Your search keyword '"Differential expression"' showing total 1,043 results

1. Molecular and biochemical analyses of germination of cowpea (Vigna unguiculata L.) seeds inhibited by n-propyl gallate reveal a key role of alternative oxidase in germination Re-establishment

Author

Sousa, Lyndefania Melo de, Germano, Thais Andrade, Aziz, Shahid, de Oliveira, Matheus Finger Ramos, Salvador, Giovanna Magalhães Bastos, Miranda, Rafael de Souza, Arnholdt-Schmitt, Birgit, and Costa, Jose Helio

Published

2025

2. In silico analysis and gene expression patterns of lignin peroxidase isozymes in Phanerochaete chrysosporium

Author

Akbar Aly, Abdul Basith, Thashanamoorthi, Gayathri, Shanmugaraj, Balamurugan, and Ramalingam, Sathishkumar

Published

2025

3. Cloning, expression, and localization of Tekt1 in sterile allotriploid crucian carp

Author

Zhang, Shuxin, Zhang, Liran, Yu, Faxian, Ouyang, Xinge, Yang, Haoxiang, Zuo, Qining, Huang, Yujie, Chen, Xin, Li, Shengnan, and Tao, Min

Published

2025

4. Separation of life stages within anaerobic fungi (Neocallimastigomycota) highlights differences in global transcription and metabolism

Author

Butkovich, Lazarina V., Leggieri, Patrick A., Lillington, Stephen P., Navaratna, Tejas A., Swift, Candice L., Malinov, Nikola G., Zalunardo, Thea R., Vining, Oliver B., Lipzen, Anna, Wang, Mei, Yan, Juying, Ng, Vivian, Grigoriev, Igor V., and O'Malley, Michelle A.

Published

2025

5. Aberrant expression of solute carrier family transporters in placentas associated with pregnancy complications

Author

Ajmeriya, Swati, Kashyap, Neha, Gul, Anamta, Ahirwar, Ashok, Singh, Sunil, Tripathi, Smita, Dhar, Ruby, Nayak, Nihar R., and Karmakar, Subhradip

Published

2025

6. Challenges and opportunities in processing NanoString nCounter data

Author

Chilimoniuk, Jarosław, Erol, Anna, Rödiger, Stefan, and Burdukiewicz, Michał

Published

2024

7. Genome-wide identification and expression analysis of RsNRT gene family reveals their potential roles in response to low-nitrogen condition in radish (Raphanus sativus L.)

Author

Ding, Mingchao, He, Min, Zhang, Weilan, Han, Yu, Zhang, Xinyu, Zhang, Xiaoli, Zhu, Yuelin, Wang, Yan, Liu, Liwang, and Xu, Liang

Published

2023

8. A unique circular RNA expression pattern in the peripheral blood of myalgic encephalomyelitis/chronic fatigue syndrome patients

Author

Cheng, Yuning, Xu, Si-Mei, Takenaka, Konii, Lindner, Grace, Curry-Hyde, Ashton, and Janitz, Michael

Published

2023

9. Gene expression profile of intestinal organoids from people with cystic fibrosis upon exposure to elexacaftor/tezacaftor/ivacaftor

Author

Cinek, Ondrej, Furstova, Eva, Novotna, Stepanka, Hubackova, Klara, Dousova, Tereza, Borek-Dohalska, Lucie, and Drevinek, Pavel

Published

2025

10. Multilevel analysis between Physcomitrium patens and Mortierellaceae endophytes explores potential long‐standing interaction among land plants and fungi

Author

Mathieu, Davis, Bryson, Abigail E, Hamberger, Britta, Singan, Vasanth, Keymanesh, Keykhosrow, Wang, Mei, Barry, Kerrie, Mondo, Stephen, Pangilinan, Jasmyn, Koriabine, Maxim, Grigoriev, Igor V, Bonito, Gregory, and Hamberger, Björn

Subjects

Microbiology, Plant Biology, Biological Sciences, Ecology, Life on Land, Phylogeny, Endophytes, Multilevel Analysis, Plant Proteins, Bryopsida, Bryophyta, Mycorrhizae, Physcomitrium patens, Mortierellaceae, differential expression, gene ontology enrichment, RaspberryPi, PlantCV, Biochemistry and Cell Biology, Plant Biology & Botany, Biochemistry and cell biology, Plant biology

Abstract

The model moss species Physcomitrium patens has long been used for studying divergence of land plants spanning from bryophytes to angiosperms. In addition to its phylogenetic relationships, the limited number of differential tissues, and comparable morphology to the earliest embryophytes provide a system to represent basic plant architecture. Based on plant-fungal interactions today, it is hypothesized these kingdoms have a long-standing relationship, predating plant terrestrialization. Mortierellaceae have origins diverging from other land fungi paralleling bryophyte divergence, are related to arbuscular mycorrhizal fungi but are free-living, observed to interact with plants, and can be found in moss microbiomes globally. Due to their parallel origins, we assess here how two Mortierellaceae species, Linnemannia elongata and Benniella erionia, interact with P. patens in coculture. We also assess how Mollicute-related or Burkholderia-related endobacterial symbionts (MRE or BRE) of these fungi impact plant response. Coculture interactions are investigated through high-throughput phenomics, microscopy, RNA-sequencing, differential expression profiling, gene ontology enrichment, and comparisons among 99 other P. patens transcriptomic studies. Here we present new high-throughput approaches for measuring P. patens growth, identify novel expression of over 800 genes that are not expressed on traditional agar media, identify subtle interactions between P. patens and Mortierellaceae, and observe changes to plant-fungal interactions dependent on whether MRE or BRE are present. Our study provides insights into how plants and fungal partners may have interacted based on their communications observed today as well as identifying L. elongata and B. erionia as modern fungal endophytes with P. patens.

Published

2024

11. Comparative transcriptomics reveal stage-dependent parasitic adaptations in the myxozoan Sphaerospora molnari.

Author

Wiśniewska, Monika M., Kyslík, Jiří, Alama-Bermejo, Gema, Lövy, Alena, Kolísko, Martin, Holzer, Astrid S., and Kosakyan, Anush

Subjects

*HORIZONTAL gene transfer, *GENE expression, *GENE families, *ETIOLOGY of diseases, *LIFE sciences

Abstract

Background: Parasitism as a life strategy has independently evolved multiple times within the eukaryotic tree of life. Each lineage has developed mechanisms to invade hosts, exploit resources, and ensure replication, but our knowledge of survival mechanisms in many parasitic taxa remain extremely limited. One such group is the Myxozoa, which are obligate, dixenous cnidarians. Evidence suggests that myxozoans evolved from free-living ancestors to endoparasites around 600 million years ago and are likely one of the first metazoan parasites on Earth. Some myxozoans pose significant threats to farmed and wild fish populations, negatively impacting aquaculture and fish stocks; one such example is Sphaerospora molnari, which forms spores in the gills of common carp (Cyprinus carpio), disrupting gill epithelia and causing somatic and respiratory failure. Sphaerospora molnari undergoes sequential development in different organs of its host, with large numbers of morphologically distinct stages occurring in the blood, liver, and gills of carp. We hypothesize that these parasite life-stages differ in regards to their host exploitation, pathogenicity, and host immune evasion strategies and mechanisms. We performed stage-specific transcriptomic profiling to identify differentially expressed key functional gene groups that relate to these functions and provide a fundamental understanding of the mechanisms S. molnari uses to optimize its parasitic lifestyle. We aimed to identify genes that are likely related to parasite pathogenicity and host cell exploitation mechanisms, and we hypothesize that genes unique to S. molnari might be indicative of evolutionary innovations and specific adaptations to host environments. Results: We used parasite isolation protocols and comparative transcriptomics to study early proliferative and spore-forming stages of S. molnari, unveiling variation in gene expression between each stage. We discovered several apparent innovations in the S. molnari transcriptome, including proteins that are likely to function in the uptake of previously unknown key nutrients, immune evasion factors that may contribute to long-term survival in hosts, and proteins that likely improve adhesion to host cells that may have arisen from horizontal gene transfer. Notably, we identified genes that are similar to known virulence factors in other parasitic organisms, particularly blood and intestinal parasites like Plasmodium, Trypanosoma, and Giardia. Many of these genes are absent in published cnidarian and myxozoan datasets and appear to be specific to S. molnari; they may therefore represent potential innovations enabling Sphaerospora to exploit the host's blood system. Conclusions: In order to address the threat posed by myxozoans to both cultured fish species and wild stocks, it is imperative to deepen our understanding of their genetics. Sphaerospora molnari offers an appealing model for stage-specific transcriptomic profiling and for identifying differentially expressed key functional gene groups related to parasite development. We identified genes that are thus far unique to S. molnari, which reveal their evolutionary novelty and likely role as adaptations to specific host niches. In addition, we describe the pathogenicity-associated genetic toolbox of S. molnari and discuss the implications of our discoveries for disease control by shedding light on specific targets for potential intervention strategies. Highlights: We revealed Sphaerospora molnari developmental stage-specific expression profiles in infected host tissues. In gill stage parasites, genes related to development and cytoskeletal rearrangements are mostly up-regulated, while those up-regulated in the bloodstream stage are related to metabolism and host immune evasion strategies. We propose a list of "pathogenicity-related" gene families. We uncovered stage-specific up-regulation of S. molnari genes that have no homologues or were not found in other cnidarian lineages. [ABSTRACT FROM AUTHOR]

Published

2025

12. Metabolic differentiation of brushtail possum populations resistant and susceptible to plant toxins revealed via differential gene expression.

Author

Carmelet-Rescan, David, Morgan-Richards, Mary, and Trewick, Steven A.

