High-throughput analysis of anthocyanins in horticultural crops using probe electrospray ionization tandem mass spectrometry (PESI/MS/MS)

農作物に含まれる成分を簡便・迅速に分析する技術を確立 --煩雑な抽出や分離操作が不要、わずか3分間で81種類のアントシアニンを分析可能--. 京都大学プレスリリース. 2023-03-30.Plant secondary metabolites exhibit various horticultural traits. Simple and rapid analysis methods for evaluating these metabolites are in demand in breeding and consumer markets dealing with horticultural crops. We applied probe electrospray ionization (PESI) to evaluate secondary metabolite levels in horticultural crops. PESI does not require pre-treatment and separation of samples, which makes it suitable for high-throughput analysis. In this study, we targeted anthocyanins, one of the primary pigments in horticultural crops. Eighty-one anthocyanins were detected in approximately 3 minutes in the selected reaction-monitoring mode. Tandem mass spectrometry (MS/MS) could adequately distinguish between the fragments of anthocyanins and flavonols. Probe sampling, an intuitive method of sticking a probe directly to the sample, could detect anthocyanins qualitatively on a micro-area scale, such as achenes and receptacles in strawberry fruit. Our results suggest that PESI/MS/MS can be a powerful tool to characterize the profile of anthocyanins and compare their content among cultivars

Identification of a consensus element recognized and cleaved by IRE1α

IRE1α is an endoplasmic reticulum (ER)-located transmembrane RNase that plays a central role in the ER stress response. Upon ER stress, IRE1α is activated and cleaves specific exon–intron sites in the mRNA encoding the transcription factor X-box-binding protein 1 (XBP1). In addition, previous studies allow us to predict that IRE1α targets several RNAs other than the XBP1. In fact, we have identified CD59 mRNA as a cleavage target of IRE1α. However, it is not yet clear how IRE1α recognizes and cleaves target RNAs. To address this question, we devised a unique method that combines an in vitro cleavage assay with an exon microarray analysis, and performed genome-wide screening for IRE1α cleavage targets. We identified 13 novel mRNAs as candidate IRE1α cleavage targets. Moreover, an analysis of the novel cleavage sites revealed a consensus sequence (CUGCAG) which, when accompanied by a stem-loop structure, is essential for IRE1α-mediated cleavage. The sequence and structure were also conserved in the known IRE1α cleavage targets, CD59 and XBP1. These findings provide the important clue to understanding the molecular mechanisms by which IRE1α recognizes and cleaves target RNAs

Exploring molecular backgrounds of quality traits in rice by predictive models based on high-coverage metabolomics

<p>Abstract</p> <p>Background</p> <p>Increasing awareness of limitations to natural resources has set high expectations for plant science to deliver efficient crops with increased yields, improved stress tolerance, and tailored composition. Collections of representative varieties are a valuable resource for compiling broad breeding germplasms that can satisfy these diverse needs.</p> <p>Results</p> <p>Here we show that the untargeted high-coverage metabolomic characterization of such core collections is a powerful approach for studying the molecular backgrounds of quality traits and for constructing predictive metabolome-trait models. We profiled the metabolic composition of kernels from field-grown plants of the rice diversity research set using 4 complementary analytical platforms. We found that the metabolite profiles were correlated with both the overall population structure and fine-grained genetic diversity. Multivariate regression analysis showed that 10 of the 17 studied quality traits could be predicted from the metabolic composition independently of the population structure. Furthermore, the model of amylose ratio could be validated using external varieties grown in an independent experiment.</p> <p>Conclusions</p> <p>Our results demonstrate the utility of metabolomics for linking traits with quantitative molecular data. This opens up new opportunities for trait prediction and construction of tailored germplasms to support modern plant breeding.</p

Genome Analysis Revives a Forgotten Hybrid Crop Edo-dokoro in the Genus Dioscorea

