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991.
Functional analysis of protein disulfide isomerases in blood feeding, viability and oocyte development in Haemaphysalis longicornis ticks 总被引:1,自引:0,他引:1
Liao M Boldbaatar D Gong H Huang P Umemiya R Harnnoi T Zhou J Tanaka T Suzuki H Xuan X Fujisaki K 《Insect biochemistry and molecular biology》2008,38(3):285-295
Three protein disulfide isomerases from Haemaphysalis longicornis ticks (designated as HlPDI-1, HlPDI-2, and HlPDI-3) were previously identified. In order to further analyze their biological functions, the dsRNA of each HlPDI gene and one dsRNA combination of HlPDI-1/HlPDI-3 were separately injected into female ticks. Reduction of gene and protein expression of HlPDIs by RNA interference (RNAi) was demonstrated by real-time PCR, RT-PCR and Western blot analysis. In single dsRNA-injected groups, HlPDI-1 RNAi impacted tick blood feeding and oviposition, HlPDI-2 RNAi impacted tick viability and HlPDI-3 RNAi had no significant impact by itself. However, the injection of a combination of HlPDI-1/HlPDI-3 dsRNA had synergistic effects on tick viability. Furthermore, the midgut and cuticle were severely damaged in HlPDI-2 dsRNA-injected ticks and HlPDI-1/HlPDI-3 dsRNA-injected ticks, respectively, and disruption of HlPDI genes led to a significant reduction of disulfide bond-containing vitellogenin (Vg) expression in ticks. These results indicate that PDIs from H. longicornis are involved in blood feeding, viability and oocyte development, probably by mediating the formation of disulfide bond-containing proteins of the ticks and the formation of basement membrane and cuticle components such as extracellular matrix (ECM). This is the first report on the functional analysis of PDI family molecules as well as the interactions of PDI and other molecules in blood-feeding arthropods. 相似文献
992.
Hu WP Yu HS Chen YR Tsai YM Chen YK Liao CC Chang LS Wang JJ 《Bioorganic & medicinal chemistry》2008,16(9):5295-5302
A series of novel thiobenzanilides is described. These compounds have been previously found to show strong biological activity such as antimycotic and antifungal actions. This is the first demonstration on the mechanism of the anticancer effect of thiobenzanilide agents (4a–c) on human melanoma A375 cells. The cytotoxic studies of compounds 4a–c on human melanoma A375 cells indicate thiobenzanilides induced higher cytotoxicity than nitrobenzanilides (3a–c). In addition, DNA flow cytometric analysis shows that 4a–c displays a significant G2/M phase arrest, which progresses to early apoptosis as detected by flow cytometry after double-staining with annexin V and propidium iodide (PI). Because cellular apoptosis is often preceded by the disruption of mitochondrial function, the assessment of mitochondrial function in 4a–c-treated cells is worthy of investigation. Our data revealed that treatment of A375 cells with 4a–c resulted in the loss of mitochondrial membrane potential (ΔΨmt), a reduction of ATP synthesis, increased reactive oxygen species (ROS) generation, and activation of caspase-3. Thus, we suggest that 4a–c agents are potent inducers of cell apoptosis in A375 cells. 相似文献
993.
994.
采用双电极电压钳技术,研究酮色林对表达在非洲爪蟾卵母细胞上的野生型和Y652突变型人类ether-a-go-go相关基因(human ether-a-go-go-related gene,HERG)钾通道的阻断效应,观测HERG通道的分子位点特性改变对其阻断效应的影响.结果显示,酮色林以电压依赖性和浓度依赖性的方式阻断野生型的HERG钾通道电流.尾电流包裹程序记录电流显示酮色林对HERG钾通道微小的张力性阻断.阻断特征符合对开放状态通道的阻断特征.酮色林也能调节失活状态的HERG钾通道.位于孔道S6区的氨基酸位点突变Y652A和Y652R可显著减弱酮色林对HERG通道的阻断作用.同野生犁HERG钾通道的阻断相比,Y652A突变使阻断的IC50提高72倍,而Y652R突变使阻断的IC50提高53倍.Y652A和Y652R的阴断效应之间没有明显的差别.以上结果提示,酮色林优先阻断开放状态的HERG钾通道,而Y652是酮色林与通道结合的关键位点之一. 相似文献
995.
