This study aimed to test the ability of Tricholoma matsutake isolates to form mycorrhizas with aseptic seedlings of Pinus sylvestris L. and Picea abies (L.) Karst. Germinated seedlings of Scots pine and Norway spruce were separately inoculated with either isolates originating from Finland
or Japan. Eight months after inoculation, the Finnish isolate had formed a sheath and Hartig net on both host species. Ectomycorrhizal
Scots pine seedlings inoculated with the Finnish isolate showed the same shoot height and dry mass as the controls. Ectomycorrhizal
Norway spruce seedlings inoculated with the Finnish isolate had similar shoot height but slightly less dry mass than the control
seedlings. For both tree species, inoculation with the Finnish isolate resulted in reduced total nitrogen content per seedling,
but carbon content was unaffected. Inoculation with the Japanese isolate resulted in an initial Hartig net-like structure
in pine but not in spruce. No typical Hartig net was observed on either tree species. Furthermore, seedlings of both species
inoculated with the Japanese isolate showed significantly reduced growth, dry mass, nitrogen, and carbon content per seedling
and shoot height (in spruce) compared to the controls. This study documents and describes the in vitro ectomycorrhization
between T. matsutake and Scots pine or Norway spruce and the variable mycorrhizal structures that matsutake isolates can form. 相似文献
Sleep and Biological Rhythms - Sleep restriction is increasingly common and associated with the development of health problems. We investigated how the neuroendocrine stress systems respond to... 相似文献
The ability of noble metal‐based nanoparticles (NPs) (Au, Ag) to drastically enhance Raman scattering from molecules placed near metal surface, termed as surface‐enhanced Raman scattering (SERS), is widely used for identification of trace amounts of biological materials in biomedical, food safety and security applications. However, conventional NPs synthesized by colloidal chemistry are typically contaminated by nonbiocompatible by‐products (surfactants, anions), which can have negative impacts on many live objects under examination (cells, bacteria) and thus decrease the precision of bioidentification. In this article, we explore novel ultrapure laser‐synthesized Au‐based nanomaterials, including Au NPs and AuSi hybrid nanostructures, as mobile SERS probes in tasks of bacteria detection. We show that these Au‐based nanomaterials can efficiently enhance Raman signals from model R6G molecules, while the enhancement factor depends on the content of Au in NP composition. Profiting from the observed enhancement and purity of laser‐synthesized nanomaterials, we demonstrate successful identification of 2 types of bacteria (Listeria innocua and Escherichia coli). The obtained results promise less disturbing studies of biological systems based on good biocompatibility of contamination‐free laser‐synthesized nanomaterials.
CD73, otherwise known as ecto-5′-nucleotidase, is a glycosyl-phosphatidylinositol–linked 70-kD molecule expressed on different cell types, including vascular endothelial cells (EC) and certain subtypes of lymphocytes. There is strong evidence for lymphocyte CD73 having a role in several immunological phenomena such as lymphocyte activation, proliferation, and adhesion to endothelium, but the physiological role of CD73 in other cell types is less clear. To compare the biological characteristics of CD73 in different cell types, we have studied the structure, function, and surface modulation of CD73 on lymphocytes and EC. CD73 molecules on lymphocytes are shed from the cell surface as a consequence of triggering with an antiCD73 mAb, mimicking ligand binding. In contrast, triggering of endothelial CD73 does not have any effect on its expression. Lymphocyte CD73 is susceptible to phosphatidylinositol phospholipase, whereas only a small portion of CD73 on EC could be removed by this enzyme. Furthermore, CD73 on EC was unable to deliver a tyrosine phosphorylation inducing signal upon mAb triggering, whereas triggering of lymphocyte CD73 can induce tyrosine phosphorylation. Despite the functional differences, CD73 molecules on lymphocytes and EC were practically identical structurally, when studied at the protein, mRNA, and cDNA level. Thus, CD73 is an interesting example of a molecule which lacks structural variants but yet has a wide diversity of biological functions. We suggest that the ligand- induced shedding of lymphocyte CD73 represents an important and novel means of controlling lymphocyte– EC interactions. 相似文献
