Microsatellite instability evaluation by a novel PCR-based 8-loci test kit in colorectal cancer.

Microsatellite instability (MSI) assessment is strongly recommended for colorectal cancer patients, as MSI status is crucial in determining optimal treatment and predicting prognosis. This study evaluated the reliability and accuracy of a novel polymerase chain reaction (PCR)-based 8-loci MSI test kit, a rapid test kit designed to detect MSI, by comparing its performance with immunohistochemistry (IHC) and the National Cancer Institute (NCI) 2B3D Panel. MSI status was determined in 186 formalin-fixed paraffin-embedded (FFPE) colorectal cancer tissue samples with known mismatch repair (MMR) status by IHC using the novel PCR-based 8-loci MSI test kit. Additionally, the consistency between the NCI 2B3D Panel and the novel PCR-based 8-loci panel was compared using 69 FFPE tumor tissues paired with adjacent non-cancerous tissue. The novel PCR-based 8-loci MSI test kit and IHC demonstrated high concordance (overall agreement: 97.8%). However, four samples displayed discordant results, exhibiting MMR deficiency using IHC and microsatellite stability using the novel PCR-based 8-loci MSI test kit. Of the 69 samples reanalyzed using the NCI 2B3D Panel, high concordance with the novel PCR-based 8-loci MSI test kit was observed in 67 of 69 cases (overall agreement: 97.1%). The novel PCR-based 8-loci MSI test kit is a rapid and reliable tool for accurately detecting MSI status in colorectal cancer.

Tomato SlYTH1 encoding a putative RNA m6A reader affects plant growth and fruit shape.

N6-methyladenosine (m6A), the most abundant and common modification on eukaryotic mRNA, plays crucial roles in multiple biological processes through controlling endogenous gene activity in organisms. The m6A reader specifically recognizes the m6A mark to mediate the regulation of m6A on mRNA, and determines the fate of its target mRNA. In plants, the currently confirmed m6A readers are YTH (YT521B homology) domain-containing proteins. We previously reported that tomato contains 9 YTH genes, of which SlYTH1 has the strongest expression. The present study reports the functional characterization of SlYTH1 in tomato. SlYTH1 mutants generated via CRISPR/Cas9 technology exhibited pleiotropic phenotypes, including low seed germination rate, shortened seedling root, retarded plant growth and development during vegetative development, and elongated and longitudinally flattened fruit with reduced the locule number. SlYTH1 knockout reduced GA3 content and downregulated the expression of related genes in gibberellin biosynthesis pathway. Moreover, exogenous GA3 application could partially restore the phenotypic defects caused by SlYTH1 mutations. SlYTH1 knockout could alleviate the inhibition of seedling root elongation by exogenous GA3 application at relatively low concentration. These facts indicated SlYTH1 is involved in regulating gibberellin biosynthesis and plays important roles in multiple physiological processes in tomato.

Genome-wide identification and characterization of YTH domain-containing genes, encoding the m6A readers, and their expression in tomato.

KEY MESSAGE: 9 YTH genes in tomato were identified and cloned, and their expression patterns were comprehensively analyzed, which reveal potential multiple roles in development and fruit ripening. N6-methyladenosine (m6A) is an abundant and pervasive post-transcriptional modification in eukaryotic mRNAs. The YTH domain-containing proteins act as m6A readers to read m6A marks and transduce their downstream regulatory effects by altering m6A-mRNA metabolism processes. Identification of YTH proteins is essential for understanding the regulatory mechanisms of m6A in physiological processes, but little is known about YTH proteins in tomato, a model system for fruit development. Here, we report that tomato genomes contain a total of 9 SlYTH genes. While YTH proteins of both tomato and Arabidopsis can be classified into two subfamilies, the member distributions in subfamilies are very different between the two species. Homology modeling exhibited the similar three-dimensional structures of SlYTH proteins to human YTHDF1 or YTHDC1. Multiple hormone-response elements locating on the promoters of SlYTH genes indicate that they are involved in the physiological processes related to phytohormone. SlYTH genes are ubiquitous and spatiotemporal dynamic expression in tomato. Eight SlTYH genes have the strongest expression in stamens among the parts of flowers. Throughout fruit ontogeny, most of the SlYTH genes display obvious high mRNA levels during the developmental phases (4 dpa to mature green); moreover, SlYTH1 and SlYTH2 have absolute predominant expressions demonstrated by RNA-seq. The results lay a foundation for future characterizations on the functions of YTH proteins and m6A regulatory mechanism in tomato.

Contamination of commercially available seafood by key diarrhetic shellfish poisons along the coast of China.

With the increasing number of outbreaks of food-borne diseases caused by okadaic acid (OA) and its analogue dinophysistoxin-1 (DTX-1), two key diarrhetic shellfish poison (DSP) toxins, OA and DTX-1, have become a serious threat to public health and have attracted significant public attention in China. The aim of our study was to monitor OA and DTX-1 contamination in commercially available seafood and to provide references for tracking these toxins and preventing disease outbreaks. From 2010 to 2012, 40 species were collected from six coastal cities of four inland seas in China. An enzyme-linked immunosorbent assay (ELISA) and a lateral flow immunochromatographic (LFIC) test strip were used to analyse the samples, and the results were further confirmed using a commercially available ELISA kit. The monitoring results indicated that 23 of 40 species were positive for contamination. In addition, 14 of the positive species were determined to be inedible because the content of OA and DTX-1 was above the regulatory limit. Simultaneously, we verified that the digestive glands of shellfish tended to accumulate toxin, in contrast to the flesh. The highest concentrations of OA and DTX-1 were recorded in Scapharca broughtonii, which was collected from Qing Dao, in relation to the other analysed species. Moreover, the Arca family as well as Mytilus galloprovincialis were severely contaminated by OA and its analogue. The above results indicate that some of the commercially available seafood from the coastal cities in China may be inedible due to serious marine toxin contamination. The results of this study might play an important role in protecting consumer health and safety screening of marine products.

Ultraviolet irradiation and gradient temperature assisted autolysis for protein recovery from shrimp head waste.

A novel autolysis method using ultraviolet (UV) irradiation and gradient temperature was investigated to efficiently recover proteins from the head of the shrimp Penaeus vannamei. The proteolytic activity of shrimp head subjected to 30W UV irradiation for 20 min was increased by 62%, compared with that of untreated samples. After irradiation, the enzymes remained active across a wide range of temperatures (45-60°C) and pH (7-10). An orthogonal design was used to optimize autolysis condition. After 5h autolysis, protein recovery from the UV-heat treated samples was up to 92.1%. These results indicate the potential of using UV irradiation in combination with gradient temperatures to improve recovery of proteins from shrimp head waste.