Liang Liao Lingling Xu Daming Zhang Liang Fang Huisheng Deng Junwei Shi Tongjian Li 《Plant Systematics and Evolution》2008,276(1-2):31-37
ITS sequences of Ranunculus cantoniensis apparently an allotetraploid were polymorphic at ten nucleotide sites. ITS-based phylogeny of the complex and its allied species showed that ITS clones of the tetraploid were clustered with R. silerifolius var. silerifolius, R. chinensis, R. silerifolius var. dolicathus and R. trigonus. Chloroplast trnL-F phylogeny showed that the complex is a natural group, in which the tetraploid shared the same clade with R. silerifolius var. dolicathus and R. silerifolius var. silerifolius, whose genetic distances were zero. rDNA FISH showed that the longest rDNA-chromosome of the tetraploid was similar to that of R. silerifolius var. dolicathus exclusively. Combining trnL-F, ITS and FISH data, it is suggested that the most probable parents of the tetraploid were R. silerifolius var. silerifolius, R. chinensis and R. silerifolius var. dolicathus, among them R. silerifolius var. silerifolius donated most. Evidences from DNA sequences and chromosome FISH indicated that the tetraploid was most probably a homoploid hybrid. Thus, a scenario of the tetraploid formation is proposed: the tetraploid was synthesized by two rounds of hybridization. The first round was between two pairs of diploids, forming two tetraploids. The second round was between the two primary tetraploids, producing the allotetraploid, R. cantoniensis, eventually. 相似文献
996.
Li HP Zhang JB Shi RP Huang T Fischer R Liao YC 《Molecular plant-microbe interactions : MPMI》2008,21(9):1242-1248
Fusarium head blight (FHB) or scab of wheat is a devastating disease in warm and humid regions at wheat-flowering periods worldwide. Natural resistance against FHB pathogens is inadequate and the development of FHB-resistant wheat cultivars has been a challenge. Expression of pathogen-specific antibodies in plants has been proposed as a strategy for crop protection. In this study, an antibody fusion protein comprising a Fusarium-specific recombinant antibody derived from chicken and an antifungal peptide from Aspergillus giganteus was expressed in wheat as a method for protecting plants against FHB pathogens. Plants expressing the antibody fusion displayed a very significantly enhanced resistance in T2 and T3 generations upon single-floret inoculation with the macroconidia of Fusarium asiaticum, the predominant species causing FHB in China, indicating a type II resistance. Spraying inoculation further revealed an enhanced type I resistance in the transgenic wheat plants. Remarkably, more grains were produced in the transgenic plants than the nontransgenic controls. Our results demonstrated that the antibody fusion protein may be used as an effective tool for the protection of crops against FHB pathogens. 相似文献
997.
From soybean plant, 131 bZIP genes were identified and named as GmbZIPs. The GmbZIPs can be classified into ten groups and more than one third of these GmbZIPs are responsive to at least one of the four treatments including ABA, salt, drought and cold stresses. Previous studies have shown that group A bZIP proteins are involved in ABA and stress signaling. We now chose four non-group A genes to study their features. The four proteins GmbZIP44, GmbZIP46, GmbZIP62 and GmbZIP78 belong to the group S, I, C and G, respectively, and can bind to GLM (GTGAGTCAT), ABRE (CCACGTGG) and PB-like (TGAAAA) elements with differential affinity in both the yeast one-hybrid assay and in vitro gel-shift analysis. GmbZIP46 can form homodimer or heterodimer with GmbZIP62 or GmMYB76. Transgenic Arabidopsis plants overexpressing the GmbZIP44, GmbZIP62 or GmbZIP78 showed reduced ABA sensitivity. However, all the transgenic plants were more tolerant to salt and freezing stresses when compared with the Col plants. The GmbZIP44, GmbZIP62 and GmbZIP78 may function in ABA signaling through upregulation of ABI1 and ABI2 and play roles in stress tolerance through regulation of various stress-responsive genes. These results indicate that GmbZIP44, GmbZIP62 and GmbZIP78 are negative regulators of ABA signaling and function in salt and freezing tolerance. 相似文献
998.
Three sweet receptor genes are clustered in human Chromosome 1 总被引:3,自引:0,他引:3
A search of the human genome database led us to identify three human candidate taste receptors, hT1R1, hT1R2, and hT1R3, which contain seven transmembrane domains. All three genes map to a small region of Chromosome (Chr) 1. This region is syntenous to the distal end of Chr 4 in mouse, which contains the Sac (saccharin preference) locus that is involved in detecting sweet tastants. A genetic marker, DVL1, which is linked to the Sac locus, is within 1700 bp of human T1R3. Recently, the murine T1Rs and its human ortholog have been independently identified in combination as sweet and umami receptors near the Sac locus. All three hT1Rs genes are expressed selectively in human taste receptor cells in the fungiform papillae, consistent with their role in taste perception. 相似文献
999.