The Sec1/Munc18 (SM) proteins constitute a conserved family with essential functions in SNARE‐mediated membrane fusion. Recently, a new protein–protein interaction site in Sec1p, designated the groove, was proposed. Here, we show that a sec1 groove mutant yeast strain, sec1(w24), displays temperature‐sensitive growth and secretion defects. The yeast Sec1p and mammalian Munc18‐1 grooves were shown to play an important role in the interaction with the SNAREs Sec9p and SNAP‐25b, respectively. Incubation of SNAP‐25b with the Munc18‐1 groove mutant resulted in a lag in the kinetics of SNARE complex assembly in vitro when compared with wild‐type Munc18‐1. The SNARE regulator SRO7 was identified as a multicopy suppressor of sec1(w24) groove mutant and an intact Sec1p groove was required for the plasma membrane targeting of Sro7p–SNARE complexes. Simultaneous inactivation of Sec1p groove and SRO7 resulted in reduced levels of exocytic SNARE complexes. Our results identify the groove as a conserved interaction surface in SM proteins. The results indicate that this structural element is important for interactions with Sec9p/SNAP‐25 and participates, in concert with Sro7p, in the initial steps of SNARE complex assembly. 相似文献
Age-related macular degeneration (AMD) is an eye disease underlined by the degradation of retinal pigment epithelium (RPE) cells, photoreceptors, and choriocapillares, but the exact mechanism of cell death in AMD is not completely clear. This mechanism is important for prevention of and therapeutic intervention in AMD, which is a hardly curable disease. Present reports suggest that both apoptosis and pyroptosis (cell death dependent on caspase-1) as well as necroptosis (regulated necrosis dependent on the proteins RIPK3 and MLKL, caspase-independent) can be involved in the AMD-related death of RPE cells. Autophagy, a cellular clearing system, plays an important role in AMD pathogenesis, and this role is closely associated with the activation of the NLRP3 inflammasome, a central event for advanced AMD. Autophagy can play a role in apoptosis, pyroptosis, and necroptosis, but its contribution to AMD-specific cell death is not completely clear. Autophagy can be involved in the regulation of proteins important for cellular antioxidative defense, including Nrf2, which can interact with p62/SQSTM, a protein essential for autophagy. As oxidative stress is implicated in AMD pathogenesis, autophagy can contribute to this disease by deregulation of cellular defense against the stress. However, these and other interactions do not explain the mechanisms of RPE cell death in AMD. In this review, we present basic mechanisms of autophagy and its involvement in AMD pathogenesis and try to show a regulatory role of autophagy in RPE cell death. This can result in considering the genes and proteins of autophagy as molecular targets in AMD prevention and therapy. 相似文献
Plant and Soil - Legume break crops provide a series of agronomic benefits to the following wheat crop in a rotation. Phosphorus-efficient break-crop plants can mobilise P from non-labile pools in... 相似文献
Loss‐of‐function screening by CRISPR/Cas9 gene knockout with pooled, lentiviral guide libraries is a widely applicable method for systematic identification of genes contributing to diverse cellular phenotypes. Here, Random Sequence Labels (RSLs) are incorporated into the guide library, which act as unique molecular identifiers (UMIs) to allow massively parallel lineage tracing and lineage dropout screening. RSLs greatly improve the reproducibility of results by increasing both the precision and the accuracy of screens. They reduce the number of cells needed to reach a set statistical power, or allow a more robust screen using the same number of cells. 相似文献
The human δ opioid receptor (hδOR) is a G-protein-coupled receptor that is mainly involved in the modulation of pain and mood. Only one nonsynonymous single nucleotide polymorphism (T80G) has been described, causing Phe27Cys substitution in the receptor N-terminus and showing association with substance dependence. In this study, we expressed the two hδOR variants in a heterologous expression system with an identical genetic background. They differed greatly during early steps of biosynthesis, displaying a significant difference in the maturation efficiency (50% and 85% for the Cys27 and Phe27 variants, respectively). The Cys27 variant also showed accumulation in pre-Golgi compartments of the secretory pathway and impaired targeting to endoplasmic reticulum (ER)-associated degradation following long-term expression. In addition, the cell surface receptors of the Cys27 variant internalized constitutively. Replacement of phenylalanine with other amino acids revealed that cysteine at position 27 decreased the mature receptor/precursor ratio most extensively, suggesting a thiol-mediated retention of precursors in the ER. However, cysteine did not cause a major folding defect because pharmacological characteristics and the maturation kinetics of the variants were identical, and an opioid antagonist was able to enhance the maturation of both variants. We conclude that, instead of causing loss of function, Phe27Cys polymorphism of the hδOR causes a gain-of-function phenotype, which may have implications for the regulation of receptor expression at the cell surface and possibly also for the susceptibility to pathophysiological states. 相似文献
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