Subjects

*PLANT toxins, *KREBS cycle, *PLANT genetics, *GENE expression, *LIFE sciences

Abstract

The Australian brushtail possum (Trichosurus vulpecula) is adapted to a wide range of food plants across its range and is exposed to numerous physiological challenges. Populations that are resistant to the plant toxin sodium fluoroacetate are of particular interest as this compound has been used since the 1940s for vertebrate pest management around the world. Candidate gene identification is an important first step in understanding how spatial populations have responded to local selection resulting in local physiological divergence. We employ differential gene expression of liver samples from wild-caught brushtail possums from toxin-resistant and toxin-susceptible populations to identify candidate genes that might be involved in metabolic pathways associated with toxin-resistance. This allowed us to identify genetic pathways involved in resistance to the plant toxin sodium fluoroacetate in Western Australian possums but not those originally from south eastern Australia. We identified differentially expressed genes in the liver that are associated with cell signalling, encapsulating structure, cell mobility, and tricarboxylic acid cycle. The gene expression differences detected indicate which metabolic pathways are most likely to be associated with sodium fluoroacetate resistance in these marsupials and we provide a comprehensive list of candidate genes and pathways to focus on for future studies. [ABSTRACT FROM AUTHOR]

Published

2025

13. Molecular Characterization and Seasonal Variation in Expression of HSP70.1 Gene in Gangatiri Cattle and Its Comparison with Buffalo.

Author

Dayal, Shanker, Kumar, Birendra, Kumari, Rajni, Kumar, Jyoti, Ray, Pradeep Kumar, Chandran, P. C., and Dey, Amitava

Subjects

*GENE expression, *GENETIC variation, *LIFE sciences, *DNA primers, *SPRING

Abstract

Under tropical climate heat stress is a major challenge for livestock production. HSP70.1 is a ubiquitously expressed protein maintaining cellular machinery through proper folding of denatured proteins and prevents cellular apoptosis and protect cell from heat stress. Therefore, present investigation was undertaken to explore genetic variability in HSP70.1 gene in Gangatiri cattle, its comparison with buffalo sequences and differential expression in different season. The allelic variant was identified by sequencing amplified PCR product of HSP70.1 gene by primer walking. Season-wise total RNA samples was prepared for differential expression study. Brilliant SYBR Green QPCR technique was used to study the expression kinetics of this gene. DNA sequencing by primer walking identified four allelic variants in Gangatiri cattle. Sequence alignment study revealed four, six and one substitutions in the 5′ untranslated region (5′UTR), coding and 3′ untranslated region ((3′UTR) of HSP70.1 gene, respectively. Comparative analysis of HSP70.1 gene revealed that Cattle has shorter 5′UTR and 3′ UTR than the buffalo. In Gangatiri cattle, summer season has significantly higher (P ≤ 0.05) expression of HSP70.1 than the spring and winter. The relative expression of HSP70.1 was increased by more than six folds in summer and nearly 1.5 folds higher in winter in comparison to the spring season. Therefore, HSP70.1 may be considered to have a critical role in the development of thermal tolerance in Gangatiri cattle. [ABSTRACT FROM AUTHOR]

Published

2025

14. Identification of novel microRNAs and their target genes associated with stress-tolerant phytohormones in wheat (Triticum aestivum L.) during leaf rust pathogenesis.

Author

Afreen, Uzma, Mukhopadhyay, Kunal, and Kumar, Manish

Abstract

Phytohormones serve as the ace of regulatory mechanisms in plants during gene expression under different environmental conditions. They are also involved in combating diseases during plant–pathogen interactions. MicroRNAs are a group of small, non-coding and post-transcriptional regulatory RNAs that potentially function in stress tolerance as they target specific mRNAs and promote endonucleolytic cleavage or translational inhibition. Here, we aim to identify potential novel miRNAs that could assist in mitigating leaf rust resistance in wheat to combat rust epidemics. A total of 64 novel miRNAs were identified from Next Generation Sequencing datasets of small RNA libraries prepared from resistant and susceptible wheat near-isogenic lines (NILs) under mock and leaf rust pathogen (Puccinia triticina Eriks.) infected conditions. Eight miRNAs (present post leaf rust infection) complementary RNA cognate targets were predicted through psRNATarget. Ontological annotations and combined pathway analysis were applied to identify their specific functions in different phytohormone biosynthesis or signaling pathways. The miRNA target interaction was successfully validated through degradome mapping. RT-qPCR revealed that most miRNAs (TamiRs) were downregulated in the resistant NIL introgressed with Lr24 gene with an antagonistic upregulation of their phytohormone-associated target genes (AOC, BAGT, BSK3, FAR, GABA, HSF, JUNG, and RPD). However, target gene, RPP showed no such correlation in the presence of microRNA or Lr24 and was upregulated throughout the timepoints of disease progression in both the NILs. This study deciphers the regulatory linkage between the identified novel miRNAs and their phytohormonal target transcripts during leaf rust disease in wheat to assist in rust-resistant breeding programs. [ABSTRACT FROM AUTHOR]

Published

2025

15. DEAPR: Differential Expression and Pathway Ranking Tool Demonstrates NRAS G12V and NRAS G12D Mutations Have Differing Effects in THP-1 Cells.

Author

Rathe, Susan K., White, Jeremy P., Sachs, Zohar, and Largaespada, David A.

Abstract

Simple Summary: NRAS proto-oncogene GTPase (NRAS) G12 mutations are generally considered to be activating mutations, but little is known about how they may differ. DEAPR, a novel approach for evaluating RNA-sequencing results, was used to identify the most prominent and reproducible changes to an AML cell line (THP-1) when the NRASG12D mutation was replaced by an NRASG12V mutation (B11 cells). The results demonstrate that the most common changes involved cell cycle activity. However, there was a dramatic difference in genes involved in the innate immune response, thus suggesting opportunities for NRAS G12 mutant-specific treatment options. Background/Objectives: NRAS mutations are found in approximately 10% of patients with acute myeloid leukemia (AML), with nearly half of those occurring at codon 12, but little is known about how differing G12 mutants affect cancer cell activity. Methods: A novel bioinformatic technique, differential expression and pathway ranking (DEAPR), was used to identify the most prominent changes in terms of both individual genes and associated pathways when comparing AML THP-1 cells containing an NRASG12D mutation with B11 cells, which are THP-1-derived cells with the NRASG12D allele removed and a dox-inducible NRASG12V allele introduced. Results: In total, 1456 differentially expressed (DE) protein-coding genes were uniquely associated to the NRASG12D mutation, while 585 DE protein-coding genes were specific to the NRASG12V mutation. The innate immune system pathway was prominent in both mutant-specific lists, even though the genes involved were not in both lists. Furthermore, the two calprotectin genes (S100A8 and S100A9), also associated with innate immunity, were upregulated in the NRASG12D mutant and downregulated in the NRASG12V mutant. Conclusions: This study, using the DEAPR strategy, clearly demonstrates the dramatic changes associated with two seemingly similar NRAS mutations, suggesting the deployment of different treatment strategies based on the type of NRAS mutation present. [ABSTRACT FROM AUTHOR]

Published

2025

16. Harnessing Unsupervised Ensemble Learning for Biomedical Applications: A Review of Methods and Advances.

Author

Ahsen, Mehmet Eren

Subjects

*ENSEMBLE learning, *MACHINE learning, *SOMATIC mutation, *ALGORITHMS, *BIOMARKERS

Abstract

Advancements in data availability and computational techniques, including machine learning, have transformed the field of bioinformatics, enabling the robust analysis of complex, high-dimensional, and heterogeneous biomedical data. This paper explores how diverse bioinformatics tasks, including differential expression analysis, network inference, and somatic mutation calling, can be reframed as binary classification tasks, thereby providing a unifying framework for their analysis. Traditional single-method approaches often fail to generalize across datasets due to differences in data distributions, noise levels, and underlying biological contexts. Ensemble learning, particularly unsupervised ensemble approaches, emerges as a compelling solution by integrating predictions from multiple algorithms to leverage their strengths and mitigate weaknesses. This review focuses on the principles and recent advancements in ensemble learning, with a particular emphasis on unsupervised ensemble methods. These approaches demonstrate their ability to address critical challenges in bioinformatics, such as the lack of labeled data and the integration of predictions from algorithms operating on different scales. Overall, this paper highlights the transformative potential of ensemble learning in advancing predictive accuracy, robustness, and interpretability across diverse bioinformatics applications. [ABSTRACT FROM AUTHOR]

Published

2025

17. Peripheral blood miRNAs are associated with airflow below threshold in children with asthma.

Author

Tiwari, Anshul, Hobbs, Brian D., Sharma, Rinku, Li, Jiang, Kho, Alvin T., Amr, Sami, Celedón, Juan C., Weiss, Scott T., Hersh, Craig P., Tantisira, Kelan G., and McGeachie, Michael J.

Subjects

*CHRONIC obstructive pulmonary disease, *GENE expression, *FALSE discovery rate, *FOCAL adhesions, *MEDICAL sciences

Abstract

Background: MicroRNAs (miRNAs) are crucial post-transcriptional regulators involved in inflammatory diseases, such as asthma. Poor lung function and airflow issues in childhood are linked to the development of chronic obstructive pulmonary disease (COPD) in adulthood. Methods: We analyzed small RNA-Seq data from 365 peripheral whole blood samples from the Genetics of Asthma in Costa Rica Study (GACRS) for association with airflow levels measured by FEV1/FVC. Differentially expressed (DE) miRNAs were identified using DESeq2 in R, adjusting for covariates and applying a 10% false discovery rate (FDR). The analysis included 361 samples and 649 miRNAs. The two DE miRNAs were further tested for association with airflow obstruction in a study of adult former smokers with and without COPD. Results: We found 1 upregulated and 1 downregulated miRNA in participants with airflow below the threshold compared to those above it. In the adult study, the same miRNAs were upregulated and downregulated in individuals with FEV1/FVC < 0.7 versus those with FEV1/FVC > 0.7, showing suggestive statistical evidence. The target genes of these miRNAs were enriched for PI3K-Akt, Hippo, WNT, MAPK, and focal adhesion pathways. Conclusions: Two differentially expressed miRNAs were associated with airflow levels in children with asthma and airflow obstruction in adults with COPD. This suggests that shared genetic regulatory systems may influence childhood airflow and contribute to adulthood airflow obstruction. [ABSTRACT FROM AUTHOR]

Published

2025

18. Characterization of chemosensory genes in the subterranean pest Gryllotalpa Orientalis based on genome assembly and transcriptome comparison.

