• Finley Mooney posted an update 6 hours, 29 minutes ago

    Future climate change will present many plants with environmental challenges, including extreme temperatures and drought. Hydrogen sulfide (H2S) has emerged as an important signal transmitting molecule in plants, especially important in many stress responses and it is known to regulate numerous physiological and developmental processes. Being recently suggested as a signaling molecule, research exploring the regulatory functions is continuously progressing regarding the role of H2S in plant science, agriculture and horticulture. Biosynthesis of H2S occurs in different cellular compartments from where it can freely translocate via membranes to where needed or be excluded where not required. read more H2S interacts with related signaling molecules which together mediate stress tolerance against a plethora of harsh conditions. The H2S induced tolerance against stresses occurs via regulation of antioxidants activities, endogenous levels of GSH, osmoregulator accumulation, cell signaling proteins, and stress-related gene expression. Overall this efficiently eliminates excessive reactive oxygen species (ROS) and maintains the intracellular redox balance. The current review summarizes the recent progress on H2S or H2S donor-mediated abiotic stress tolerance with special reference to climate change and horticulture crops, pre- and post-harvest. Elucidating the role of H2S in cell signaling pathways may open new horizons towards understanding how exogenous treatments with H2S in horticulture plants may aid in the tolerance to stress, especially as environmental conditions change, and can secure better crop yields and avoid post-harvest losses.UDP-l-rhamnose (UDP-Rha) is an important sugar donor for glycosylation of various cell molecules in plant. Rhamnosides are widely present in different plant tissues and play important biological roles under different developmental or environmental conditions. However, enzymes involved in UDP-Rha biosynthesis and their encoding genes have been identified in few plants, which limits the functional analysis of plant rhamnosides. Here, two UDP-Rha biosynthesis genes, named PpRHM1 (2028 bp) and PpRHM2 (2016 bp), were isolated and characterized from Prunus persica, which is rich sources of flavonol rhamnosides. Both recombinant RHM proteins can catalyze the transformation from UDP-d-glucose (UDP-Glc) to UDP-Rha, which was confirmed by LC-MS and formation of flavonol rhamnosides. Biochemical analysis showed that both recombinant RHM proteins preferred alkaline conditions in pH range of 8.0-9.0 and had optimal reaction temperature between 25 and 30 °C. PpRHM1 showed the better UDP-Glc substrate affinity with Km of 360.01 μM. Gene expression analysis showed different transcript levels of both RHMs in all plant tissues tested, indicating the involvement of rhamnosides in various tissues in plant. Such results provide better understanding of UDP-Rha biosynthesis in fruit tree and may be helpful for further investigation of various rhamnose derivatives and their biological functions.The tumor microenvironment plays a critical role in tumor initiation, progression, metastasis, and drug resistance. However, models recapitulating the complex 3D structure, heterogeneous cell environment, and cell-cell interactions found in vivo are lacking. Herein, we report on a gravitational microfluidic platform (GMP) retrofitted with MEMS sensors, which is integrated with 3D nanofiber scaffold-aided tumoroid culture. The results showed that this GMP for tumoroid growth mimics the tumor microenvironment more precisely than static culture models of colon cancer, including higher drug resistance, enhanced cancer stem cell properties, and increased secretion of pro-tumor cytokines. In addition, the GMP includes an integrated surface acoustic wave-based biosensing to monitor cell growth and pH changes to assess drug efficacy. Thus, this simple-to-use perfused GMP tumoroid culture system for in vitro and ex vivo studies may accelerate the drug development process and be a tool in personalized cancer treatment.Implant associated infections are still key problem in surgery. In the present study, the combination of a magnetic implant with administered magnetic nanoporous silica nanoparticles as potential drug carriers was examined in mice in dependence of local infection and macrophages as influencing factors. Four groups of mice (with and without implant infection and with and without macrophage depletion) received a magnet on the left and a titanium control on the right hind leg. Then, fluorescent nanoparticles were administered and particle accumulations at implant surfaces and in inner organs as well as local tissue reactions were analyzed. Magnetic nanoparticles could be found at the surfaces of magnetic implants in different amounts depending on the treatment groups and only rarely at titanium surfaces. Different interactions of magnetic implants, particles, infection and surrounding tissues occurred. The general principle of targeted accumulation of magnetic nanoparticles could be proven.Histoplasmosis is the second most common fungal infection reported among domestic felines in the United States. Dissemination of the organism after inoculation is common and affected organ systems include the respiratory tract, gastrointestinal tract, reticuloendothelial organs, skeletal system, integument, and ocular system. However, histoplasmosis presenting as a discrete granulomatous mass identified on echocardiogram has never been reported in the veterinary literature. Here, we describe the first case of feline histoplasmosis presenting as a granuloma with cardiac involvement. The patient, a 6-year-old male neutered domestic longhair feline, was referred for tachypnea and dyspnea. A mass in the cranial mediastinum abutting the heart was diagnosed via two-dimensional echocardiography. Cytology of fine needle aspirates from the mass revealed round yeast structures consistent with Histoplasma spp. The patient was treated with oral fluconazole therapy, and subsequent rechecks have shown marked improvement in clinical parameters, lesion size, and antigen concentrations.