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861.
Identification and molecular mapping of Rps11, a novel gene conferring resistance to Phytophthora sojae in soybean 总被引:1,自引:0,他引:1
862.
Eran J. Yavin Oren Rosen Michel Pontet Enid G. Shephard Mati Fridkin 《Letters in Peptide Science》1995,2(1):7-16
Summary Proteolysis of human C-reactive protein (CRP) by lysosomal enzymes derived from human neutrophils is shown to yield short peptides capable of modulating the production of superoxide ions by stimulated human neutrophils. Thus, fractionation of trichloroacetic acid-soluble digestion mixtures by HPLC yielded the following peptides: Ser-Tyr (1), Gly-Tyr (2), Phe-Glu-Val-Pro-Glu-Val-Thr (3), Trp-Asp-Phe-Val (4), Asn-Met-Trp-Asp-Phe-Val (5) and Gln-Leu-Trp-Pro (6). These peptides, corresponding to CRP sequences 18–19, 48–49 and/or 72–73, 84–90, 162–165, 160–165 and 203–206, respectively, have been synthesized and peptides 2, 3 and in particular peptide 6 were found to significantly inhibit neutrophilic function. The results suggest that CRP-derived peptides may be capable of regulating superoxide ion production by neutrophils in vivo during the acute phase response as part of a complex protective mechanism. 相似文献
863.
J. Vančurík 《Folia microbiologica》1966,11(2):131-138
Formation of postinfection (postvaccination) immunity in anthrax and tularemia in irradiated animals has been found to be highly resistant to the effect of X-irradiation and independent of the time interval between vaccination and irradiation. However, the development of immunity was slowed down. Discrepancy between low antibody response and pronounced ability to resist even massive doses of active infaction has been observed, indicating that the onset of postinfection immunity is associated with factors less susceptible to irradiation than is formation of antibodies. The mechanism of such phenomenon is discussed. 相似文献
864.
Khulood M. Al-Khater Sarah Almofty Vijaya Ravinayagam Noor Alrushaid Suriya Rehman 《Saudi Journal of Biological Sciences》2021,28(6):3391-3398
Globally, breast cancer is the most common type of cancer in females and is one of the leading causes of cancer death in women. The advancement in the targeted therapies and the slight understanding of the molecular cascades of the disease have led to small improvement in the rate of survival of breast cancer patients. However, metastasis and resistance to the current drugs still remain as challenges in the management of breast cancer patients. Metastasis, potentially, leads to failure of the available treatment, and thereby, makes the research on metastatic suppressors a high priority. Tumor metastasis suppressors are several genes and their protein products that have the capability of arresting the metastatic process without affecting the tumor formation. The metastasis suppressors KAI1 (also known as CD82) has been found to inhibit tumor metastasis in various types of solid cancers, including breast cancer. KAI1 was identified as a metastasis suppressor that inhibits the process of metastasis by regulating several mechanisms, including cell motility and invasion, induction of cell senescence, cell–cell adhesion and apoptosis. KAI1 is a member of tetraspanin membrane protein family. It interacts with other tetraspanins, chemokines and integrins to control diverse signaling pathways, which are crucial for protein trafficking and intracellular communication. It follows that better understanding of the molecular events of such genes is needed to develop prognostic biomarkers, and to identify specific therapies for breast cancer patients. This review aims to discuss the role of KAI1/CD82 as a prognosticator in breast cancer. 相似文献
865.
Atta Rasool Salar Ali Waqar Ali Atta Ur Rehman Said Muhammad 《Geomicrobiology journal》2021,38(1):14-19
Abstract Plant growth stimulating bacteria are very effective in immobilization of metals and reducing their translocation in plants through precipitation, and adsorption. A pot experiment was conducted to investigate the effectiveness of chitosan- and hematite-modified biochar and bacterial inoculations on the immobilization of nickel (Ni) in polluted soil under wheat cultivation. Application of modified biochars and inoculation with Pseudomonas putida significantly increased both wheat root and shoot dry matter yields but decreased Ni phytoextraction efficiency. The Ni concentration, translocation factor and uptake in wheat shoot and root significantly decreased the application of either modified or unmodified biochars. Bacterial inoculation significantly decreased mean translocation factor and also root and shoot concentration and the uptake Ni in the shoot. Chitosan-modified biochar was the most influential treatment in decreasing Ni uptake by wheat followed by P. putida inoculation treatment. The results demonstrated positive effects of chitosan modified biochar and inoculation with P. putida in increasing dry matter yield and decreasing Ni uptake in wheat grown on Ni-contaminated soil. According to the results of present study, modified biochars application and bacterial inoculation are influential treatments which prevent Ni toxicity probably. 相似文献
866.
