Your search keyword '"fatty acid desaturase"' showing total 2,894 results

201. Improved osmotic stress tolerance in brewer's yeast induced by wheat gluten peptides.

Author

Jin, Xiaofan, Yang, Huirong, Chen, Moutong, Coldea, Teodora Emilia, and Zhao, Haifeng

Subjects

*FATTY acid desaturase, *UNSATURATED fatty acids, *GLUTELINS, *YEAST, *PEPTIDES, *GLUTEN, *CELL morphology, *MEMBRANE lipids

Abstract

The influences of three wheat gluten peptides (WGP-LL, WGP-LML, and WGP-LLL) on the osmotic stress tolerance and membrane lipid component in brewer's yeast were investigated. The results demonstrated that the growth and survival of yeast under osmotic stress were enhanced by WGP supplementation. The addition of WGP upregulated the expressions of OLE1 (encoded the delta-9 fatty acid desaturase) and ERG1 (encoded squalene epoxidase) genes under osmotic stress. At the same time, WGP addition enhanced palmitoleic acid (C16:1) content, unsaturated fatty acids/saturated fatty acids ratio, and the amount of ergosterol in yeast cells under osmotic stress. Furthermore, yeast cells in WGP-LL and WGP-LLL groups were more resistant to osmotic stress. WGP-LL and WGP-LLL addition caused 25.08% and 27.02% increase in membrane fluidity, 22.36% and 29.54% reduction in membrane permeability, 18.38% and 14.26% rise in membrane integrity in yeast cells, respectively. In addition, scanning electron microscopy analysis revealed that the addition of WGP was capable of maintaining yeast cell morphology and reducing cell membrane damage under osmotic stress. Thus, alteration of membrane lipid component by WGP was an effective approach for increasing the growth and survival of yeast cells under osmotic stress. Key points: •WGP addition enhanced cell growth and survival of yeast under osmotic stress. •WGP addition increased unsaturated fatty acids and ergosterol contents in yeast. •WGP supplementation improved membrane homeostasis in yeast at osmotic stress. [ABSTRACT FROM AUTHOR]

Published

2022

202. Physiological, Transcriptomic and Metabolomic Analyses of Overwintering Cryptomeria fortunei Needles.

Author

Zhang, Yingting, Hu, Hailiang, Yang, Junjie, Xue, Jinyu, and Xu, Jin

Subjects

GIBBERELLINS, FATTY acid desaturase, DORMANCY in plants, METABOLOMICS, TRANSCRIPTOMES, STARCH metabolism, SPRING

Abstract

Low temperatures affect plant growth, development, and geographical distribution. Cryptomeriafortunei (Chinese cedar) is a major industrial tree species used for timber manufacturing in southern China. However, its popularization and application in northern China are limited due to its poor low-temperature resistance (approximately −6 °C), and its overwintering mechanism remains unclear. Here, we performed physiological, metabolomic, and transcriptomic analyses of overwintering C.fortunei needles at three stages: before winter, during winter, and in early spring. Physiological analyses showed that electrolyte leakage, H2O2, malondialdehyde (MDA), soluble sugar, and protein contents increased, while the maximum quantum yield of photosystem II (PSII) (Fv/Fm), effective quantum yield of PSII (YII), and chlorophyll content decreased as overwintering progressed. Metabolomic and transcriptomic analyses revealed that downregulated gibberellin (GA), salicylic acid (SA), cytokinin (CTK), and auxin signal transduction and upregulated abscisic acid (ABA), ethylene, brassinosteroids (BR), and jasmonic acid (JA) signal transduction pathways promoted the winter acclimation of C.fortunei, while the opposite expression pattern promoted the transition from dormancy to growth. In addition, upregulated genes/metabolites involved in phenylpropanoid and flavonoid biosynthesis, starch and sucrose metabolism, cold-related protein and fatty acid desaturases, and downregulated photosynthesis-related pathways promoted winter acclimation, while five (WRKY, AP2/ERF, NAC, MYB, and bHLH) and three (AP2/ERF, MYB, and bHLH) transcription factors were associated with winter acclimation and early spring transition from dormancy to growth, respectively. In summary, we report the first transcriptome of overwintering C.fortunei, providing a foundation for the cultivation of and research on overwintering varieties. [ABSTRACT FROM AUTHOR]

Published

2022

203. Roles of Palmitoleic Acid and Its Positional Isomers, Hypogeic and Sapienic Acids, in Inflammation, Metabolic Diseases and Cancer.