Author

Chudhary, Amna, Guan, De-Long, Xu, Yandi, Jiang, Tao, Yang, Lulu, Chen, Mengyang, Khan, Muhammad Salabat, Zhu, Wenhui, and Xu, Sheng-Quan

Subjects

*CHEMOSENSORY proteins, *OLFACTORY receptors, *ODORANT-binding proteins, *GENE families, *LIFE sciences

Abstract

Background: Chemosensory perception plays a vital role in insect survival and adaptability, driving essential behaviours such as navigation, mate identification, and food location. This sensory process is governed by diverse gene families, including odorant-binding proteins (OBPs), olfactory receptors (ORs), ionotropic receptors (IRs), chemosensory proteins (CSPs), gustatory receptors (GRs), and sensory neuron membrane proteins (SNMPs). The oriental mole cricket (Gryllotalpa orientalis Burmeister), an invasive pest with an underground, phyllophagous lifestyle, causes substantial crop damage. This study characterizes the chemosensory gene repertoire of G. orientalis based on de novo genome assembly and transcriptomic analysis. Results: We present a draft genome of G. orientalis at the scaffold level, spanning 2.94 Gb and comprising 10,497 scaffolds. This assembly encodes 19,155 protein-coding genes, including 158 chemosensory genes: 30 odorant receptors (ORs), 64 ionotropic receptors (IRs), ten gustatory receptors (GRs), 28 odorant-binding proteins (OBPs), 25 chemosensory proteins (CSPs), and a single sensory neuron membrane protein (SNMP). Expression analysis indicated that 71 chemosensory genes were actively expressed in the head, thorax, and legs, with ORs and OBPs showing higher expression in the head and legs. In contrast, GRs and IRs were predominantly expressed in the head. Conclusions: This study provides the first comprehensive identification of chemosensory gene families in the G. orientalis genome, characterized as a scaffold-level draft genome. These findings provide a basis for future functional studies and highlight the role of chemoreception in the subterranean environment. [ABSTRACT FROM AUTHOR]

Published

2025

19. Elucidating the molecular basis of salt tolerance in potatoes through miRNA expression and phenotypic analysis

Author

Caicai Lin, Shuangshuang Zheng, Kui Liu, Ru Yu, Peiyan Guan, Baigeng Hu, Lingling Jiang, Mengyu Su, Guodong Hu, Qingshuai Chen, and Xia Zhang

Subjects

Potato, Salt tolerance, Comprehensive evaluation, MiRNA-Seq, Differential expression, Medicine, Science

Abstract

Abstract Potatoes are a critical staple crop worldwide, yet their yield is significantly constrained by salt stress. Understanding and enhancing salt tolerance in potatoes is crucial for ensuring food security. This study evaluated the salt tolerance of 17 diverse potato varieties using principal component analysis, membership function analysis, cluster analysis, and stepwise regression analysis. Comprehensive evaluation based on morphological, physiological, and biochemical indicators divided the varieties into three categories, identifying Z1264-1, Z700-1, Z943-1, Z1266-1, Z510-1, and Z1076-1 as having strong salt tolerance. Regression equations established stem thickness, root length, and catalase activity as rapid identification markers for salt tolerance in tetraploid potatoes. Transcriptome analysis of the highly tolerant variety Z1076-1 identified 68 differentially expressed miRNAs (DE miRNAs). qRT-PCR validation for eight randomly selected DE miRNAs confirmed consistent expression trends with transcriptome data. Predicted target genes of these miRNAs are involved in calcium channel signaling, osmotic regulation, plant hormone signaling, and reactive oxygen species clearance. Our findings provide valuable insights for the identification and screening of salt-tolerant potato germplasms. The findings also lay the foundation for studying molecular mechanisms of salt tolerance and advancing genetic breeding efforts to cultivate more resilient potato varieties.

Published

2025

20. A de novo long-read genome assembly of the sacred datura plant (Datura wrightii) reveals a role of tandem gene duplications in the evolution of herbivore-defense response.

Author

Goldberg, Jay, Olcerst, Aaron, McKibben, Michael, Barker, Michael, Bronstein, Judith, and Hare, J Daniel

Subjects

Datura wrightii, Differential expression, Genomics, Herbivory, Tandem duplications, Animals, Herbivory, Gene Duplication, Datura, Coleoptera

Abstract

The sacred datura plant (Solanales: Solanaceae: Datura wrightii) has been used to study plant-herbivore interactions for decades. The wealth of information that has resulted leads it to have potential as a model system for studying the ecological and evolutionary genomics of these interactions. We present a de novo Datura wrightii genome assembled using PacBio HiFi long-reads. Our assembly is highly complete and contiguous (N50 = 179Mb, BUSCO Complete = 97.6%). We successfully detected a previously documented ancient whole genome duplication using our assembly and have classified the gene duplication history that generated its coding sequence content. We use it as the basis for a genome-guided differential expression analysis to identify the induced responses of this plant to one of its specialized herbivores (Coleoptera: Chrysomelidae: Lema daturaphila). We find over 3000 differentially expressed genes associated with herbivory and that elevated expression levels of over 200 genes last for several days. We also combined our analyses to determine the role that different gene duplication categories have played in the evolution of Datura-herbivore interactions. We find that tandem duplications have expanded multiple functional groups of herbivore responsive genes with defensive functions, including UGT-glycosyltranserases, oxidoreductase enzymes, and peptidase inhibitors. Overall, our results expand our knowledge of herbivore-induced plant transcriptional responses and the evolutionary history of the underlying herbivore-response genes.

Published

2024

21. TREMSUCS-TCGA – an integrated workflow for the identification of biomarkers for treatment success

Author

Balogh Gabor, Jorge Natasha, Dupain Célia, Kamal Maud, Servant Nicolas, Le Tourneau Christophe, Stadler Peter F., and Bernhart Stephan H.

Subjects

tcga, scc, biomarker, precision medicine, differential expression, differentially methylated regions, Biotechnology, TP248.13-248.65

Abstract

Many publicly available databases provide disease related data, that makes it possible to link genomic data to medical and meta-data. The cancer genome atlas (TCGA), for example, compiles tens of thousand of datasets covering a wide array of cancer types. Here we introduce an interactive and highly automatized TCGA-based workflow that links and analyses epigenomic and transcriptomic data with treatment and survival data in order to identify possible biomarkers that indicate treatment success. TREMSUCS-TCGA is flexible with respect to type of cancer and treatment and provides standard methods for differential expression analysis or DMR detection. Furthermore, it makes it possible to examine several cancer types together in a pan-cancer type approach. Parallelisation and reproducibility of all steps is ensured with the workflowmanagement system Snakemake. TREMSUCS-TCGA produces a comprehensive single report file which holds all relevant results in descriptive and tabular form that can be explored in an interactive manner. As a showcase application we describe a comprehensive analysis of the available data for the combination of patients with squamous cell carcinomas of head and neck, cervix and lung treated with cisplatin, carboplatin and the combination of carboplatin and paclitaxel. The best ranked biomarker candidates are discussed in the light of the existing literature, indicating plausible causal relationships to the relevant cancer entities.

Published

2024

22. CircRNA profiling of skeletal muscle satellite cells in goats reveals circTGFβ2 promotes myoblast differentiation

Author

Siyuan Zhan, Rui Jiang, Zongqi An, Yang Zhang, Tao Zhong, Linjie Wang, Jiazhong Guo, Jiaxue Cao, Li Li, and Hongping Zhang

Subjects

Goat, circRNA sequencing, Differential expression, circTGFβ2, Differentiation, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Circular RNAs (circRNAs) function as essential regulatory elements with pivotal roles in various biological processes. However, their expression profiles and functional regulation during the differentiation of goat myoblasts have not been thoroughly explored. This study conducts an analysis of circRNA expression profiles during the proliferation phase (cultured in growth medium, GM) and differentiation phase (cultured in differentiation medium, DM1/DM5) of skeletal muscle satellite cells (MuSCs) in goats. Results A total of 2,094 circRNAs were identified, among which 84 were differentially expressed as determined by pairwise comparisons across three distinct groups. Validation of the expression levels of six randomly selected circRNAs was performed using reverse transcription PCR (RT-PCR) and quantitative RT-PCR (qRT-PCR), with confirmation of their back-splicing junction sites. Enrichment analysis of the host genes associated with differentially expressed circRNAs (DEcircRNAs) indicated significant involvement in biological processes such as muscle contraction, muscle hypertrophy, and muscle tissue development. Additionally, these host genes were implicated in key signaling pathways, including Hippo, TGF-beta, and MAPK pathways. Subsequently, employing Cytoscape, we developed a circRNA-miRNA interaction network to elucidate the complex regulatory mechanisms underlying goat muscle development, encompassing 21 circRNAs and 47 miRNAs. Functional assays demonstrated that circTGFβ2 enhances myogenic differentiation in goats, potentially through a miRNA sponge mechanism. Conclusion In conclusion, we identified the genome-wide expression profiles of circRNAs in goat MuSCs during both proliferation and differentiation phases, and established that circTGFβ2 plays a role in the regulation of myogenesis. This study offers a significant resource for the advanced exploration of the biological functions and mechanisms of circRNAs in the myogenesis of goats.

Published

2024

23. scCTS: identifying the cell type-specific marker genes from population-level single-cell RNA-seq

Author

Luxiao Chen, Zhenxing Guo, Tao Deng, and Hao Wu

Subjects

Single-cell RNA-seq, Cell type-specific genes, Differential expression, Hierarchical model, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Single-cell RNA-sequencing (scRNA-seq) provides gene expression profiles of individual cells from complex samples, facilitating the detection of cell type-specific marker genes. In scRNA-seq experiments with multiple donors, the population level variation brings an extra layer of complexity in cell type-specific gene detection, for example, they may not appear in all donors. Motivated by this observation, we develop a statistical model named scCTS to identify cell type-specific genes from population-level scRNA-seq data. Extensive data analyses demonstrate that the proposed method identifies more biologically meaningful cell type-specific genes compared to traditional methods.

