Your search keyword '"Meixia Qi"' showing total 8 results

1. Comparative Transcriptomics Analysis Reveals the Differences in Transcription between Resistant and Susceptible Pepper (Capsicum annuum L.) Varieties in Response to Anthracnose

Author

Yixin Wang, Bin Chen, Chunyuan Cheng, Bingkun Fu, Meixia Qi, Heshan Du, Sansheng Geng, and Xiaofen Zhang

Subjects

pepper, anthracnose, GO enrichment, Colletotrichum capsici, transcription, Botany, QK1-989

Abstract

Pepper (Capsicum annuum L.) is a herbaceous plant species in the family Solanaceae. Capsicum anthracnose is caused by the genus Colletotrichum. spp., which decreases pepper production by about 50% each year due to anthracnose. In this study, we evaluated the resistance of red ripe fruits from 17 pepper varieties against anthracnose fungus Colletotrichum capsici. We assessed the size of the lesion diameter and conducted significance analysis to identify the resistant variety of B158 and susceptible variety of B161. We selected a resistant cultivar B158 and a susceptible cultivar B161 of pepper and used a transcription to investigate the molecular mechanisms underlying the plant’s resistance to C. capsici, of which little is known. The inoculated fruit from these two varieties were used for the comparative transcription analysis, which revealed the anthracnose-induced differential transcription in the resistant and susceptible pepper samples. In the environment of an anthrax infection, we found that there were more differentially expressed genes in resistant varieties compared to susceptible varieties. Moreover, the response to stimulus and stress ability was stronger in the KANG. The transcription analysis revealed the activation of plant hormone signaling pathways, phenylpropanoid synthesis, and metabolic processes in the defense response of peppers against anthracnose. In addition, ARR-B, AP2-EREBP, bHLH, WRKY, and NAC are associated with disease resistance to anthracnose. Notably, WRKY and NAC were found to have a potentially positive regulatory role in the defense response against anthracnose. These findings contribute to a more comprehensive understanding of the resistance mechanisms of red pepper fruit to anthracnose infection, providing valuable molecular insights for further research on the resistance mechanisms and genetic regulations during this developmental stage of pepper.

Published

2024

2. Time-course transcriptome landscape of achene development in lettuce

Author

Chen Luo, Shenglin Wang, Kang Ning, Zijing Chen, Jingjing Yang, Yixin Wang, Meixia Qi, and Qian Wang

Subjects

Lettuce, Achene development, Transcriptome, Fruit, Seed, Transcription factor, Plant culture, SB1-1110

Abstract

Lettuce (Lactuca sativa L.), which belongs to the large Asteraceae (Compositae) family, breeds by sexual reproduction and produces seeds. Actually, lettuce seeds are achenes, which are defined as fruits. However, few studies have described the morphological characteristics of the lettuce achenes, and genes essential for achene development are largely unknown in lettuce. To investigate the gene activity during achene development and determine the possible mechanisms that influence achene development in lettuce, we performed a time-course transcriptome analysis of lettuce achenes. A total of 27,390 expressed genes were detected at the five achene development stages. We investigated the gene expression patterns during achene development and identified the enriched biological processes at the corresponding stages. Kyoto Encyclopedia of Genes and Genomes and Gene Ontology analyses revealed a variety of transcriptomic similarities and differences at different achene development stages. Further, transcription factors and phytohormones were found to play important roles during achene development. Finally, we proposed a working model to illustrate the gene expression modules and possible molecular mechanisms underlying achene development. Our time-course transcriptome data also provide a foundation for future functional studies to reveal the genetic control of achene development in lettuce.

Published

2022

3. Achieving Partial Nitrification via Intermittent Aeration in SBR and Short-Term Effects of Different C/N Ratios on Reactor Performance and Microbial Community Structure

Author

Zhengyao Zhou, Meixia Qi, and Hongping Wang

Subjects

partial nitrification, intermittent aeration, C/N ratio, high-throughput sequencing, microbial community, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

