Identifying Neighborhoods of Coordinated Gene Expression and Metabolite Profiles

BACKGROUND: The softness of blackberry fruits limits their postharvest shelf-life and commercial use, and abscisic acid (ABA) is considered one of the key hormones involved in fruit ripening. OBJECTIVE: This study aimed to explore the underlying physiological and molecular actions of ABA on blackberry fruit ripening and softening. METHODS: Various physiological indices of and plant hormone levels in treated and untreated blackberry fruits were determined simultaneously. The differentially expressed genes (DEGs) were analyzed by RNA-sequencing, and their expression profiles were detected. The ripening mechanism was elucidated by UHPLC-MS using two groups of fruits at 28 d. RESULTS: After 25 d, the ABA concentration and polygalacturonase (PG) and beta-1,4-endoglucanase (EG) activities in ABA-treated fruits were significantly higher than those in untreated fruits. Large differences in the expression profiles were detected at 28 d. The expression of DEGs related to cell wall softening and ABA synthesis was largely triggered after 25 or 28 d. Sixty-nine differentially accumulated metabolites were ultimately annotated as related to fruit ripening. CONCLUSIONS: ABA stimulates blackberry fruit ripening by promoting cell wall enzyme activities, the expression of various ripening-related genes and metabolite accumulation.

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Serum Metabolite Profiles and Target Tissue Gene Expression Define the Effect of Cholecalciferol Intake on Calcium Metabolism in Rats and Mice

Journal of Nutrition ◽

10.1093/jn/138.6.1114 ◽

2008 ◽

Vol 138 (6) ◽

pp. 1114-1120 ◽

Cited By ~ 64

Author(s):

James C. Fleet ◽

Christy Gliniak ◽

Zhentao Zhang ◽

Yingben Xue ◽

Kathleen B. Smith ◽

...

Keyword(s):

Gene Expression ◽

Calcium Metabolism ◽

Target Tissue ◽

Metabolite Profiles ◽

Rats And Mice ◽

Tissue Gene Expression

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Effects of early intervention with sodium butyrate on lipid metabolism-related gene expression and liver metabolite profiles in neonatal piglets

Livestock Science ◽

10.1016/j.livsci.2016.11.013 ◽

2017 ◽

Vol 195 ◽

pp. 80-86 ◽

Cited By ~ 10

Author(s):

S. Yu ◽

E. Ren ◽

J. Xu ◽

Y. Su ◽

W. Zhu

Keyword(s):

Gene Expression ◽

Lipid Metabolism ◽

Early Intervention ◽

Sodium Butyrate ◽

Related Gene ◽

Neonatal Piglets ◽

Metabolite Profiles

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Peer Review #3 of "Distinct gene expression and secondary metabolite profiles in suppressor of prosystemin-mediated responses2 (spr2) tomato mutants having impaired mycorrhizal colonization (v0.2)"

10.7287/peerj.8888v0.2/reviews/3 ◽

2020 ◽

Keyword(s):

Gene Expression ◽

Peer Review ◽

Secondary Metabolite ◽

Mycorrhizal Colonization ◽

Distinct Gene ◽

Metabolite Profiles

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Changes in Gene Expression and Metabolite Profiles in Platanus acerifolia Leaves in Response to Feeding Damage Caused by Corythucha ciliata

International Journal of Molecular Sciences ◽

10.3390/ijms20143465 ◽

2019 ◽

Vol 20 (14) ◽

pp. 3465

Author(s):

Fengqi Li ◽

Chunyan Wu ◽

Youssef Dewer ◽

Du Li ◽

Cheng Qu ◽

...

Keyword(s):

Gene Expression ◽

Acid Metabolism ◽

Insect Pest ◽

Invasive Pest ◽

Terpene Synthase ◽

Pathway Enrichment Analysis ◽

Feeding Damage ◽

Alpha Linolenic Acid ◽

Platanus Acerifolia ◽

Metabolite Profiles

The sycamore lace bug, Corythucha ciliata (Say) is a highly invasive pest insect that feeds on sycamore trees (Platanus spp.) worldwide. The interaction between Platanus species and this insect pest has not yet been studied at the molecular level. Therefore, a recent study was conducted to compare the gene expression and metabolite profiles of Platanus acerifolia leaves in response to C. ciliata feeding damage after 24 and 48 h. We employed high throughput RNA sequencing (RNA- seq) to identify a total of 2,828 significantly differentially expressed genes (DEGs) after C. ciliata feeding. In addition, 303 unigenes were found to be up-regulated at both time points. Moreover, Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis showed that monoterpenoid biosynthesis, the linoleic acid metabolism pathway, and alpha- linolenic acid metabolism were the most prominent pathways among the DEGs. Further analysis of the metabolite profiles showed that nine metabolites were significantly different before and after C. ciliata damage. In addition, we analyzed DEGs detected in the P. acerifolia and C. ciliata interaction using Mapman. The terpene synthase gene family was also identified. We suggest that the results obtained from DEGs and metabolite analysis can provide important information for the identification of genes involved in the P. acerifolia–C. ciliata interaction, which might be necessary for controlling C. ciliata efficiently.

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Bifidobacterium breve UCC2003 Exopolysaccharide Modulates the Early Life Microbiota by Acting as a Potential Dietary Substrate

Nutrients ◽

10.3390/nu12040948 ◽

2020 ◽

Vol 12 (4) ◽

pp. 948 ◽

Cited By ~ 1

Author(s):

Deborah Püngel ◽

Agatha Treveil ◽

Matthew J Dalby ◽

Shabhonam Caim ◽

Ian J Colquhoun ◽

...

Keyword(s):

Gene Expression ◽

Differential Gene Expression ◽

Early Life ◽

Infant Health ◽

Growth Dynamics ◽

Short Chain Fatty Acids ◽

Host Responses ◽

Bifidobacterium Breve ◽

Metabolite Profiles ◽

Differential Gene

Background: Bifidobacterium represents an important early life microbiota member. Specific bifidobacterial components, exopolysaccharides (EPS), positively modulate host responses, with purified EPS also suggested to impact microbe–microbe interactions by acting as a nutrient substrate. Thus, we determined the longitudinal effects of bifidobacterial EPS on microbial communities and metabolite profiles using an infant model colon system. Methods: Differential gene expression and growth characteristics were determined for each strain; Bifidobacterium breve UCC2003 and corresponding isogenic EPS-deletion mutant (B. breve UCC2003del). Model colon vessels were inoculated with B. breve and microbiome dynamics monitored using 16S rRNA sequencing and metabolomics (NMR). Results: Transcriptomics of EPS mutant vs. B. breve UCC2003 highlighted discrete differential gene expression (e.g., eps biosynthetic cluster), though overall growth dynamics between strains were unaffected. The EPS-positive vessel had significant shifts in microbiome and metabolite profiles until study end (405 h); with increases of Tyzzerella and Faecalibacterium, and short-chain fatty acids, with further correlations between taxa and metabolites which were not observed within the EPS-negative vessel. Conclusions: These data indicate that B. breve UCC2003 EPS is potentially metabolized by infant microbiota members, leading to differential microbial metabolism and altered metabolite by-products. Overall, these findings may allow development of EPS-specific strategies to promote infant health.

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