Published

2024

24. GhGME31D identified to regulate AsA activation in response to alkali stress from GME gene family implications in cotton

Author

Xiao Chen, Yapeng Fan, Hongyu Nan, Cun Rui, Jing Zhang, Menghao Zhang, Yuping Sun, Lidong Wang, Zhining Yang, Ruize Song, Fange Wu, Shuai Wang, Lixue Guo, Xiugui Chen, Xuke Lu, Xiaoping Zhu, Ning Wang, Keyun Feng, Kunpeng Zhang, and Wuwei Ye

Subjects

GDP-D-mannose 3′, 5′-epimerase (GME), Gossypium hirsutum, Abiotic stress, Differential expression, Environmental sciences, GE1-350, Environmental law, K3581-3598

Abstract

Abstract Vitamin C, also referred to as ascorbic acid (AsA), is recognized for its capacity to cure and avert scurvy, and it is crucial for regular human growth and development. In various crops, AsA participates in stress response mechanisms mediated by abscisic acid and has been discovered to have a crucial function in the morphogenesis, growth, development, and production of male gametes in plants. GDP-D-mannose 3′,5′-epimerase (GME) is essential in the synthesis of vitamin C. Our research identified 91, 83, 51, and 46 genes, respectively, found in G. barbadense (GbGMEs), G. hirsutum (GhGMEs), G. arboretum (GaGMEs), and G. raimondii (GrGMEs). Plants resulting from VIGS infection with GhGME31D clearly showed yellowing, water loss and wilting of leaves and black spots on stems. Measurement of MDA and AsA levels indicated that the plants were more damaged. This indicates that AsA has a substantial impact on plant growth and development.

Published

2024

25. Selecting differential splicing methods: Practical considerations [version 1; peer review: awaiting peer review]

Author

Ben J. Draper, Mark J. Dunning, and David C. James

Subjects

Review, Articles, Bioinformatics, Alternative Splicing, RNASeq, Transcriptomics, Differential Expression

Abstract

Alternative splicing is crucial in gene regulation, with significant implications in clinical settings and biotechnology. This review article compiles bioinformatics RNA-seq tools for investigating differential splicing; offering a detailed examination of their statistical methods, case applications, and benefits. A total of 22 tools are categorised by their statistical family (parametric, non-parametric, and probabilistic) and level of analysis (transcript, exon, and event). The central challenges in quantifying alternative splicing include correct splice site identification and accurate isoform deconvolution of transcripts. Benchmarking studies show no consensus on tool performance, revealing considerable variability across different scenarios. Tools with high citation frequency and continued developer maintenance, such as DEXSeq and rMATS, are recommended for prospective researchers. To aid in tool selection, a guide schematic is proposed based on variations in data input and the required level of analysis. Additionally, advancements in long-read RNA sequencing are expected to drive the evolution of differential splicing tools, reducing the need for isoform deconvolution and prompting further innovation.

Published

2025

26. Comparative transcriptomics of a generalist aphid, Myzus persicae and a specialist aphid, Lipaphis erysimi reveals molecular signatures associated with diversity of their feeding behaviour and other attributes.

Author

Sharma, Manvi, Oraon, Praveen Kumar, Srivastava, Rakesh, Chongtham, Rubina, Goel, Shailendra, Agarwal, Manu, and Jagannath, Arun

Subjects

GREEN peach aphid, PLANT cell walls, GENE expression, APHIDS, TRANSCRIPTOMES, PEPTIDASE, DIGESTIVE enzymes

Abstract

Introduction: Aphids are phloem sap-sucking insects and are a serious destructive pest of several crop plants. Aphids are categorized as "generalists" or "specialists" depending on their host range. Myzus persicae (Sulz.) is a generalist aphid with a broad host range while Lipaphis erysimi (Kalt.), a specialist aphid, has a narrow host range. Aphid infestation involves several sequential stages including host recognition and selection, overcoming primary plant defence barriers, feeding on phloem sap and detoxification of host defence responses. Information on the molecular basis of variations between generalist and specialist aphids with reference to the above processes is limited. Methods: In the current study, we generated transcriptome data of M. persicae and L. erysimi from adult and nymph stages and analysed the differential expression of genes between adults of the generalist and specialist aphid and similarly, between nymphs of the two aphid species. We categorized these differentially expressed genes into nine different categories namely, chemosensation-related, plant cell wall degrading enzymes, detoxification-related, digestive enzymes, peptidases, carbohydrate-, lipid-, amino acid-metabolism and reproduction. We also identified putative effector molecules in both M. persicae and L. erysimi from the transcriptome data, Results and discussion: Gene expression analysis identified 7688 and 8194 differentially expressed unigenes at adult and nymph stages, respectively of M. persicae and L. erysimi. M. persicae showed significantly higher levels of expression in a greater number of unigenes (5112 in adults and 5880 in nymphs) in contrast to the specialist, L. erysimi (2576 in adults and 2314 in nymphs) in both developmental stages. In addition, M. persicae displayed a greater number (350 in adults and 331 in nymphs) of upregulated unigenes involved in important processes such as host recognition, plant cell wall degradation, detoxification, digestion and metabolism, which correlate with its dynamic and polyphagous nature in contrast to the specialist (337 in adults and 251 in nymphs). We also observed a greater number of putative effectors in M. persicae (948 in adults and 283 in nymphs) than L. erysimi (797 in adults and 245 in nymphs). Based on our analysis, we conclude that the generalist aphid, M. persicae has a more diversified and stronger arsenal of genes that influence its polyphagous feeding behaviour and effective response to plant defence mechanisms against insect-herbivory. Our study provides a compendium of such candidate genes that would be most useful in studies on aphid biology, evolution and control. [ABSTRACT FROM AUTHOR]

Published

2024

27. Expression Profiles of TRIM Family Genes in Neuronal and Glial Cell Cultures of Healthy Donors and Patients with Parkinson's Disease under Normal Conditions and Upon Neuroinflammation.

Author

Nenasheva, V. V., Novosadova, E. V., Gerasimova, T. P., Novosadova, L. V., Kotok, A. Y., Arsenieva, E. L., Stepanenko, E. A., Grivennikov, I. A., and Tarantul, V. Z.

Subjects

*INDUCED pluripotent stem cells, *MEDICAL sciences, *PARKINSON'S disease, *PLURIPOTENT stem cells, *GENE families

Abstract

Proteins of the TRIM family are involved in both innate immunity and the nervous system processes and may play an important role in the development of neurodegenerative diseases. In this work, we analyzed the expression of 35 genes of the TRIM family in neural progenitors (NPs), terminally differentiated neurons (TDNs) and glial derivatives (NGs) obtained from induced pluripotent stem cells (iPSCs) of healthy donors (HD) and patients with Parkinson's disease (PD), in the absence of inflammatory stimuli and upon the induction of a nonspecific inflammatory response under the influence of TNFα. In NPs and TDNs of PD patients, compared with HD cells, differences in expression were observed for only a small number of TRIM genes. Under the influence of TNFα in TDNs, the expression of individual TRIM genes was activated, which was more significant in the cells of patients with PD compared to cells of HDs. In NGs of PD patients, the expression of many TRIM genes was initially reduced compared to HD cells and remained low or further decreased after exposure to TNFα. The data obtained demonstrate differences in the network of the TRIM family members in PD neurons and glia compared to control, and also show the multidirectional influence of the inflammatory stimulus on the expression of a number of TRIM genes in these types of cells. Considering the important role of many TRIM genes in the functioning of the innate immune system, it can be assumed that, in PD, more significant disturbances in the functioning of genes of this family occur in glia compared to neurons. [ABSTRACT FROM AUTHOR]

Published

2024

28. Comparative transcriptome profiling to untie the drought tolerance molecular mechanism of backcross rice (Oryza sativa L.) inbred.

Author

Baghyalakshmi, Kari, Ramchander, Selvaraj, Jagadeeshselvam, Nallathambi, Raveendran, Muthurajan, and Jeyaprakash, Paramasiwam

Subjects

*LOCUS (Genetics), *MOLECULAR chaperones, *CLIMATE change, *CARBOHYDRATE metabolism, *RICE, *DROUGHT tolerance, *HEAT shock proteins

Abstract

Rice production is severely hampered by drought stress, which causes enormous economic losses. The issue of global climate change is gaining importance, and hence development of rice genotypes tolerant to drought stress is becoming more critical. To address this issue, backcross inbred lines (BILs) developed were subjected to drought stress, and their molecular mechanism was studied. The drought‐tolerant parent Apo and drought‐susceptible, high‐yielding IR64 along with two BILs, namely, CB 229 (qDTY2.2 + qDTY3.1 + qDTY8.1) and CB 193‐3 (qDTY3.1 + qDTY8.1) were tested in a greenhouse for their response to drought. In this study, CB 229 showed better performance under water stress irrigated conditions; it was on par with IR64. Drought‐responsive transcriptome profiling was carried out in both the parents and the superior BIL CB 229 through the RNA‐Seq approach. About 3050 differentially expressed genes (DEGs) (2021 upregulated and 1029 downregulated) were detected in tolerant BIL CB 229 in drought stress. Most of the DEGs were involved in carbohydrate metabolism and the formation of cell walls, as well as genes associated with metabolite adaptability, ROS homeostasis and post‐transcriptional regulation. Genes such as chaperone protein, senescence‐induced receptor‐like serine, mannose‐6‐phosphate isomerase, aquaporin and heat shock proteins (LOC_Os02g26840, LOC_Os02g25720, LOC_Os07g35570, LOC_Os01g64970, etc.) were upregulated in the tolerant Apo and CB 229. It was observed that the BIL CB 229 yielded higher grains than both parents under moisture stress. Ninety‐four genes in the quantitative trait loci (QTLs) region were found to be differentially regulated in CB 229, Apo and IR64. Out of 94, nine genes co‐localized within the QTL qDTY2.2, 12 genes within qDTY3.1 and four genes within qDTY8.1 were differentially upregulated in CB 229 and downregulated in the susceptible genotype. The study revealed that the QTLs qDTY2.2, qDTY3.1 and qDTY8.1 are found to have complementary effects and offer enhanced levels of tolerance against drought due to complementation. Additionally, this analysis discovered new DEGs that may be involved in functions related to drought tolerance but lack function annotations. Future research can focus on a few of the significant DEGs found in this study. Taken together, our findings provide insight into drought tolerance mechanisms and could assist the development of novel strategies for improving drought tolerance in rice. [ABSTRACT FROM AUTHOR]

Published

2024

29. Genome-Wide Identification and Expression Analysis of the AP2/ERF Transcription Factor Gene Family in Hybrid Tea Rose Under Drought Stress.

