and weight than control shrimp. Shrimp supplemented with S. costatum presented the highest values of organic mass (11.48 mg/organism) and growth rate (0.31 mg/d) in comparison to D. tertiolecta. These results indicate that microalgae are not only capable of producing antibacterial compounds against Vibrio but can also help shrimp nutrition. 相似文献
7.
The study was undertaken to determine if membrane preparations of bovine mammary tissue bound insulin. If binding occurred, it was also the intent to compare binding kinetics between microsomes and smooth membranes. Insulin binding to bovine mammary membranes attained equilibrium, was saturable and was specific for insulin. Additional studies showed binding to be pH sensitive and maximal at 10 mM calcium. Binding affinity of insulin to microsomes and smooth membranes was similar, with the exception that smooth membranes bound 1.8 times more insulin per unit of membrane protein than microsomes. Two different methods were used to generate data for kinetic analysis of the insulin-receptor interaction in microsomes. Competitive binding assays (.6 ng [125I]insulin plus 0 to 100 ng insulin) indicated the presence of two binding sites with dissociation constants (Kd) of .32 and 15.8 nM. Direct titration of microsomes with [125I]insulin (.02 to 10 ng/ml) revealed two binding sites with Kd of .017 and .31 nM. The affinity of the second binding site measured by the competitive binding assay method (Kd of 15.8 nM) is low and therefore may not be of physiological importance for insulin action. Insulin appears to bind to two high-affinity receptor sites in bovine mammary microsomes with Kds of .017 nM and .32 nM. These findings show that bovine mammary tissue contains receptors for insulin. In addition, isolation of smooth membranes from microsomes enriches the number of insulin receptors per unit of membrane protein without altering their binding characteristics. 相似文献
8.
Ariena H. C. van Bruggen Alexander M. Semenov Anne D. van Diepeningen Oscar J. de Vos Wim J. Blok 《European journal of plant pathology / European Foundation for Plant Pathology》2006,115(1):105-122
A healthy soil is often defined as a stable soil system with high levels of biological diversity and activity, internal nutrient
cycling, and resilience to disturbance. This implies that microbial fluctuations after a disturbance would dampen more quickly
in a healthy than in a chronically damaged and biologically impoverished soil. Soil could be disturbed by various processes,
for example addition of a nutrient source, tillage, or drying-rewetting. As a result of any disturbance, the numbers of heterotrophic
bacteria and of individual species start to oscillate, both in time and space. The oscillations appear as moving waves along
the path of a moving nutrient source such as a root tip. The phase and period for different trophic groups and species of
bacteria may be shifted indicating that succession occurs. DGGE, Biolog and FAME analysis of subsequent populations in oscillation
have confirmed that there is a cyclic succession in microbial communities. Microbial diversity oscillates in opposite direction
from oscillations in microbial populations. In a healthy soil, the amplitudes of these oscillations will be small, but the
background levels of microbial diversity and activity are high, so that soil-borne diseases will face more competitors and
antagonists. However, soil-borne pathogens and antagonists alike will fluctuate in time and space as a result of growing plant
roots and other disturbances, and the periods and phases of the oscillations may vary. As a consequence, biological control
by members of a single trophic group or species may never be complete, as pathogens will encounter varying populations of
the biocontrol agent on the root surface. A mixture of different trophic groups may provide more complete biological control
because peaks of different trophic groups occur at subsequent locations along a root. Alternatively, regular addition of soil
organic matter may increase background levels of microbial activity, increase nutrient cycling, lower the concentrations of
easily available nutrient sources, increase microbial diversity, and enhance natural disease suppression. 相似文献
9.
Carmen Gayoso Oscar Martínez de Ilárduya Federico Pomar Fuencisla Merino de Cáceres 《European journal of plant pathology / European Foundation for Plant Pathology》2007,118(3):199-209
Real-time PCR was used to detect and quantify Verticillium dahliae and to assess the susceptibility of four Capsicum annuum cultivars (Luesia, Padrón, SCM331 and PI201234) and the Capsicum chinense cv. C118 to this pathogen. The symptoms which developed after infection included stunting and yellowing, and were more acute
in the cv. SCM331, which also suffered defoliation in later stages of the disease and in C118, which suffered severe stunting.
Quantification of the pathogen DNA in roots 23 and 34 days post-inoculation (dpi) revealed that there were significantly higher
amounts of Verticillium dahliae DNA in C118 than in the other cultivars, followed by SCM331, Padrón and PI201234. The lowest amounts of fungal DNA in roots
were found in Luesia. In hypocotyls, the highest amounts of fungal DNA were found in SCM331, while Luesia, Padrón and PI201234
had much lower amounts, and C118 had intermediate levels. When a compatible versus an incompatible system was studied, using
the near-isogenic tomato lines LA3030 (susceptible) and LA3038 (resistant to V. dahliae), we were able to detect fungal DNA in both lines. As expected, the fungus/plant DNA ratio was lower in LA3038 than in LA3030
and it decreased with time in LA3038. The amount of Verticillium dahliae DNA in the roots of LA3030 remained constant between days 23 and 34 post-inoculation, but increased 10-fold in collars. Finally,
when real-time PCR was applied as a diagnostic method to samples from pepper plants, soil and water collected from farms in
northwest Spain, we were able to detect V. dahliae DNA in these samples even when symptoms of the disease were not evident. 相似文献
10.
Nevain A. S. Messiha Ariena H. C. van Bruggen Anne D. van Diepeningen Oscar J. de Vos Aad J. Termorshuizen N. N. A. Tjou-Tam-Sin J. D. Janse 《European journal of plant pathology / European Foundation for Plant Pathology》2007,119(4):367-381
Ralstonia solanacearum race 3 biovar 2, the causative agent of potato brown rot (bacterial wilt), is an economically important disease in tropical,
subtropical and temperate regions of the world. In view of previous reports on suppression of the disease by organic amendments,
and the expansion of organic agriculture, it was timely to compare the effects of organic and conventional management and
various amendments on brown rot development in different soils (type: sand or clay; origin: Egypt or the Netherlands). Brown
rot infection was only slightly reduced in organically compared to conventionally managed sandy soils from Egypt, but organic
management significantly increased disease incidence and pathogen survival in Dutch sandy and clay soils, which correlated
with high DOC contents in the organic Dutch soils. There was no correlation between disease incidence or severity and bacterial
diversity in the potato rhizosphere in differently managed soils (as determined by 16S DGGE). NPK fertilization reduced bacterial
wilt in conventional Egyptian soils but not in Dutch soils. Cow manure amendment significantly reduced disease incidence in
organic Dutch sandy soils, but did not affect the bacterial population. However, cow manure did reduce densities of R. solanacearum in Egyptian sandy soils, most probably by microbial competition as a clear shift in populations was detected with DGGE in
these and Dutch sandy soils after manure amendment. Amendment with compost did not have a suppressive effect in any soil type.
The absence of a disease suppressive effect of mineral and organic fertilization in Dutch clay soils may be related to the
already high availability of inorganic and organic nutrients in these soils. This study shows that the mechanism of disease
suppression of soil-borne plant pathogens may vary strongly according to the soil type, especially if quite different types
of soil are used. 相似文献