A sequencing batch reactor (SBR) with an intermittent aeration mode was established to achieve partial nitrification (PN) and the short-term effects of C/N ratios were investigated. Stable nitrite accumulation was achieved after 107 cycles, about 56d, with the average ammonia nitrogen removal efficiency (ARE) and nitrite accumulation rate (NAR) of 96.92% and 82.49%, respectively. When the C/N ratios decreased from 4.64 to 3.87 and 2.32, ARE and NAR still kept a stable and high level. However, when the C/N ratio further decreased to 0.77, nitrite accumulation became fluctuation, and ARE, total nitrogen (TN), and chemical oxygen demand (COD) removal performance declined obviously. Except for four common phyla (Proteobacteria, Bacteroidetes, Chloroflexi, and Actinobacteria) in the wastewater treatment system, Patescibacteria, the newly defined superphylum, was found and became the most dominant phylum in the PN sludge for their ultra-small cell size. The only ammonia oxidation bacteria (AOB), Nitrosomonas, and nitrite oxidation bacteria (NOB), Nitrospira, were detected. The relative abundance of NOB was low at different C/N ratios, showing the stable and effective inhibition effects of intermittent aeration on NOB growth.

Published

2020

4. Surrogate model for reservoir performance prediction with time-varying well control based on depth generative network

Author

Yanchun LI, Deli JIA, Suling WANG, Ruyi QU, Meixia QIAO, and He LIU

Subjects

deep generative network, surrogate model, time-varying well control, water-flooding, reservoir performance, Petroleum refining. Petroleum products, TP690-692.5

Abstract

This paper proposes a novel intelligent method for defining and solving the reservoir performance prediction problem within a manifold space, fully considering geological uncertainty and the characteristics of reservoirs performance under time-varying well control conditions, creating a surrogate model for reservoir performance prediction based on Conditional Evolutionary Generative Adversarial Networks (CE-GAN). The CE-GAN leverages conditional evolution in the feature space to direct the evolution of the generative network in previously uncontrollable directions, and transforms the problem of reservoir performance prediction into an image evolution problem based on permeability distribution, initial reservoir performance and time-varying well control, thereby enabling fast and accurate reservoir performance prediction under time-varying well control conditions. The experimental results in basic (egg model) and actual water-flooding reservoirs show that the model predictions align well with numerical simulations. In the basic reservoir model validation, the median relative residuals for pressure and oil saturation are 0.5% and 9.0%, respectively. In the actual reservoir model validation, the median relative residuals for both pressure and oil saturation are 4.0%. Regarding time efficiency, the surrogate model after training achieves approximately 160-fold and 280-fold increases in computational speed for the basic and actual reservoir models, respectively, compared with traditional numerical simulations. The reservoir performance prediction surrogate model based on the CE-GAN can effectively enhance the efficiency of production optimization.

Published

2024

5. QTL mapping and candidate gene analysis of microspore embryogenesis in Capsicum

Author

Jingyi Bai, Bin Chen, Meixia Qi, Heshan Du, Qian Wang, Sansheng Geng, and Xiaofen Zhang

Subjects

Genetics, Plant Science, Horticulture, Agronomy and Crop Science

Published

2022

6. The APETALA2 transcription factor LsAP2 regulates seed shape in lettuce

Author

Kang Ning, Yixin Wang, Chen Luo, Meixia Qi, Shenglin Wang, Jingjing Yang, Qian Wang, and Zijing Chen

Subjects

0106 biological sciences, 0301 basic medicine, Achene, Physiology, Seed dispersal, Mutant, Plant Science, Biology, 01 natural sciences, Transcriptome, 03 medical and health sciences, Gene Expression Regulation, Plant, Transcription factor, Gene, Plant Proteins, Homeodomain Proteins, Wild type, food and beverages, Lettuce, Cell biology, 030104 developmental biology, Transcription Factor AP-2, Seeds, Biological dispersal, Signal transduction, Function (biology), Transcription Factors, 010606 plant biology & botany

Abstract

Seeds are major vehicles of propagation and dispersal in plants. A number of transcription factors, including APETALA2 (AP2), play crucial roles during the seed development process in various plant species. However, genes essential for seed development and the regulatory networks during seed development remain unclear in lettuce. Here, we identified a lettuceAP2(LsAP2) gene that was highly expressed at the early stages of seed development.LsAP2knockout plants obtained by the CRISPR/Cas9 system were used to explore the biological function ofLsAP2. Compared with wild-type, the seeds of theLsap2mutant plants had increased length and decreased width, and developed an extended tip at the seed top. After further investigating the seed structural characteristics ofLsap2mutant plants, we proposed a new function ofLsAP2in seed dispersal. Moreover, we identified several interactors of LsAP2. Our results showed that LsAP2 directly interacted with the lettuce homolog of BREVIPEDICELLUS (LsBP) and promoted the expression ofLsBP. Transcriptome analysis revealed that LsAP2 might also be involved in brassinosteroid biosynthesis and signaling pathways. Taken together, our data indicate that LsAP2 has a significant function in regulating seed shape in lettuce.

