Objective To prepare a detective membrane strip for detection of food allergen-specific IgE in serum samples and estimate its clinical application value in allergic diseases. Methods The crude extracts of the food allergens were prepared. Nitrocellulose membrane as the solid support was selected and the coating and the detecting conditions were optimized. The membrane strips were used to detect serum samples in 210 patients with allergic diseases and the results were compared with German Allergy Screentesting system. Results The optima] experimental conditions were as follows: The NC membrane was adopted as the solid support. After being spotted, the food allergens were incubated for 2 hours at room temperature, followed by 2% PVA blocking for 1 hour. After serum samples were diluted (1: 10) and incubated for 2 hours at room temperature, the concentration of anti-human IgE was 2 μg/mL Compared with the German Allergy Screen-testing system, their positive detectical coincidence was 63.6%, and negative detectical coincidence was 94. 6%. The two methods had no difference in detecting the majority of food allergens such as egg white, milk, peanut, soybean, crab and shrimp (X2 2.53, 2.40, 2.08, 2.38, 0.17,1.13, P>0.05). Conclusions The advantages of our method for detecting allergic diseases are little serum needed, multiple detective allergens, simple manipulation and low cost. This method has obvious clinical application value, which should be a new detective method for the allergic diseases with broad perspectives.

Blockchain technology has the advantages of decentralization, secure sharing and tamper resistance, and high privacy, which can solve the current problem of sharing electronic medical records in medical institutions in China. A tertiary hospital established an electronic medical record sharing services convenience service platform based on blockchain in collaboration with China mobile gansu company in September 2021. The hardware architecture of the platform consisted of a hospital data warehouse, a local front-end computer and a blockchain platform. The functional architecture included platform front-end services, the blockchain electronic medical record archiving and service platform. The technical architecture included the underlying blockchain, service layer, interface layer and application layer, which was embedded with asymmetric encryption technology, hash algorithm, smart contract and other technical means, ensuring data ownership and on-demand, controllable, real-time and secure sharing of data. Since the operation of the platform in September 2021, as of October 2022, a tertiary hospital had accumulated 21 545 patient medical records on the chain. The overall operation of the platform was smooth, achieving reliable storage and secure sharing of patient electronic medical records, providing reference for further promoting the interconnection trusted sharing of electronic medical records in medical institutions in China.

Lycophytes and seed plants constitute the typical vascular plants. Lycophytes have been thought to have no paleo-polyploidization although the event is known to be critical for the fast expansion of seed plants. Here, genomic analyses including the homologous gene dot plot analysis detected multiple paleo-polyploidization events, with one occurring approximately 13-15 million years ago (MYA) and another about 125-142 MYA, during the evolution of the genome of Selaginella moellendorffii, a model lycophyte. In addition, comparative analysis of reconstructed ancestral genomes of lycophytes and angiosperms suggested that lycophytes were affected by more paleo-polyploidization events than seed plants. Results from the present genomic analyses indicate that paleo-polyploidization has contributed to the successful establishment of both lineages-lycophytes and seed plants-of vascular plants.
Evolution, Molecular ; Genome, Plant ; Genomics ; Phylogeny ; Polyploidy ; Selaginellaceae/genetics*