480 research outputs found
The Need and Use the Rural ICT Services in Iranian Rural Areas
Nowadays, Internet access and use of information resources in all human societies are experiencing a rising trend, and different communities are used each with multiple infrastructures due to the benefits of ICT. The present study was based on applied research. In this research, a hybrid approach involving quantitative methods (survey) and qualitative (observation, interviews) was used. Statistical population of this study consists of two parts, the first part responsible for rural ICT offices, with a population of 125 people using Cochran Formula 80 subjects were selected as first sample, and the second part of the rural of first sample villages with a population of 84,836 people using Cochran formula and randomized-comparative method were studied as second sample. The questionnaire was subjected to reliability testing by using data collection in the pilot study with Cronbach's Alpha value 0.73 to 0.95 for all variables. SPSS statistical software was used to analysis the data. The results of the study indicate that the overall performance of the agencies providing services to the rural was lower-middle in the offices in banking services has received first place, and the final ranking in the provision of health services. The results of study showed that rural employment, level education and family size effect on the rate of rural ICT offices
Reliable propagation of Persian walnut varieties using SSR marker-based true-to-type validation
Simple sequence repeat (SSR) markers were used to authenticate ramets of 11 Persian walnut (Juglans regia L.) varieties. All varieties and 28 of their ramets (n = 39) were genotyped with 17 SSR markers. The genetic profiles revealed two off-types: the ramets Serr 4 (S4) and Vina 1 (V1). SSR fingerprints individuating 11 walnut varieties were possible using 13 polymorphic SSRs that could be used in the future to identify clones of these varieties. Except for ‘Chandler’, each cultivar could be distinguished using a combination of two SSR loci. This result emphasizes the efficacy of the SSR markers in true-to-type validation of walnut orchards
Tissue-specific transcriptome analysis reveals candidate genes for terpenoid and phenylpropanoid metabolism in the medicinal plant ferula assafoetida
© 2019 ABRF. Methionine oxidation plays a critical role in many processes of biologic and biomedical importance, including cellular redox responses and stability of protein pharmaceuticals. Bottom-up methods for analysis of methionine oxidation can suffer from incomplete sequence coverage, as well as an inability to readily detect correlated oxidation between 2 or more methionines. However, the methodology for quantifying protein oxidation in top-down analyses is lacking. Previous work has shown that electron transfer dissociation (ETD)–based tandem mass spectrometry (MS/MS) fragmentation offers accurate and precise quantification of amino acid oxidation in peptides, even in complex samples. However, the ability of ETD-based MS/MS fragmentation to accurately quantify amino acid oxidation of proteins in a top-down manner has not been reported. Using apomyoglobin and calmodulin as model proteins, we partially converted methionines into methionine sulfoxide by incubation in H2O2. Using top-down ETD-based fragmentation, we quantified the amount of oxidation of various ETD product ions and compared the quantified values with those from traditional bottom-up analysis. We find that overall quantification of methionine oxidation by top-down MS/MS ranges from good agreement with traditional bottom-up methods to vast differences between the 2 techniques, including missing oxidized product ions and large differences in measured oxidation quantities. Care must be taken in transitioning ETD-based quantitation of oxidation from the peptide level to the intact protein level
Impact of United States political sanctions on international collaborations and research in Iran
International research collaborations improve individual,
institutional and governmental capacities to respond
to health crises and inequalities but may be greatly
affected by political environments. Iran ranks highly
in tertiary education, productivity growth, knowledge
impact and successful patent applications. In many
countries, economic hardship has correlated with
increased international research collaborations. Some
have hypothesised that financial constraint drives scholars
to seek outside collaborations for cost and risk sharing,
and to access funding, materials and patient populations
otherwise unavailable. This paper explores the history
and importance of US political sanctions on the health
of Iran’s academic sector. Although Iran’s international
research collaborations increased during periods of
increased sanctions, the Pearson correlation coefficient
between gross domestic product and international
research collaborations was not significant (r=0.183,
p=0.417). This indicates that other factors are at least in
part responsible. Additionally, we found Iran’s quantitative
(eg, publication number) and qualitative (eg, visibility
indices) publishing metrics to be discordant (two-tailed
Mann–Kendall trend; p<0.0002 for both). Reasons for this
are multifactorial, including increased indexing of Iranian