Author

Yan, Xinyu, Huang, Wei, Liu, Cheng, Hao, Xuan, Gao, Chengye, Deng, Minghua, and Wen, Jinfen

Subjects

*GENE expression, *TRANSCRIPTION factors, *GENE families, *PLANT biomass, *BIOMASS production

Abstract

Drought stress is an important factor that reduces plant biomass production and quality. The APETALA2/ETHYLENE RESPONSE FACTOR (AP2/ERF) gene family is widely involved in biological processes such as plant growth, development, and stress response. However, the characteristics of the AP2/ERF gene family in hybrid tea rose (Rosa × hybrida) and their potential functions in responding to drought stress are still unclear. In the current study, 127 AP2/ERF genes were identified in hybrid tea rose. Phylogenetic analysis showed that the corresponding 127 AP2/ERF transcription factors belonged to five subfamilies. There was a large number of cis-acting elements in the AP2/ERF gene promoters related to regulation of stress response, growth and development. By examining the RNA sequencing data in the PlantExp database, the RhAP2/ERF genes exhibiting tissue-specific and stress-responsive expression in rose were identified. Furthermore, three candidate RhAP2/ERF genes (RhDREB36, RhERF59, and RhDREB44) that might participate in drought response were determined via qRT-PCR analysis in rose cultivars under drought treatment. Subcellular localization analysis revealed that RhDREB44 was located in the nucleus. These results provide a foundation for exploring the regulatory functions of RhAP2/ERF genes in the growth and development of roses, as well as for selecting key genes for future molecular breeding. [ABSTRACT FROM AUTHOR]

Published

2024

30. Loss of immune cell identity with age inferred from large atlases of single cell transcriptomes.

Author

Connolly, Erin, Pan, Tony, Aluru, Maneesha, Chockalingam, Sriram, Dhere, Vishal, and Gibson, Greg

Subjects

*MONONUCLEAR leukocytes, *OLDER people, *CELLULAR aging, *DEPERSONALIZATION, *CYTOTOXINS

Abstract

By analyzing two large atlases of almost 4 million cells, we show that immune‐senescence involves a gradual loss of cellular identity, reflecting increased cellular heterogeneity, for effector, and cytotoxic immune cells. The effects are largely similar in both males and females and were robustly reproduced in two atlases, one assembled from 35 diverse studies including 678 adults, the other the OneK1K study of 982 adults. Since the mean transcriptional differences among cell‐types remain constant across age deciles, there is little evidence for the alternative mechanism of convergence of cell‐type identity. Key pathways promoting activation and stemness are down‐regulated in aged T cells, while CD8 TEM and CD4 CTLs exhibited elevated inflammatory, and cytotoxicity in older individuals. Elevated inflammatory signaling pathways, such as MAPK and TNF‐alpha signaling via NF‐kB, also occur across all aged immune cells, particularly amongst effector immune cells. This finding of lost transcriptional identity with age carries several implications, spanning from a fundamental biological understanding of aging mechanisms to clinical perspectives on the efficacy of immunomodulation in elderly people. [ABSTRACT FROM AUTHOR]

Published

2024

31. A transcriptome atlas of zygotic and somatic embryogenesis in Norway spruce.

Author

Stojkovič, Katja, Canovi, Camilla, Le, Kim‐Cuong, Ahmad, Iftikhar, Gaboreanu, Ioana, Johansson, Sofie, Delhomme, Nicolas, Egertsdotter, Ulrika, and Street, Nathaniel R.

Subjects

*EMBRYOLOGY, *GENE expression, *REGULATOR genes, *GENE expression profiling, *SILVER fir, *SOMATIC embryogenesis

Abstract

SUMMARY: Somatic embryogenesis (SE) is a powerful model system for studying embryo development and an important method for scaling up availability of elite and climate‐adapted genetic material of Norway spruce (Picea abies L. Karst). However, there are several steps during the development of the somatic embryo (Sem) that are suboptimal compared to zygotic embryo (Zem) development. These differences are poorly understood and result in substantial yield losses during plant production, which limits cost‐effective large‐scale production of SE plants. This study presents a comprehensive data resource profiling gene expression during zygotic and somatic embryo development to support studies aiming to advance understanding of gene regulatory programmes controlling embryo development. Transcriptome expression patterns were analysed during zygotic embryogenesis (ZE) in Norway spruce, including separated samples of the female gametophytes and Zem, and at multiple stages during SE. Expression data from eight developmental stages of SE, starting with pro‐embryogenic masses (PEMs) up until germination, revealed extensive modulation of the transcriptome between the early and mid‐stage maturing embryos and at the transition of desiccated embryos to germination. Comparative analysis of gene expression changes during ZE and SE identified differences in the pattern of gene expression changes and functional enrichment of these provided insight into the associated biological processes. Orthologs of transcription factors known to regulate embryo development in angiosperms were differentially regulated during Zem and Sem development and in the different zygotic embryo tissues, providing clues to the differences in development observed between Zem and Sem. This resource represents the most comprehensive dataset available for exploring embryo development in conifers. Significance Statement: Somatic embryogenesis is used as a model system to study embryo development, however detailed information to verify similarities and explain differences between somatic and zygotic embryogenesis is largely missing for conifers. This data resource provides sequential mRNA transcriptome data from nine stages of conifer zygotic embryo and female gametophyte development, and eight stages of somatic embryo development, to enable exploration of biological questions and comparisons of the two developmental processes. [ABSTRACT FROM AUTHOR]

Published

2024

32. Gene Expression and Alternative Splicing Analysis in a Large-Scale Multiple Sclerosis Study.

Author

Sak, Müge, Chariker, Julia H., Park, Juw Won, and Rouchka, Eric Christian

Subjects

*ALTERNATIVE RNA splicing, *GENE expression, *NERVOUS system, *RNA-binding proteins, *NEUROLOGICAL disorders

Abstract

Multiple Sclerosis (MS) is an autoimmune neurodegenerative disease affecting approximately 3 million people globally. Despite rigorous research on MS, aspects of its development and progression remain unclear. We utilized a publicly available RNA-seq dataset (GSE138614) consisting of the post-mortem white matter tissues of five donors without any neurological disorders and ten MS patient donors. We investigated gene expression levels correlated with tissue inflammation and alternative splicing to identify possible pathological isoforms in MS tissues. We identified RNA-binding motifs, differentially expressed RNA-binding proteins, and single-nucleotide polymorphisms (SNPs) to unravel possible mechanisms of alternative splicing. Genes with expression changes that were positively correlated with tissue inflammation were enriched in the immune system and receptor interaction pathways. Genes showing a negative correlation were enriched in nervous system development and in metabolic pathways. A comparison of normal-appearing white matter (NAWM) and active or chronic active lesions within the same donors identified genes playing roles in immunity, white matter injury repair, and remyelination. We identified exon skipping events and spontaneous SNPs in membrane-associated ring-CH-type finger-1 (MARCHF1), UDP glycosyltransferase-8 (UGT8), and other genes important in autoimmunity and neurodegeneration. Overall, we identified unique genes, pathways, and novel splicing events that can be further investigated as potential novel drug targets for MS treatment. [ABSTRACT FROM AUTHOR]

Published

2024

33. Profiles of differential expression of miRNAs in the late stage of red blood cell preservation and their potential roles.

Author

Wang, Yajie, Ma, Yiming, Sun, Liping, Rao, Quan, Yuan, Xiaozhou, Chen, Yan, and Li, Xiaofei

Subjects

*GENETIC regulation, *BLOOD collection, *NON-coding RNA, *GENE expression, *PEARSON correlation (Statistics)

Abstract

• We screened the expression profiles of miRNAs in the late stage of RBC preservation. • We identified miRNAs that changed during different storage times as well as potential target genes. • We predicted the potential regulatory effects of these differential miRNAs through bioinformatics. To detect the differentially expressed regulatory miRNAs in the late stage of red blood cell (RBC) preservation and predict their roles. Suspended RBCs with different storage periods of 35 day, 42 day, and 50 day were collected for routine blood tests, RNA extraction, and preparation of small RNA sequencing libraries. The constructed libraries were sequenced and the biological functions of differential miRNAs in RBCs in the late storage were analyzed by bioinformatics. Routine indicators of RBCs in the late stage were not significantly affected by preservation time. The Pearson correlation analysis performing on RBC miRNAs with different storage days revealed that RBC miRNAs changed with the increase of storage days. RBC miRNAs from day 35 (D35), day 42 (D42) and day 50 (D50) showed significant differences (P < 0.05). Compared RBC miRNAs from D42 with these from D35, there were 690 up-regulated miRNAs and 82 down-regulated miRNAs; compared RBC miRNAs from D50 with these from D35, there were 638 up-regulated miRNAs and 123 down-regulated miRNAs; compared RBC miRNAs from D42 with these from D50, there were 271 up-regulated miRNAs and 515 down-regulated miRNAs. GO enrichment analysis of target genes of differential miRNAs were mainly involved in cell metabolism, biosynthesis, protein modification, gene expression and transcriptional regulation of biological processes. KEGG pathway enrichment analysis of miRNA target genes showed that differential miRNA target genes were closely related to pathways in cancer. MiRNAs were differentially expressed in the late stage of RBC preservation, and may be involved in various biological processes, especially cancer. [ABSTRACT FROM AUTHOR]

Published

2024

34. ML-GAP: machine learning-enhanced genomic analysis pipeline using autoencoders and data augmentation.

Author

Agraz, Melih, Goksuluk, Dincer, Peng Zhang, Bum-Rak Choi, Clements, Richard T., Choudhary, Gaurav, and Karniadakis, George Em