忘れられた作物「えどどころ」の起原 --ゲノム解析が明らかにする青森県三八上北地域に残る栽培イモの歴史--. 京都大学プレスリリース. 2022-08-10.A rhizomatous Dioscorea crop “Edo-dokoro” was described in old records of Japan, but its botanical identify has not been characterized. We found that Edo-dokoro is still produced by four farmers in Tohoku-machi of Aomori Prefecture, Japan. Rhizomes of Edo-dokoro are a delicacy to the local people and are sold in the markets. Morphological characters of Edo-dokoro suggest its hybrid origin between the two species, D. tokoro and D. tenuipes. Genome analysis revealed that Edo-dokoro is likely originated by hybridization of a male D. tokoro to a female D. tenuipes, followed by a backcross with a male plant of D. tokoro. Edo-dokoro is a typical minor crop possibly maintained for more than 300 years but now almost forgotten from the public. We hypothesize that there are many such uncharacterized genetic heritages passed over generations by small scale farmers that await serious scientific investigation for future use and improvement by using modern genomics information

Long-term observation of fibrillation cycle length in patients under angiotensin II receptor blocker therapy for chronic atrial fibrillation

AbstractIntroductionThe long-term effect of angiotensin II receptor blockers (ARBs) on atrial fibrillation (AF) is unclear. In this study, we evaluated the change in the fibrillation cycle length (FCL) in patients under long-term ARB therapy for chronic AF.Methods and resultsThe study population consisted of 25 chronic AF patients who were prescribed the same medication for more than 6 years and in whom specific ECG recording for FCL evaluation could be performed before and after the 6-year observation period. The patients were divided into 2 groups: those with and without ARB (ARB group and non-ARB group and n=15 and 10, respectively). FCL was calculated by the spectral analysis of the fibrillation waves in the surface ECG. There was no significant difference in the clinical characteristics between the 2 groups. In the ARB group, the mean FCL was prolonged from 154±20ms to 187±37ms (p=0.005), whereas it remained unchanged in the non-ARB group (150±12ms vs. 149±10ms). In the comparison between patients with and those without FCL prolongation (>30ms; n=6 and 19, respectively), a significant difference was observed only in those prescribed ARBs.ConclusionIn cases of chronic AF, FCL might be prolonged under long-term ARB treatment

Intracystic Papillary Carcinoma of Breast Harbors Significant Genomic Alteration Compared with Intracystic Papilloma: Genome-wide Copy Number and LOH Analysis Using High-Density Single-Nucleotide Polymorphism Microarrays.

Purpose: Intracystic papillary breast tumors consist of benign papilloma, carcinoma in situ and carcinoma with invasion. Using high-density single-nucleotide polymorphism arrays, this study aimed to determine the profile of genomic alterations in these lesions and to identify novel diagnostic criteria. Methods: Ten samples of intracystic papillary tumor, which included five papillomas (Pap), three papillary carcinomas in situ (PurePC) and two papillary carcinomas with invasion (PCinv), were studied. DNA was extracted from tumor and normal tissues that were microdissected from the same formalin-fixed paraffin embedded blocks. Using probe intensity and genotype data from high-density oligonucleotide SNP microarrays (AffymetrixR GeneChip Genome-wide Human 5.0), paired copy number and LOH analysis was performed using Partek Genomic Suite Software. Results: Quality control (QC) call rate, which is an index measuring the quality of a SNP microarray experiment, ranged from 70.75% to 91.93%, mean 80.72%. The mean total genomic alteration rate (sum of amplifications, deletions and copy-neutral loss of heterogeneity) with respect to the whole genome was 2.87%, 15.4% and 35.3% in Pap, PC and IDC, respectively, and was significantly different between samples (Kruskal-Wallis chi-squared test, p = 0.043). The most commonly altered regions (. 4/5) in papillary carcinoma were copy-neutral loss of heterogeneity at 3p21.31 and 3p14.2 and amplification at 20q13.13. Genes altered only in invasive carcinoma included genes concerned with transcription. Conclusions: Among intracystic papillary breast tumors, malignant tumors, including non-invasive tumors, which are difficult to diagnose histopathologically, harbor significant genomic alteration. Our findings may aid clinical management of these tumors and may provide insight into their carcinogenesis

Familial brain arteriovenous malformation maps to 5p13-q14, 15q11-q13 or 18p11: linkage analysis with clipped fingernail DNA on high-density SNP array.

