MiR–20a-5p promotes radio-resistance by targeting Rab27B in nasopharyngeal cancer cells

Additional file 3: Figure S2. The protein level of PARP and caspase3 detected by western in NCM, 5PM, NCA, 5PA, si-NC and si-Rab27B transfected CNE-2 and CNE-1 cells respectively

Biological control agents colonize litchi fruit during storage and stimulate physiological responses to delay pericarp browning

IntroductionLitchi is an economically important fruit in subtropical countries, but pericarp browning can limit its shelf life outside of controlled storage conditions. Effective and sustainable biological control strategies are needed to protect fruit against postharvest browning.Results and DiscussionIn this study, we show that the four bacterial strains Bacillus licheniformis HS10, B. amyloliquefaciens LI24 and PP19, and Exiguobacterium acetylicum SI17 can delay fruit browning in both laboratory trials (LTs) and field plus laboratory trials (FLTs). Strains HS10, LI24, PP19 and SI17 showed 47.74%, 35.39%, 33.58% and 32.53% browning-inhibitory efficacy respectively at 180 h in LT. Litchi sarcocarp interior sourced isolate SI17 showed 74.05% inhibit-brown efficacy at 216 h in FLTs, performing better in FLT than in LT. Furthermore, strains PP19 and SI17 colonized the fruit pericarp and increased total phenolic and anthocyanin contents but decreased peroxidase and polyphenol oxidase activity. This is the first report of E. acetylicum (SI17) and B. licheniformis (HS10) strains acting as biological control agents (BCAs) to delay postharvest browning in litchi fruit. We conclude that PP19 and SI17 are promising BCAs against fruit browning, and their application could be effective for prolonging the shelf life of harvested litchi fruit

Genetic resources and genetic transformation in bermudagrass – a review

Bermudagrass is widely distributed as a warm-season turf and forage grass in the temperate and tropical zones around the world. Its strong vegetative reproduction and ability to withstand drought make it an ideal species as a most used warm-season forage grass and turfgrass. Genetic transformation is an important tool for the study of gene function and for germplasm improvement in bermudagrass. This paper attempts to present a recent review on genetic resources, plant regeneration and genetic transformation in bermudagrass. We first review the various genetic resources and collection of bermudagrass. Then the explants, basal medium and the effect of different cultivars and plant growth regulators on plant regeneration in bermudagrass are also summarized. Last, we outline the main areas of progress in genetic transformation with either the biolistic or Agrobacterium-mediated method in bermudagrass, and discuss various factors that influence Agrobacterium-mediated transformation. However, the question that still remains is why there have been no genetic modification reports on bermudagrass for 10 years

Floral Induction of Longan (Dimocarpus longan) by Potassium Chlorate: Application, Mechanism, and Future Perspectives

Longan (Dimocarpus longan L.) is one of the most important tropical and subtropical fruits in the world. Longan fruit has high nutritional and medical value, and is regarded as a treasure among fruits. Since it was first reported that potassium chlorate (KClO3) could be successfully applied to promote flowering in longan, this compound has been widely used in the production of on-season and off-season longan fruits. KClO3 has thus played a great role in promoting the development of the longan industry. In this review, we summarize the application methods, influencing factors, and physiological and molecular mechanisms associated with KClO3-mediated induction of longan flowering. It can be deduced that leaves may play a crucial role in the transport of and response to KClO3. Leaves supply carbon and nitrogen nutrition, and hormone and signaling molecules needed for the differentiation of apical buds. Moreover, cytokinins may be crucial for KClO3-mediated induction of longan flowering. More effort should be focused on studying the molecular mechanisms underlying this process. This will not only help us to better understand floral induction by KClO3 in longan but also enrich our understanding of flowering regulation mechanisms in woody plants

Trace Analysis of Multiple Tumor Exosomal PD‐L1 Based on SERS Immunoassay Platform

Abstract Immunotherapy has received wide attention in recent years as a new avenue for the effective treatment of cancer. However, due to the lack of detection limit and sensitivity of immune checkpoint molecule (such as Programmed cell death 1 ligand 1, PD‐L1) in established clinical methods, the immunotherapy evaluation during anti‐PD‐L1/PD‐1 (Programmed cell death receptor 1) treatment is difficult to be guided accurately. In this study, a highly sensitive and maneuverable Surface‐Enhanced Raman Scattering (SERS)‐based immunoassay platform is developed for the analysis of exosomal PD‐L1, a highly potential biomarker for immunotherapy. Excellent detection of exosomal PD‐L1 with good linear fit over a wide concentration range is achieved. In addition, the detection and discrimination of exosomal PD‐L1 in the peripheral blood of cancer patients and healthy controls are successfully achieved. Moreover, the platform has also been successfully used to distinguish common diseases, cancer, and healthy control (such as liver cancer, liver cirrhosis, and normal individuals). The detection platform can be successfully used for the trace detection of PD‐L1 on exosomes, which has excellent potential for clinical development in cancer diagnosis and treatment guidelines

PEGylated pH-responsive peptide-mRNA nano self-assemblies enhance the pulmonary delivery efficiency and safety of aerosolized mRNA

AbstractInhalable messenger RNA (mRNA) has demonstrated great potential in therapy and vaccine development to confront various lung diseases. However, few gene vectors could overcome the airway mucus and intracellular barriers for successful pulmonary mRNA delivery. Apart from the low pulmonary gene delivery efficiency, nonnegligible toxicity is another common problem that impedes the clinical application of many non-viral vectors. PEGylated cationic peptide-based mRNA delivery vector is a prospective approach to enhance the pulmonary delivery efficacy and safety of aerosolized mRNA by oral inhalation administration. In this study, different lengths of hydrophilic PEG chains were covalently linked to an amphiphilic, water-soluble pH-responsive peptide, and the peptide/mRNA nano self-assemblies were characterized by dynamic light scattering (DLS) and transmission electron microscopy (TEM). The in vitro mRNA binding and release, cellular uptake, transfection, and cytotoxicity were studied, and finally, a proper PEGylated peptide with enhanced pulmonary mRNA delivery efficiency and improved safety in mice was identified. These results showed that a proper N-terminus PEGylation strategy using 12-monomer linear monodisperse PEG could significantly improve the mRNA transfection efficiency and biocompatibility of the non-PEGylated cationic peptide carrier, while a longer PEG chain modification adversely decreased the cellular uptake and transfection on A549 and HepG2 cells, emphasizing the importance of a proper PEG chain length selection. Moreover, the optimized PEGylated peptide showed a significantly enhanced mRNA pulmonary delivery efficiency and ameliorated safety profiles over the non-PEGylated peptide and LipofectamineTM 2000 in mice. Our results reveal that the PEGylated peptide could be a promising mRNA delivery vector candidate for inhaled mRNA vaccines and therapeutic applications for the prevention and treatment of different respiratory diseases in the future

Additional file 3 of Genome-wide identification of the longan R2R3-MYB gene family and its role in primary and lateral root

Additional file 3