Subjects

GENE expression, GENOMICS, DATA augmentation, RNA sequencing, FEATURE selection

Abstract

Introduction: The advent of RNA sequencing (RNA-Seq) has significantly advanced our understanding of the transcriptomic landscape, revealing intricate gene expression patterns across biological states and conditions. However, the complexity and volume of RNA-Seq data pose challenges in identifying differentially expressed genes (DEGs), critical for understanding the molecular basis of diseases like cancer. Methods: We introduce a novel Machine Learning-Enhanced Genomic Data Analysis Pipeline (ML-GAP) that incorporates autoencoders and innovative data augmentation strategies, notably the MixUp method, to overcome these challenges. By creating synthetic training examples through a linear combination of input pairs and their labels, MixUp significantly enhances the model's ability to generalize from the training data to unseen examples. Results: Our results demonstrate the ML-GAP's superiority in accuracy, efficiency, and insights, particularly crediting the MixUp method for its substantial contribution to the pipeline's effectiveness, advancing greatly genomic data analysis and setting a new standard in the field. Discussion: This, in turn, suggests that ML-GAP has the potential to perform more accurate detection of DEGs but also offers new avenues for therapeutic intervention and research. By integrating explainable artificial intelligence (XAI) techniques, ML-GAP ensures a transparent and interpretable analysis, highlighting the significance of identified genetic markers. [ABSTRACT FROM AUTHOR]

Published

2024

35. Method of moments framework for differential expression analysis of single-cell RNA sequencing data.

Author

Kim, Min Cheol, Gate, Rachel, Lee, David S., Tolopko, Andrew, Lu, Andrew, Gordon, Erin, Shifrut, Eric, Garcia-Nieto, Pablo E., Marson, Alexander, Ntranos, Vasilis, and Ye, Chun Jimmie

Subjects

*MONONUCLEAR leukocytes, *GENE expression, *LOCUS (Genetics), *GENETIC transcription regulation, *T cells

Abstract

Differential expression analysis of single-cell RNA sequencing (scRNA-seq) data is central for characterizing how experimental factors affect the distribution of gene expression. However, distinguishing between biological and technical sources of cell-cell variability and assessing the statistical significance of quantitative comparisons between cell groups remain challenging. We introduce Memento, a tool for robust and efficient differential analysis of mean expression, variability, and gene correlation from scRNA-seq data, scalable to millions of cells and thousands of samples. We applied Memento to 70,000 tracheal epithelial cells to identify interferon-responsive genes, 160,000 CRISPR-Cas9 perturbed T cells to reconstruct gene-regulatory networks, 1.2 million peripheral blood mononuclear cells (PBMCs) to map cell-type-specific quantitative trait loci (QTLs), and the 50-million-cell CELLxGENE Discover corpus to compare arbitrary cell groups. In all cases, Memento identified more significant and reproducible differences in mean expression compared with existing methods. It also identified differences in variability and gene correlation that suggest distinct transcriptional regulation mechanisms imparted by perturbations. [Display omitted] • A statistical model for scRNA-seq decouples measurement and expression noise • Highly efficient resampling allows for well-calibrated hypothesis testing • Memento enables studying coordinated expression of genes in response to perturbations • Memento maps loci associated with gene expression mean, variability, and correlation Memento implements a statistical model and a fast resampling procedure to estimate and compare the mean, variability, and correlation of gene expression, allowing for the study of transcription in a deeper yet accurate fashion compared with traditional differential expression. [ABSTRACT FROM AUTHOR]

Published

2024

36. GhGME31D identified to regulate AsA activation in response to alkali stress from GME gene family implications in cotton.

Author

Chen, Xiao, Fan, Yapeng, Nan, Hongyu, Rui, Cun, Zhang, Jing, Zhang, Menghao, Sun, Yuping, Wang, Lidong, Yang, Zhining, Song, Ruize, Wu, Fange, Wang, Shuai, Guo, Lixue, Chen, Xiugui, Lu, Xuke, Zhu, Xiaoping, Wang, Ning, Feng, Keyun, Zhang, Kunpeng, and Ye, Wuwei

Subjects

SPERMATOZOA, PLANT development, DEVIATORIC stress (Engineering), VITAMIN C, GENE families

Abstract

Vitamin C, also referred to as ascorbic acid (AsA), is recognized for its capacity to cure and avert scurvy, and it is crucial for regular human growth and development. In various crops, AsA participates in stress response mechanisms mediated by abscisic acid and has been discovered to have a crucial function in the morphogenesis, growth, development, and production of male gametes in plants. GDP-D-mannose 3′,5′-epimerase (GME) is essential in the synthesis of vitamin C. Our research identified 91, 83, 51, and 46 genes, respectively, found in G. barbadense (GbGMEs), G. hirsutum (GhGMEs), G. arboretum (GaGMEs), and G. raimondii (GrGMEs). Plants resulting from VIGS infection with GhGME31D clearly showed yellowing, water loss and wilting of leaves and black spots on stems. Measurement of MDA and AsA levels indicated that the plants were more damaged. This indicates that AsA has a substantial impact on plant growth and development. [ABSTRACT FROM AUTHOR]

Published

2024

37. Gene Expression and Pathway Activation Biomarkers of Breast Cancer Sensitivity to Taxanes.

Author

Luppov, Daniil, Sorokin, Maxim, Zolotovskaya, Marianna, Sekacheva, Marina, Suntsova, Maria, Zakharova, Galina, and Buzdin, Anton

Subjects

*SPINDLE apparatus, *GENE expression, *NEOADJUVANT chemotherapy, *TUMOR markers, *BREAST cancer

Abstract

Taxanes are one of the most widely used classes of breast cancer (BC) therapeutics. Despite the long history of clinical usage, the molecular mechanisms of their action and cancer resistance are still not fully understood. Here we aimed to identify gene expression and molecular pathway activation biomarkers of BC sensitivity to taxane drugs paclitaxel and docetaxel. We used to our knowledge the biggest collection of clinically annotated publicly available literature BC gene expression data (12 datasets, n = 1250) and the experimental clinical BC cohort (n = 12). Seven literature datasets were used for biomarker discovery (n = 914), and the remaining five literature plus one experimental datasets (n = 336) – for the validation. We totally found 34 genes and 29 molecular pathways which could strongly discriminate good and poor responders to taxane treatments. The biomarker genes and pathways were associated with molecular processes related to formation of mitotic spindle and centromeres, and with the spindle assembly mitotic checkpoint. Furthermore, we created gene expression and pathway activation signatures predicting BC response to taxanes. These signatures were tested on the validation BC cohort and demonstrated strong biomarker potential reflected by mean AUC values of 0.76 and 0.77, respectively, which outperforms previously reported analogs. Taken together, these findings can deepen our understanding of mechanism of action of taxanes and potentially improve personalization of treatment in BC. [ABSTRACT FROM AUTHOR]

Published

2024

38. Proteome Expression Signatures: Differences between Orbital and Subcutaneous Abdominal Adipose Tissues.

Author

Castel, Noam, Vitkin, Edward, Shabo, Sharon, Berl, Ariel, Wise, Julia, Duenyas, Amir, Cohen, Eliyahu Michael Aharon, Golberg, Alexander, and Shalom, Avshalom

Subjects

*ABDOMINAL adipose tissue, *PROTEIN expression, *BASAL lamina, *PROTEIN analysis, *CELL anatomy

Abstract

Differences between orbital and subcutaneous abdominal fat in the same patient have been noted but not formally investigated, previously. The objective of this research was to compare the differential expression of protein profiles in subcutaneous abdominal and orbital adipose tissues. In this cross-sectional, observational study, orbital fat tissue was sampled from 10 patients who underwent blepharoplasty and agreed to provide a small sample of subcutaneous abdominal fat. Shotgun mass spectrometry was performed on the extracted proteome. Data were analyzed using protein appearance patterns, differential expression and statistical enrichment. Protein analysis revealed significant differences in proteomics and differential expression between the orbital and subcutaneous abdominal adipose tissues, which presented five proteins that were uniquely expressed in the orbital fat and 18 in the subcutaneous abdominal fat. Gene Ontology analysis identified significantly different cellular processes and components related to the extracellular matrix or basement membrane components. This analysis shows the differences between orbital and subcutaneous abdominal fat found in proteomics differential expression, uniquely expressed proteins, and cellular processes. Further research is needed to correlate specific proteins and cellular processes to the mechanism of fat accumulation and obesity. [ABSTRACT FROM AUTHOR]

Published

2024

39. Visual Integration of Genome-Wide Association Studies and Differential Expression Results with the Hidecan R Package.

Author

Angelin-Bonnet, Olivia, Vignes, Matthieu, Biggs, Patrick J., Baldwin, Samantha, and Thomson, Susan

Abstract

Background/Objectives: We present hidecan, an R package for generating visualisations that summarise the results of one or more genome-wide association studies (GWAS) and differential expression analyses, as well as manually curated candidate genes, e.g., extracted from the literature. This tool is applicable to all ploidy levels; we notably provide functionalities to facilitate the visualisation of GWAS results obtained for autotetraploid organisms with the GWASpoly package. Results: We illustrate the capabilities of hidecan with examples from two autotetraploid potato datasets. Conclusions: The hidecan package is implemented in R and is publicly available on the CRAN repository and on GitHub. A description of the package, as well as a detailed tutorial, is made available alongside the package. It is also part of the VIEWpoly tool for the visualisation and exploration of results from polyploids computational tools. [ABSTRACT FROM AUTHOR]

Published

2024

40. Effects of α-Particle Radiation on DNA Methylation in Human Hepatocytes.

Author

Xue, Xiangming, Su, Lixia, Zhang, Teng, Zhan, Jingming, and Gu, Xiaona

Subjects

*GENE expression, *DNA methylation, *RADIATION damage, *HUMAN DNA, *METHYLATION

Abstract

Objective: This paper explores the role of DNA methylation in α-irradiation damage at the cellular level. Methods: Human normal hepatocytes L-02 were irradiated using a 241 Am α source at doses of 0, 1.0, and 2.0 Gy. The methylation levels of the six differentially methylated genes were examined by pyrophosphate sequencing, and the mRNA expression levels of the six differentially methylated genes were examined by real-time fluorescence quantitative PCR. Results: The rate of γH2AX foci positive cells was significantly higher than that of the control group after irradiation of cells in different dose groups for 1 h and 2 h respectively (P <.05). The proportion of S-phase cells was significantly increased in the 1.0 Gy and 2.0 Gy dose groups compared with the control group (P <.05). The methylation levels of CDK2AP1, PDGFRL, PCDHB16 and FAS genes were significantly increased, while the mRNA expression levels were significantly decreased (P <.05). The expression levels of CDK2Apl, PCDHB16 and FAS were significantly negatively correlated with the methylation levels (P <.05). Conclusion: The α-particle radiation can affect gene expression at the epigenetic level, which led to the speculation that altered methylation levels of CDK2AP1, PCDHB16, and FAS genes may be involved in the α radiation damage process. [ABSTRACT FROM AUTHOR]