Familial arteriovenous malformations (AVM) in the brain is a very rare disease. It is defined as its occurrence in two or more relatives (up to third-degree relatives) in a family without any associated disorders, such as hereditary hemorrhagic telangiectasia. We encountered a Japanese family with brain AVM in which four affected members in four successive generations were observed. One DNA sample extracted from leukocytes of the proband and ten DNA samples from clipped finger nails of other members were available. A genome-wide linkage analysis was performed on this pedigree using Affymetrix GeneCip 10K 2.0 Xba Array and MERLIN software. We obtained sufficient performance of SNP genotyping in the fingernail samples with the mean SNP call rate of 92.49%, and identified 18 regions with positive LOD scores. Haplotype and linkage analyses with microsatellite markers at these regions confirmed three possible disease-responsible regions, i.e., 5p13.2-q14.1, 15q11.2-q13.1 and 18p11.32-p11.22. Sequence analysis was conducted for ten selected candidate genes at 5p13.2-q14.1, such as MAP3K1, DAB2, OCLN, FGF10, ESM1, ITGA1, ITGA2, EGFLAM, ERBB2IP, and PIK3R1, but no causative genetic alteration was detected. This is the first experience of adoption of fingernail DNA to genome-wide, high-density SNP microarray analysis, showing candidate brain AVM susceptible regions

Prevalence of the metabolic syndrome in elderly and middle-aged Japanese

AbstractBackground/PurposeDiagnosis and management of the metabolic syndrome (MetS) are beneficial for successful aging. In spite of several criteria for MetS, there is little information on cardiometabolic risk clustering in elderly Japanese. The purpose of this study was, therefore, to determine the relationship between age-associated changes in obesity and metabolic components in the Japanese.MethodsWe analyzed data from the nationwide survey conducted in 2000. Using Adult Treatment Panel III (ATP III) and Japanese diagnostic criteria for MetS, we analyzed 2366 people aged from 40 to 79 years (men, 1425 and women, 941) from the total participants.ResultsThe prevalence of MetS was almost three fold higher by modified ATP III, International Diabetes Federation, and Japanese criteria, in elderly women than in middle-aged women, whereas no difference was found between middle-aged and elderly men by the three criteria. A marked increase in the prevalence of MetS was found by modified ATP III and International Diabetes Federation criteria compared with that by the Japanese criteria in women. Among the risk factors, the prevalence of central obesity and dyslipidemia increased only in women and that of high fasting glucose and high blood pressure increased in both genders with aging. Among the MetS subjects who fulfilled the modified ATP III criteria, more clustering of risk was observed in elderly than in middle-aged subjects, especially in women. Blood pressure increased and triglyceride decreased in both genders, and non-high-density-lipoprotein cholesterol decreased in elderly men. The prevalence of dyslipidemia decreased in elderly men.ConclusionAging is an important factor that affects the metabolic abnormality, and aging of the population would lead to increase in the prevalence of MetS. Therefore, the development of better approaches to the prevention and management of MetS is necessary for successful aging in our society

High-Throughput Cryopreservation of Plant Cell Cultures for Functional Genomics

Suspension-cultured cell lines from plant species are useful for genetic engineering. However, maintenance of these lines is laborious, involves routine subculturing and hampers wider use of transgenic lines, especially when many lines are required for a high-throughput functional genomics application. Cryopreservation of these lines may reduce the need for subculturing. Here, we established a simple protocol for cryopreservation of cell lines from five commonly used plant species, Arabidopsis thaliana, Daucus carota, Lotus japonicus, Nicotiana tabacum and Oryza sativa. The LSP solution (2 M glycerol, 0.4 M sucrose and 86.9 mM proline) protected cells from damage during freezing and was only mildly toxic to cells kept at room temperature for at least 2 h. More than 100 samples were processed for freezing simultaneously. Initially, we determined the conditions for cryopreservation using a programmable freezer; we then developed a modified simple protocol that did not require a programmable freezer. In the simple protocol, a thick expanded polystyrene (EPS) container containing the vials with the cell–LSP solution mixtures was kept at −30°C for 6 h to cool the cells slowly (pre-freezing); samples from the EPS containers were then plunged into liquid nitrogen before long-term storage. Transgenic Arabidopsis cells were subjected to cryopreservation, thawed and then re-grown in culture; transcriptome and metabolome analyses indicated that there was no significant difference in gene expression or metabolism between cryopreserved cells and control cells. The simplicity of the protocol will accelerate the pace of research in functional plant genomics