journals, willingness of lower visibility journals to handle
manuscripts with Iranian authors, widespread linkage
of career advancement to science visibility indices, and
others. During periods of increased sanctions, Iranian
scholars were increasingly denied opportunities to publish
scientific findings, attend scientific meetings, access to
essential medical and laboratory supplies and information
resources. We conclude that academic boycotts violate
researchers’ freedom and curtail progress. Free exchange
of ideas irrespective of creed is needed to optimize global
scientific progress
Prevalence of helminth parasites in digestive tract of Persian sturgeon (Acipenser persicus) broodstocks southeast of the Caspian Sea
We collected 100 specimens of Persian sturgeon brood stocks propagated in Shahid Marjani Fish Culture Center to study internal parasites during March, April and May 2005. The center is located in the southeast of the Caspian Sea. Three different parasite species were recovered from digestive tract (stomach and intestine) of the fish. Cucullanus sphaerocephalus, Skrjabinopsolus semiarmatus showed the highest incidence and highest mean intensity (with prevalence of 80% and 55% respectively) but Leptorhynchoides plagicephalus had the lower prevalene 2 %. The prevalence of S. semiarmatus and C. sphaerocephalus were higher in males than in females whereas the intensity of these parasites was higher in females than in males. Statistical analysis of data showed a significant relationship between the occurrence of S. semiarmatus and the sex of the fish. There was a significant relationship between the occurrence of C. sphaerocephalus and the length of the fish (P 6 0.05). Forty nine percent of the fish had less than 10 worms. It was also found that the internal parasites of A. persicus in the southeast of the Caspian Sea are the same as those found in the southwest but the diversity of parasites were fewer in the former
Comparative Genomic and Transcriptomic Analyses of Mycobacterium kansasii Subtypes Provide New Insights Into Their Pathogenicity and Taxonomy
Mycobacterium kansasii is an important opportunistic pathogen of humans and has a
close phylogenetic relationship with Mycobacterium tuberculosis. Seven subtypes (I–VII)
have been identified using molecular biology approaches, of which subtype I is the
most frequent causative agent of human disease. To investigate the genotypes and
pathogenic components of M. kansasii, we sequenced and compared the complete
base-perfect genomes of different M. kansasii subtypes. Our findings support the
proposition that M. kansasii “subtypes” I-VI, whose assemblies are currently available,
should be considered as different species. Furthermore, we identified the exclusive
presence of the espACD operon in M. kansasii subtype I, and we confirmed its role in the
pathogenicity of M. kansasii in a cell infection model. The espACD operon is exclusively
present in mycobacterial species that induce phagosomal rupture in host phagocytes
and is known to be a major determinant of ESX1-mediated virulence in pathogenic
mycobacteria. Comparative transcriptome analysis of the M. kansasii I-V strains identified
genes potentially associated with virulence. Using a comparative genomics approach,
we designed primers for PCR genotyping of M. kansasii subtypes I-V and tested their
efficacy using clinically relevant strains of M. kansasii.Work in AP's laboratory was supported by the KAUST faculty baseline fund (BAS/1/1020-01- 01
Luminescent Gold Nanocluster-Methylcellulose Composite Optical Fibers with Low Attenuation Coefficient and High Photostability
Because of their lightweight structure, flexibility, and immunity to electromagnetic interference, polymer optical fibers (POFs) are used in numerous short-distance applications. Notably, the incorporation of luminescent nanomaterials in POFs offers optical amplification and sensing for advanced nanophotonics. However, conventional POFs suffer from nonsustainable components and processes. Furthermore, the traditionally used luminescent nanomaterials undergo photobleaching, oxidation, and they can be cytotoxic. Therefore, biopolymer-based optical fibers containing nontoxic luminescent nanomaterials are needed, with efficient and environmentally acceptable extrusion methods. Here, such an approach for fibers wet-spun from aqueous methylcellulose (MC) dispersions under ambient conditions is demonstrated. Further, the addition of either luminescent gold nanoclusters, rod-like cellulose nanocrystals or gold nanocluster-cellulose nanocrystal hybrids into the MC matrix furnishes strong and ductile composite fibers. Using cutback attenuation measurement, it is shown that the resulting fibers can act as short-distance optical fibers with a propagation loss as low as 1.47 dB cm(-1). The optical performance is on par with or even better than some of the previously reported biopolymeric optical fibers. The combination of excellent mechanical properties (Young's modulus and maximum strain values up to 8.4 GPa and 52%, respectively), low attenuation coefficient, and high photostability makes the MC-based composite fibers excellent candidates for multifunctional optical fibers and sensors.Peer reviewe
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