Published

2024

41. Expression of CSTF2 in oral squamous cell carcinoma and its relationship with immune infiltration and poor prognosis

Author

Zumulaiti Aierken, Muertiza Muhetaer, Zhang Lei, and Ainiwaerjiang Abudourousuli

Subjects

oral squamous cell carcinoma, CSTF2, prognosis, immune infiltration, differential expression, biomarker, Dentistry, RK1-715

Abstract

BackgroundOral squamous cell carcinoma (OSCC) is a prevalent and devastating malignancy of the oral cavity that profoundly affects patient survival and quality of life (QOL). Cleavage Stimulation Factor Subunit 2 (CSTF2) is known to influence tumor development across multiple cancer types. However, its specific association with patient prognosis and immune cell infiltration in OSCC remains insufficiently understood.MethodsTo assess the expression levels and prognostic implications of CSTF2 in OSCC, comprehensive data were acquired from The Cancer Genome Atlas (TCGA) and subsequently normalized. Immunohistochemical staining of tissue microarrays was performed to analyze CSTF2 expression in the OSCC samples. Differences in CSTF2 expression between OSCC and adjacent non-cancerous samples were evaluated using the Wilcoxon rank-sum test. Functional enrichment analyses have been performed to identify biological pathways and functions associated with CSTF2. The relationship between the infiltration of various immune cells and CSTF2 expression levels was assessed using single-sample gene set enrichment analysis (ssGSEA). Ultimately, the prognostic significance of CSTF2 was evaluated through Kaplan–Meier survival analysis, in conjunction with univariate and multivariate Cox regression analyses, as well as receiver operating characteristic (ROC) curves.ResultsHigh CSTF2 expression was observed in OSCC and associated with unfavorable clinicopathological variables, including histological grade and lymphnode neck dissection. Functional enrichment analysis indicated that CSTF2 plays a role in epidermal development and differentiation, immunoglobulin complexes, peptidases and endopeptidase inhibitor activity, and cytochrome P450 metabolic processes. Additionally, the overexpression of CSTF2 exhibited a negative correlation with the infiltration of immature dendritic cells (iDCs), cytotoxic cells, and plasmacytoid dendritic cells (pDCs). Notably, elevated CSTF2 expression is significantly associated with reduced patient outcomes.ConclusionElevated CSTF2 expression in OSCC is associated with poor prognostic outcomes, highlighting its capacity to function as an innovative prognostic biomarker and a target for therapeutic interventions.

Published

2025

42. QUIC‐seq: Quick ultra‐affordable high‐throughput convenient RNA sequencing.

Author

Teng, Shouzhen, Wang, Dan, Qian, Yiheng, Bahitwa, Revocatus, Shao, Jinghong, Suo, Mingrui, Xu, Mingchi, Yang, Luyuan, Li, Tianyi, Yu, Qiuying, and Wang, Hai

Subjects

*ENZYME inactivation, *GENE expression, *TRANSCRIPTION factors, *GENE regulatory networks, *REGULATOR genes

Published

2025

43. Characterizing m6A modification factors and their interactions in colorectal cancer: implications for tumor subtypes and clinical outcomes

Author

Weidong Sun, Yingchao Su, and Zhiqiang Zhang

Subjects

Colorectal cancer (CRC), M6A modification, Mutation frequency, CNV variation frequency, Differential expression, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The study aims to comprehensively combine colorectal cancer data cohorts in order to analyze the effects of various DNA methylation-coding genes on colorectal cancer patients. The annual incidence and mortality of colorectal cancer are very high, and there are no effective treatments for advanced colorectal cancer. DNA methylation is a method widely used to regulate epigenetics in the molecular mechanism study of tumors. Method Three single-cell cohorts GSE166555, GSE146771, and EMTAB8107, and five transcriptome cohorts GSE17536, GSE39582, GSE72970, and TCGA-CRC (TCGA-COAD and TCGA-READ) were applied in this study. 2 erasers (ALKBH5 and FTO), There are 7 writers (METTL3, METTL14, WTAP, VIRMA, RBM15, RBM15B, and ZC3H13) and 11 readers (YTHDC1, IGF2BP1, IGF2BP2, IGF2BP3, YTHDF1, YTHDF3, YTHDC2, and HNRNPA2B1, YTHDF2, HNRNPC and RBMX), a total of 20 M6A regulators, were used as the basis of the dataset in this study and were applied to the construction of molecular typing and prognostic models. Drugs that are differentially sensitive in methylation-regulated gene-related prognostic models were identified using the ConsensusClusterPlus package, which was also used to identify distinct methylation regulatory expression patterns in colorectal cancer and to model the relationship between tissue gene expression profiles and drug IC50 values. Finally, TISCH2 assessed which immune cells were significantly expressed with M6A scores. The immunosuppression of M6A methylation is spatially explained. Results This study used data from 583 CRC patients in the TCGA-CRC cohort. Firstly, the mutation frequency and CNV variation frequency of 20 m6A modification-related factors were analyzed, and the corresponding histogram and heat map were drawn. The study next analyzed the expression variations between mutant and wild forms of the VIRMA gene and explored differences in the expression of these variables in tumor and normal tissues. In addition, the samples were divided into different subgroups by molecular clustering method based on m6A modification, and each subgroup’s expression and clinicopathological characteristics were analyzed. Finally, we compared prognostic differences, tumor microenvironment (TME) characteristics, immune cell infiltration, and gene function enrichment among different subpopulations. We also developed a colorectal cancer m6A-associated gene signature and validated its prognostic effects across multiple cohorts. Finally, using single-cell RNA sequencing data, we confirmed that tumor cells show elevated expression of m6A-related gene signatures. Discussion This study explored the mutation frequency, expression differences, interactions, molecular clustering, prognostic effect, and association with tumor characteristics of m6A modification-related factors in CRC and validated them at the single-cell level. These results clarify the association between m6A alteration and colorectal cancer (CRC) and offer important insights into the molecular recognition and management of cancer.

Published

2024

44. Cloning and expression analysis of the FaWRKY70 gene in strawberry

Author

SHAO Yanli, LU Bei, JIA Sizhen, TANG Weihua, and LIAO Yunfei

Subjects

strawberry, fawrky70, gene cloning, differential expression, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract [Objective] WRKY is one of the plant specific transcription factor families, involved in various plant life activities. However, currently there are few reports related to the WRKY70 gene in strawberry. Analyzing the role of WRKY70 homologous genes in strawberry in response to stress will help accelerate the application of molecular breeding technology and cultivate new strawberry germplasm resources. [Methods] The FaWRKY70 gene was cloned from ‘Benihoppe’ strawberry fruits using homologous cloning method. Its conserved domain, physicochemical properties, protein structure, and evolutionary relationship were analyzed using bioinformatics. Expression pattern analysis was performed using qRT-PCR. [Results] The FaWRKY70 gene had a length of 1 020 bp and encodes 339 amino acids. Homologous gene alignment revealed that FaWRKY70 had a high degree of amino acid sequence similarity with species in the same family such as apple and peony. The homologous genes were mostly related to plant responses to biotic and abiotic stress, suggesting that FaWRKY70 may be involved in resistance to stress. FaWRKY70 was expressed in different organs of strawberry, with significant differences. The expression level was highest in flowers and lowest in fruits. Under salicylic acid treatment, the FaWRKY70 gene was quickly responded, reaching its highest expression level after 3 hours, and gradually decreased thereafter. Under the treatment with methyl jasmonate, the FaWRKY70 gene showed a slight degree of induction and an overall downward trend. [Conclusion] FaWRKY70 is involved in growth and hormone signal transduction through different response modes in strawberry.

Published

2024

45. Characterizing m6A modification factors and their interactions in colorectal cancer: implications for tumor subtypes and clinical outcomes.

Author

Sun, Weidong, Su, Yingchao, and Zhang, Zhiqiang

Subjects

GENE expression, MOLECULAR recognition, COLORECTAL cancer, GENE expression profiling, MOLECULAR clusters

Abstract

Background: The study aims to comprehensively combine colorectal cancer data cohorts in order to analyze the effects of various DNA methylation-coding genes on colorectal cancer patients. The annual incidence and mortality of colorectal cancer are very high, and there are no effective treatments for advanced colorectal cancer. DNA methylation is a method widely used to regulate epigenetics in the molecular mechanism study of tumors. Method: Three single-cell cohorts GSE166555, GSE146771, and EMTAB8107, and five transcriptome cohorts GSE17536, GSE39582, GSE72970, and TCGA-CRC (TCGA-COAD and TCGA-READ) were applied in this study. 2 erasers (ALKBH5 and FTO), There are 7 writers (METTL3, METTL14, WTAP, VIRMA, RBM15, RBM15B, and ZC3H13) and 11 readers (YTHDC1, IGF2BP1, IGF2BP2, IGF2BP3, YTHDF1, YTHDF3, YTHDC2, and HNRNPA2B1, YTHDF2, HNRNPC and RBMX), a total of 20 M6A regulators, were used as the basis of the dataset in this study and were applied to the construction of molecular typing and prognostic models. Drugs that are differentially sensitive in methylation-regulated gene-related prognostic models were identified using the ConsensusClusterPlus package, which was also used to identify distinct methylation regulatory expression patterns in colorectal cancer and to model the relationship between tissue gene expression profiles and drug IC50 values. Finally, TISCH2 assessed which immune cells were significantly expressed with M6A scores. The immunosuppression of M6A methylation is spatially explained. Results: This study used data from 583 CRC patients in the TCGA-CRC cohort. Firstly, the mutation frequency and CNV variation frequency of 20 m6A modification-related factors were analyzed, and the corresponding histogram and heat map were drawn. The study next analyzed the expression variations between mutant and wild forms of the VIRMA gene and explored differences in the expression of these variables in tumor and normal tissues. In addition, the samples were divided into different subgroups by molecular clustering method based on m6A modification, and each subgroup's expression and clinicopathological characteristics were analyzed. Finally, we compared prognostic differences, tumor microenvironment (TME) characteristics, immune cell infiltration, and gene function enrichment among different subpopulations. We also developed a colorectal cancer m6A-associated gene signature and validated its prognostic effects across multiple cohorts. Finally, using single-cell RNA sequencing data, we confirmed that tumor cells show elevated expression of m6A-related gene signatures. Discussion: This study explored the mutation frequency, expression differences, interactions, molecular clustering, prognostic effect, and association with tumor characteristics of m6A modification-related factors in CRC and validated them at the single-cell level. These results clarify the association between m6A alteration and colorectal cancer (CRC) and offer important insights into the molecular recognition and management of cancer. [ABSTRACT FROM AUTHOR]

Published

2024

46. Integrated miRNA and mRNA Transcriptome Analysis Reveals Regulatory Mechanisms in the Response of Winter Brassica rapa to Drought Stress.