Cai Wen-Qi Fang Rong-Xiang Shang Hong-Sheng Wang Xu Zhang Feng-Li Li Yue-Ren Zhang Jiu-Chun Cheng Xiao-Ying Wang Gui-Ling Mang Ke-Qiang 《Molecular breeding : new strategies in plant improvement》2003,11(1):25-35
Both cucumber mosaic virus (CMV) and tobacco mosaic virus (TMV) coat protein (CP) genes have been transferred to chilli pepper (Capsicum annuum var. Longunt) cultivar 8212 by a modified procedure of Agrobacterium tumefaciens-mediated transformation using hypocotyl as the explant. PCR analysis revealed the presence of both CMV and TMV CP genes in at least 11 primary transformants out of 49 kanamycin-resistant chili pepper plants. Ten T1 lines from five independent transformation events were identified as putative homozygous transgenic lines based on the rooting assay of their T2 seedlings on the kanamycin-containing media. Integration and expression of CMV CP and TMV CP transgenes in one of the homozygous line, 16-13, were confirmed bySouthern blot, RT-PCR and western blot analyses. Line 16-13 was highly resistant to infection of homologous CMV and TMV strains in greenhouse conditions when successively challenged with CMV and TMV or challenged with TMV alone.Futhermore, field trials on T2, T3 and T4 progenies of Line 16-13 were performed on scales of 123, 300 and 10,000 plants, respectively, in consecutive years 1996, 1997 and 1998 with the permission of the Chinese government authority. The transgenic plants displayed delayed symptom development and significantly milder disease severity in field conditions when compared to untransformed chili pepper plants, resulting in 47 and 110% increase in pepper fruit yield in surveys conducted in 1997 and 1998 trials, respectively. Finally, quality analysis and biosafety assesment were performed on transgenic chili pepper fruit concurrently with the control fruit, and demonstrated that the transgenic chili pepper fruit is substantially equivalent to the non-transgenic pepper in terms of the quality and biosafety when consumed as a food additive. 相似文献
1000.
Song Li Lihua Luo Yan He Ruohan Li Yangfan Xiang Zhenjie Xing Yejian Li Abdullkhaleg Ali Albashari Xiangyan Liao Keke Zhang Liang Gao Qingsong Ye 《Cell proliferation》2021,54(8)
ObjectivesThe study aimed to determine whether dental pulp stem cell‐derived exosomes (DPSC‐Exos) exert protective effects against cerebral ischaemia‐reperfusion (I/R) injury and explore its underlying mechanism.Materials and MethodsExosomes were isolated from the culture medium of human DPSC. Adult male C57BL/6 mice were subjected to 2 hours transient middle cerebral artery occlusion (tMCAO) injury followed by 2 hours reperfusion, after which singular injection of DPSC‐Exos via tail vein was administrated. Brain oedema, cerebral infarction and neurological impairment were measured on day 7 after exosomes injection. Then, oxygen‐glucose deprivation–reperfusion (OGD/R) induced BV2 cells were studied to analyse the therapeutic effects of DPSC‐Exos on I/R injury in vitro. Protein levels of TLR4, MyD88, NF‐κB p65, HMGB1, IL‐6, IL‐1β and TNF‐α were determined by western blot or enzyme‐linked immunosorbent assay. The cytoplasmic translocation of HMGB1 was detected by immunofluorescence staining.ResultsDPSC‐Exos alleviated brain oedema, cerebral infarction and neurological impairment in I/R mice. DPSC‐Exos inhibited the I/R‐mediated expression of TLR4, MyD88 and NF‐κB significantly. DPSC‐Exos also reduced the protein expression of IL‐6, IL‐1β and TNF‐α compared with those of the control both in vitro and in vivo. Meanwhile, DPSC‐Exos markedly decreased the HMGB1 cytoplasmic translocation induced by I/R damage.ConclusionsDPSC‐Exos can ameliorate I/R‐induced cerebral injury in mice. Its anti‐inflammatory mechanism might be related with the inhibition of the HMGB1/TLR4/MyD88/NF‐κB pathway. 相似文献