Published

2020

7. Mitochondrial Genome Sequencing Reveals orf463a May Induce Male Sterility in NWB Cytoplasm of Radish

Author

Meixia Qi, Qingbiao Wang, Wei Hao, Li Zhang, Jianxia Li, and Yanping Wang

Subjects

0106 biological sciences, 0301 basic medicine, Cytoplasm, Candidate gene, Mitochondrial DNA, cytoplasmic male sterility, Plant Infertility, lcsh:QH426-470, Sterility, Raphanus, Raphanus raphanistrum, DNA, Mitochondrial, 01 natural sciences, Genome, Article, 03 medical and health sciences, health services administration, Genetics, Gene, Genetics (clinical), health care economics and organizations, Base Sequence, biology, Cytoplasmic male sterility, NWB CMS, Chromosome Mapping, High-Throughput Nucleotide Sequencing, food and beverages, orf463a, biology.organism_classification, DCGMS, Mitochondria, lcsh:Genetics, 030104 developmental biology, Brassicaceae, Genome, Mitochondrial, radish, 010606 plant biology & botany

Abstract

Radish (Raphanus sativus L.) is an important root vegetable worldwide. The development of F1 hybrids, which are extensively used for commercial radish production, relies on cytoplasmic male sterility (CMS). To identify candidate genes responsible for CMS in NWB cytoplasm, we sequenced the normal and NWB CMS radish mitochondrial genomes via next-generation sequencing. A comparative analysis revealed 18 syntenic blocks and 11 unique regions in the NWB CMS mitogenome. A detailed examination indicated that orf463a was the most likely causal factor for male sterility in NWB cytoplasm. Interestingly, orf463a was identical to orf463, which is responsible for CMS in Dongbu cytoplasmic and genic male sterility (DCGMS) radish. Moreover, only structural variations were detected between the NWB CMS and DCGMS mitochondrial genomes, with no nucleotide polymorphisms (SNPs) or meaningful indels. Further analyses revealed these two mitochondrial genomes are coexisting isomeric forms belonging to the same mitotype. orf463a was more highly expressed in flower buds than in vegetative organs and its expression was differentially regulated in the presence of restorer of fertility (Rf) genes. orf463a was confirmed to originate from Raphanus raphanistrum. In this study, we identified a candidate gene responsible for the CMS in NWB cytoplasm and clarified the relationship between NWB CMS and DCGMS.

Published

2020

8. Residual based attention-Unet combing DAC and RMP modules for automatic liver tumor segmentation in CT

Author

Rongrong Bi, Chunlei Ji, Zhipeng Yang, Meixia Qiao, Peiqing Lv, and Haiying Wang

Subjects

liver tumor, segmentation, ct, residual, attention, Biotechnology, TP248.13-248.65, Mathematics, QA1-939

Abstract

Purpose: Due to the complex distribution of liver tumors in the abdomen, the accuracy of liver tumor segmentation cannot meet the needs of clinical assistance yet. This paper aims to propose a new end-to-end network to improve the segmentation accuracy of liver tumors from CT. Method: We proposed a hybrid network, leveraging the residual block, the context encoder (CE), and the Attention-Unet, called ResCEAttUnet. The CE comprises a dense atrous convolution (DAC) module and a residual multi-kernel pooling (RMP) module. The DAC module ensures the network derives high-level semantic information and minimizes detailed information loss. The RMP module improves the ability of the network to extract multi-scale features. Moreover, a hybrid loss function based on cross-entropy and Tversky loss function is employed to distribute the weights of the two-loss parts through training iterations. Results: We evaluated the proposed method in LiTS17 and 3DIRCADb databases. It significantly improved the segmentation accuracy compared to state-of-the-art methods. Conclusions: Experimental results demonstrate the satisfying effects of the proposed method through both quantitative and qualitative analyses, thus proving a promising tool in liver tumor segmentation.

Published

2022