Author

Ma, Li, Xu, Yanxia, Tao, Xiaolei, Fahim, Abbas Muhammad, Zhang, Xianliang, Han, Chunyang, Yang, Gang, Wang, Wangtian, Pu, Yuanyuan, Liu, Lijun, Fan, Tingting, Wu, Junyan, and Sun, Wancang

Subjects

*GENE expression, *CHINESE cabbage, *STARCH metabolism, *CARBON metabolism, *AGRICULTURAL productivity

Abstract

Drought is a major abiotic stress factor that reduces agricultural productivity. Understanding the molecular regulatory network of drought response in winter rape is of great significance for molecular Brassica rapa. In order to comprehensively analyze the network expression of DEGs and DEMIs in winter rape under drought stress, in this study we used Longyou 7 as the experimental material to identify DEGs and DEMIs related to drought stress by transcriptome and miRNA sequencing. A total of 14–15 key differential mRNA genes related to drought stress and biological stress were screened out under different treatments in the three groups. and 32 differential miRNAs were identified through targeted regulatory relationships, and the mRNA expression of 20 target genes was negatively regulated by the targeting regulatory relationship. It is mainly enriched in starch and sucrose metabolism, carbon metabolism and other pathways. Among them, gra-MIR8731-p3_2ss13GA18GA regulated the expression of multiple mRNAs in the three treatments. miRNA is mainly involved in the drought resistance of Chinese cabbage winter rape by regulating the expression of target genes, such as starch and sucrose metabolism, amino acid biosynthesis, and carbon metabolism. These miRNAs and their target genes play an indispensable role in winter rapeseed drought stress tolerance regulation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Tissue-specific RNA-seq defines genes governing male tail tip morphogenesis in C. elegans.

Author

Kiontke, Karin C., Herrera, R. Antonio, Mason, D. Adam, Woronik, Alyssa, Vernooy, Stephanie, Patel, Yash, and Fitch, David H. A.

Subjects

*UNFOLDED protein response, *GENE regulatory networks, *TRANSCRIPTION factors, *REPORTER genes, *GENE expression

Abstract

Caenorhabditis elegans males undergo sex-specific tail tip morphogenesis (TTM) under the control of the DM-domain transcription factor DMD-3. To find genes regulated by DMD-3, we performed RNA-seq of laser-dissected tail tips. We identified 564 genes differentially expressed (DE) in wild-type males versus dmd-3(-) males and hermaphrodites. The transcription profile of dmd-3(-) tail tips is similar to that in hermaphrodites. For validation, we analyzed transcriptional reporters for 49 genes and found male-specific or malebiased expression for 26 genes. Only 11 DE genes overlapped with genes found in a previous RNAi screen for defective TTM. GO enrichment analysis of DE genes finds upregulation of genes within the unfolded protein response pathway and downregulation of genes involved in cuticle maintenance. Of the DE genes, 40 are transcription factors, indicating that the gene network downstream of DMD-3 is complex and potentially modular. We propose modules of genes that act together in TTM and are co-regulated by DMD-3, among them the chondroitin synthesis pathway and the hypertonic stress response. [ABSTRACT FROM AUTHOR]

Published

2024

48. Comparative Tissue Identification and Characterization of Long Non-Coding RNAs in the Globally Distributed Blue Shark Prionace glauca.

Author

Bravo, Scarleth, Zarate, Patricia, Cari, Ilia, Clavijo, Ljubitza, Lopez, Ignacio, Phillips, Nicole M., and Vidal, Rodrigo

Subjects

*LINCRNA, *NUCLEOTIDE sequencing, *GENE ontology, *NON-coding RNA, *SPLEEN

Abstract

Long non-coding RNAs (lncRNAs) are involved in numerous biological processes and serve crucial regulatory functions in both animals and plants. Nevertheless, there is limited understanding of lncRNAs and their patterns of expression and roles in sharks. In the current study, we systematically identified and characterized lncRNAs in the blue shark (Prionace glauca) from four tissues (liver, spleen, muscle, and kidney) using high-throughput sequencing and bioinformatics tools. A total of 21,932 high-confidence lncRNAs were identified, with 8984 and 3067 stably and tissue-specific expressed lncRNAs, respectively. In addition, a total of 45,007 differentially expressed (DE) lncRNAs were obtained among tissues, with kidney versus muscle having the largest numbers across tissues. DE lncRNAs trans target protein-coding genes were predicted, and functional gene ontology enrichment of these genes showed GO terms such as muscle system processes, cellular/metabolic processes, and stress and immune responses, all of which correspond with the specific biological functions of each tissue analyzed. These results advance our knowledge of lncRNAs in sharks and present novel data on tissue-specific lncRNAs, providing key information to support future functional shark investigations. [ABSTRACT FROM AUTHOR]

Published

2024

49. 系统性红斑狼疮患者 PBMCs 差异表达 基因 m6A 修饰的生物信息学分析.

Author

王晶, 董辉, 党洁, 霍正浩, and 马占兵

Subjects

*GENE expression, *TYPE I interferons, *SYSTEMIC lupus erythematosus, *DNA replication, *B cells

Abstract

To analyze the N6-methyladenosine (m6A) modification profile in systemic lupus erythematosus (SLE) using bioinformatics methods and public databases. We establish an SLE m6A modification expression profile and analyze the potential roles of m6A-related differentially expressed genes (DEGs) in SLE using public data. DEGs are obtained from the ADEx database, and the m6A modification profile in SLE is analyzed using the m6A GEO dataset (GSE173312). Additionally, we perform GO/Pathway annotation analysis of m6A DEGs using DAVID. In SLE patients, the expression of the m6A writer components RBM15B and the eraser enzyme FTO are downregulated, while the expression of the reader IGFBP3 is upregulated. The SLE m6A modification profile include 181 genes, with 123 genes upregulated and 58 genes downregulated in expression. These genes are primarily involved in biological processes such as cell apoptosis and cell cycle pathways, type I interferon signaling pathway, DNA replication, and B cell MHC II molecule regulation. Abnormalities in PBMCs cell m6A modification are observed in SLE patients and may potentially contribute to the development and occurrence of the disease [ABSTRACT FROM AUTHOR]

Published

2024

50. Analysis of microRNAs and the microRNA-messengerRNA regulatory network in chronic alcohol exposure.

Author

Ailin Du, Yingying Chen, Siyu Qiao, Jiaxing Dong, Yulin Li, Bokai Cao, Rongyu Zhao, and Ruiling Zhang

Subjects

GENE expression, FOS oncogenes, BRAIN injuries, LEARNING ability, NEUROLOGICAL disorders

Abstract

Introduction: Chronic alcoholism is one of the most common neurological diseases in modern society. However, the key mechanisms underlying learning and memory impairments caused by chronic alcohol exposure remain unclear. In this study, a microRNA-messenger RNA (miRNA-mRNA) network was constructed to explore the potential function of key genes in chronic alcohol exposure, their effects on the hippocampus, and their mechanisms which facilitate brain injury in mice. Methods: The Morris water maze test was used to assess the learning ability of mice in each group. Mitochondrial ATPase activity and H2S levels in the hippocampi of mice were determined. Differentially expressed miRNAs and mRNAs in the mouse hippocampus were identified using second-generation sequencing. Using the TargetScan, miRTarBase, and miRDB databases, we predicted miRNA target genes and constructed a miRNA-mRNA regulatory network. Furthermore, using the Gene Ontology and KEGG databases we performed functional enrichment and protein-protein interaction analyses. Real-time quantitative polymerase chain reaction (qPCR) and other methods were employed to verify the mRNA expression of related genes. Results: The Morris water maze test revealed that mice exposed to chronic alcohol exhibited a significantly reduced learning ability compared to the control group (p < 0.05). Compared with the control group, the activity of mitochondrial ATPase in the hippocampal tissue of alcohol-treated mice was significantly decreased (p < 0.01), suggesting brain injury. In the model group, H2S significantly increased in the mice hippocampi (p < 0.01), indicating that chronic alcohol exposure could activate cystathionine β-synthase (CBS) and catalyze the mass formation of H2S, suggesting brain injury. A total of 208 differentially expressed miRNAs and 377 differentially expressed mRNAs were screened through bioinformatic analysis. Enrichment analysis indicated that the main pathways were involved in neurodegeneration and regulation of the Wnt signaling pathway. The PCR detected a significant down regulation in the expressions of FOS and EGR1 genes. Discussion: Consequently, chronic alcohol exposure may regulate the expression of FOS and EGR1 in the hippocampus through miR-222-3p, miR- 132-3p, miR-212-3p, and miR-191-5p, reduce the activity of hippocampal mitochondrial ATPase, activate CBS, catalyze the large amount of H2S formation, and destroy the mitochondrial structure, resulting in decreased learning ability. Our findings revealed valuable genes and miRNAs for the study of chronic alcohol exposure. [ABSTRACT FROM AUTHOR]

Published

2024