Fluorescent proteins (FPs) possess a wide variety of spectral properties that make them of widespread interest as optical markers. These proteins can be applied as pH indicators or metal biosensors. The discovery and characterization of new fluorescent proteins is expected to further extend their application. Here, we report the spectral and structural analysis of a red fluorescent protein from Acropora digitifera (designated AdRed). This protein shows a tetrameric state and is red emitting, with excitation and emission maxima at 567 and 612 nm, respectively. Its crystal structure shows the tetrameric interface stabilized by hydrogen bonding and salt bridges. The electron density map of the chromophore, consisting of Asp66–Tyr67–Gly68, shows the decarboxylated side chain of Asp66. Ser223, located near the chromophore, has the role of bridging His202 and Glu221, and is part of the hydrogen bond network. Mutated AdRed with Cys148Ser reveals a blue shift in fluorescence excitation and emission. Our results provide insights into understanding the molecular function of AdRed and other FPs. 相似文献
Thioredoxins (TRXs) are distributed ubiquitously in prokaryotic and eukaryotic organisms. Plants have the most complex forms
of TRXs. The functional roles of such TRXs have been studied in abiotic stress but their roles in plant defense responses
against biotic stresses have been less well studied. Here, we identified an h-type TRX gene from pepper, CaTRXh1, and characterized its possible effect on Type II nonhost resistance, which entails localized programmed cell death in response
to nonhost pathogens. Peptide sequences of CaTRXh1 showed a high degree of similarity with TRXhs from tobacco and Arabidopsis thaliana. Southern blot analyses revealed that CaTRXh1 was present as a single copy in the pepper genome. Intriguingly, leaf infiltration by Xanthomonas axonopodis pv. glycines 8ra, eliciting a visible type II nonhost hypersensitive response (HR), and its type III secretion-system null mutant 8–13,
eliciting a type I nonhost non-HR, both induced CaTRXh1 at a level similar to that of pathogenesis-related protein 4, an HR marker gene in pepper. More surprisingly, expression
of CaTRXh1 was significantly increased when X. axonopodis pv. vesicatoria race 3 infiltrated the leaf of a pepper cultivar containing a resistance gene, but not with infiltration of a susceptible
pepper cultivar. Taken together, our study suggests that the expression of CaTRXh1 has a critical role in HR-mediated active defense responses in pepper.
GenBank accession number: EF371503. 相似文献
Objective: The objective of this study was to investigate the association among adiposity, insulin resistance, and inflammatory markers [high‐sensitivity C‐reactive protein (hs‐CRP), interleukin (IL)‐6, and tumor necrosis factor (TNF)‐α] and adiponectin and to study the effects of exercise training on adiposity, insulin resistance, and inflammatory markers among obese male Korean adolescents. Research Methods and Procedures: Twenty‐six obese and 14 lean age‐matched male adolescents were studied. We divided the obese subjects into two groups: obese exercise group (N = 14) and obese control group (N = 12). The obese exercise group underwent 6 weeks of jump rope exercise training (40 min/d, 5 d/wk). Adiposity, insulin resistance, lipid profile, hs‐CRP, IL‐6, TNF‐α, and adiponectin were measured before and after the completion of exercise training. Results: The current study demonstrated higher insulin resistance, total cholesterol, LDL‐C levels, triglyceride, and inflammatory markers and lower adiponectin and HDL‐C in obese Korean male adolescents. Six weeks of increased physical activity improved body composition, insulin sensitivity, and adiponectin levels in obese Korean male adolescents without changes in TNF‐α, IL‐6, and hs‐CRP. Discussion: Obese Korean male adolescents showed reduced adiponectin levels and increased inflammatory cytokines. Six weeks of jump rope exercise improved triglyceride and insulin sensitivity and increased adiponectin levels. 相似文献
In this study, we investigated the effects of a high-fat diet and exercise on pancreatic beta-cell function and mass and its molecular mechanism in 90% pancreatectomized male rats. The pancreatectomized diabetic rats were given control diets (20% energy) or a high-fat (HF) diet (45% energy) for 12 wk. Half of each group was given regular exercise on an uphill treadmill at 20 m/min for 30 min 5 days/wk. HF diet lowered first-phase insulin secretion with glucose loading, whereas exercise training reversed this decrease. However, second-phase insulin secretion did not differ among the groups. Exercise increased pancreatic beta-cell mass. This resulted from stimulated beta-cell proliferation and reduced apoptosis, which is associated with potentiated insulin or IGF-I signaling through insulin receptor substrate-2 (IRS2) induction. Although the HF diet resulted in decreased proliferation and accelerated apoptosis by weakened insulin and IGF-I signaling from reduction of IRS2 protein, beta-cell mass was maintained in HF rats just as much as in control rats via increased individual beta-cell size and neogenesis from precursor cells. Consistent with the results of beta-cell proliferation, pancreas duodenal homeobox-1 expression increased in the islets of rats in the exercise groups, and it was reduced the most in rats fed the HF diet. In conclusion, exercise combined with a moderate fat diet is a good way to maximize beta-cell function and mass through IRS2 induction to alleviate the diabetic condition. This study suggests that dietary fat contents and exercise modulate beta-cell function and mass to overcome insulin resistance in two different pathways. 相似文献
The complex climatic and geological history of Southeast Asia has been hypothesised to determine the most important aspects of the current phylogeographical structure and distribution of living organisms throughout the region. To test existing hypotheses, the genetic structure of the tire track eel, Mastacembelus favus, was investigated using 823 bp of mitochondrial DNA cytochrome b from 469 individuals from 51 localities encompassing its native range. The results classified all haplotypes into two major lineages, Lineage 1, which was further divided into Lineages 1a (lower Mekong, eastern Gulf of Thailand and Malay—Thai Peninsula), 1b (Banpakong River), 1c (Chao Phraya, Gulf of Thailand and Malay—Thai Peninsula) and 1d (Khlang Yai River), and Lineage 2, the upper reaches of the lower Mekong and the middle Mekong. Strong genetic discontinuities dated approximately 5 MYA were discovered in the Mekong with limited geographical overlap, suggesting a historically dissected drainage between two sections and species colonisation via different routes. The widespread Lineage 1 showed a strong signature of population expansion during the Pleistocene climate oscillation. Haplotype characteristics in the Malay—Thai Peninsula are hypothesised to result from postglacial dispersal from the Mekong and Chao Phraya through an extended Pleistocene drainage network.
Plant Molecular Biology - The knowledge of substrate specificity of XET enzymes is important for the general understanding of metabolic pathways to challenge the established notion that these... 相似文献
A key feature of the mammalian brain is its capacity to adapt in response to experience, in part by remodeling of synaptic connections between neurons. Excitatory synapse rearrangements have been monitored in vivo by observation of dendritic spine dynamics, but lack of a vital marker for inhibitory synapses has precluded their observation. Here, we simultaneously monitor in vivo inhibitory synapse and dendritic spine dynamics across the entire dendritic arbor of pyramidal neurons in the adult mammalian cortex using large-volume, high-resolution dual-color two-photon microscopy. We find that inhibitory synapses on dendritic shafts and spines differ in their distribution across the arbor and in their remodeling kinetics during normal and altered sensory experience. Further, we find inhibitory synapse and dendritic spine remodeling to be spatially clustered and that clustering is influenced by sensory input. Our findings provide in vivo evidence for local coordination of inhibitory and excitatory synaptic rearrangements. 相似文献