Ladislav Tamás Jana Dudíková Katarína Ďurčeková Ľubica Halušková Jana Huttová Igor Mistrík 《Protoplasma》2009,235(1-4):17-25
An analysis of different cell fractions isolated from barley roots revealed that lipoxygenase (LOX) activity occurred both extra- and intracellulary. Cadmium (Cd)-induced LOX activity was observed in the fraction containing cell walls, plasma membrane and the cytoplasm. High temperature-induced root growth inhibition and elevated LOX activity did not induce lipid peroxidation. In contrast, Cd inhibited root growth and caused both enhanced lipid peroxidation and elevated LOX activity at each of the temperatures analyzed. Spatial distribution studies revealed that the patterns of apoplastic LOX activity were different from those of cytoplasmic activity. Cd-induced intracellular LOX activity increased equally along the barley root tip, while Cd-induced apoplastic LOX activity was associated mainly with the differentiation zone of the barley root tip. Our results suggest the involvement of Cd-induced LOX activity in the premature differentiation of the barley root tip during Cd stress. We hypothesize that the role of LOX in plant metabolic processes in the root may depend on the level of reactive oxygen species in the roots: at physiological concentrations of ROS, LOX may be involved in the processes of root growth, while at the elevated harmful concentrations of ROS induced by different stress conditions, it may be involved in root growth inhibition through ectopic differentiation. 相似文献
867.
868.
869.
AbstractIn this study, the non-magnetic and the magnetic cross-linked enzyme aggregates (CLEAs) from Candida rugosa lipase were synthesized to catalyze the kinetic resolution reaction of naproxen methyl ester (NME). Magnetic iron oxide nanoparticles (MIONPs) were produced through co-precipitation method and their surfaces were modified by silanization reaction. The MIONPs were used as a platform to synthesize the magnetic CLEAs (M-CLEAs). The biocatalysts and MIONPs synthesized were characterized by FTIR spectroscopy and SEM analysis. The kinetic resolution of racemic NME was studied in aqueous buffer solution/isooctane biphasic system to compare the performance of M-CLEAs and CLEAs. The effects of reaction parameters such as temperature, pH, stirring rate on the enantiomeric excess of the substrate (ees%) were investigated in a batch reactor system. The activity recovery of CRL enzyme in CLEAs was higher than M-CLEAs. Compared with M-CLEAs, CLEAs biocatalysts had previously reached ees% values. Although both biocatalysts showed similar cavity structure from SEM analysis, the lower performance of M-CLEAs may be due to the different microenvironments of M-CLEAs from CLEAs. However, the reusability performance of M-CLEAs was higher than that of CLEAs. The optimal reaction conditions for M-CLEAs and CLEAs were found to be 37?°C, pH 7.5, and 300?rpm. 相似文献
870.
I. Żur E. Dubas M. Krzewska R. A. Sánchez-Díaz A. M. Castillo M. P. Vallés 《Plant Cell, Tissue and Organ Culture》2014,116(2):261-267
To gain a better understanding of the molecular mechanisms controlling microspore embryogenesis (ME) in triticale (×Triticosecale Wittm.), the expression patterns of 13 genes, previously identified in bread wheat to be associated with microspore-derived embryo development, were analysed. Four triticale doubled haploid (DH) lines, significantly different with respect to embryogenic potential, were studied. The gene expression profile was dissected at different points of the ME induction procedure up to the 8th day of in vitro culture (dc). RT-PCR revealed that these 13 genes were expressed during triticale ME. Variations in gene expression profiles were observed between the studied DH lines. DH28 (highly embryogenic) was the only one in which all analysed genes (Ta.TPD1-like, TAA1b, GSTF2, GSTA2, CHI3, Tad1, XIP-R1, TaAGL14, TaNF-YA7, SERK2, SERK1, TaEXPB4, TaME1) were up-regulated during the first 8dc. In the less embryogenic DH31, TAA1b, GSTA2 and TaEXPB4 were already induced on 4dc. In DH25, ME was initiated quite efficiently but soon inhibited, which coincided with the lack of gene expression (TaEXPB4, TaME1) or down-regulation (Tad1, XIP-R1, TaAGL14, TaNF-YA, SERK2, SERK1) on 8dc. In the recalcitrant DH50 line, the majority of genes were expressed at a lower level or not at all, indicating disturbances in ME initiation. In this study, the molecular mechanisms involved in triticale ME induction were analysed for the first time, laying the foundation for further characterisation of specific genes controlling microspore-derived embryo development. 相似文献