Author

Bermúdez, Miguel A., Pereira, Laura, Fraile, Cristina, Valerio, Laura, Balboa, María A., and Balsinde, Jesús

Subjects

*STRUCTURAL isomers, *FATTY acid desaturase, *METABOLIC disorders, *NON-alcoholic fatty liver disease, *MONOUNSATURATED fatty acids, *ENDOPLASMIC reticulum, *ISOMERS, *GLUCOSE clamp technique

Abstract

In the last few years, the monounsaturated hexadecenoic fatty acids are being increasingly considered as biomarkers of health with key functions in physiology and pathophysiology. Palmitoleic acid (16:1n-7) and sapienic acid (16:1n-10) are synthesized from palmitic acid by the action of stearoyl-CoA desaturase-1 and fatty acid desaturase 2, respectively. A third positional isomer, hypogeic acid (16:1n-9) is produced from the partial β-oxidation of oleic acid. In this review, we discuss the current knowledge of the effects of palmitoleic acid and, where available, sapienic acid and hypogeic acid, on metabolic diseases such as diabetes, cardiovascular disease, and nonalcoholic fatty liver disease, and cancer. The results have shown diverse effects among studies in cell lines, animal models and humans. Palmitoleic acid was described as a lipokine able to regulate different metabolic processes such as an increase in insulin sensitivity in muscle, β cell proliferation, prevention of endoplasmic reticulum stress and lipogenic activity in white adipocytes. Numerous beneficial effects have been attributed to palmitoleic acid, both in mouse models and in cell lines. However, its role in humans is not fully understood, and is sometimes controversial. Regarding sapienic acid and hypogeic acid, studies on their biological effects are still scarce, but accumulating evidence suggests that they also play important roles in metabolic regulation. The multiplicity of effects reported for palmitoleic acid and the compartmentalized manner in which they often occur, may suggest the overlapping actions of multiple isomers being present at the same or neighboring locations. [ABSTRACT FROM AUTHOR]

Published

2022

204. Fit and fatty freshwater fish: contrasting polyunsaturated fatty acid phenotypes between hybridizing stickleback lineages.

Author

Hudson, Cameron M., Ladd, S. Nemiah, Leal, Miguel C., Schubert, Carsten J., Seehausen, Ole, and Matthews, Blake

Subjects

*UNSATURATED fatty acids, *OMEGA-6 fatty acids, *FATTY acid desaturase, *FRESHWATER fishes, *STICKLEBACKS, *COLONIZATION (Ecology)

Abstract

Long‐chain polyunsaturated fatty acids are biologically important lipids that are unevenly distributed between and throughout environments. This heterogeneity can affect the evolution of metabolic processes, as populations adapt to the resource landscape that they encounter. Here, we compare fatty acid phenotypes of stickleback over two time scales of evolutionary divergence: between two lineages with different metabolic capacities for fatty acid synthesis (i.e. different copy number of the fatty acid desaturase gene; FADS2) that independently colonized European freshwaters during the Pleistocene and Holocene; and between two ecotypes within each lineage that have diverged more recently (~150 years) in different habitats (i.e. lake and stream). We measured fatty acid profiles of wild‐caught and lab‐reared fish for each lineage and ecotype combination after rearing lab fish on a diet deficient in omega‐3 long‐chain polyunsaturated fatty acids. Since these lineages hybridize in nature, we also measured profiles of lab‐reared hybrids and backcrosses raised on the same deficient diet. Wild fish showed strong compositional differences in fatty acids between habitats, lineages and sexes. Common garden fish had generally lower polyunsaturated fatty acid levels than wild fish, and females had lower omega‐6:omega‐3 than males. Fish from the lineage with fewer FADS2 copies also had lower levels of docosahexaenoic acid. Overall, we document divergence in fatty acid phenotypes between stickleback lineages with different histories of freshwater colonization, and between ecotypes in the early stages of adaptive population divergence. [ABSTRACT FROM AUTHOR]

Published

2022

205. Reversible cerebral vasoconstriction syndrome after intravenous iron substitution: a case report.

Author

Müller, Katharina Johanna, Schöberl, Florian, Fischer, Thomas David, Schmidbauer, Moritz Luigi, Thunstedt, Dennis Cem, Eisenhut, Katharina, Palleis, Carla, Straube, Andreas, and Klein, Matthias

Subjects

*CEREBRAL vasospasm, *VASOCONSTRICTION, *POSTERIOR leukoencephalopathy syndrome, *IRON, *SYNDROMES, *FATTY acid desaturase

Abstract

The diagnosis of RCVS was established by the combination of the following findings: (i) thunderclap headache, (ii) vasoconstriction on cerebrovascular imaging, and (iii) rule out of subarachnoid haemorrhage by CT and lumbar puncture. Dear Sirs, Reversible cerebral vasoconstriction syndrome (RCVS) is an important differential diagnosis in patients with acute onset thunderclap headache [[1]]. Since the symptoms (acute severe headache) as well as the clinical and radiographic constellation were neither suggestive of intracranial hypertension nor typical MRI abnormalities reported in patients with intracranial hypertension, we saw no indication for further diagnostics and particularly treatment. To our knowledge, this is the first case describing thunderclap headache and RCVS after intravenous iron substitution in a patient with chronic iron deficiency anemia. [Extracted from the article]

Published

2022

206. Recent Advances in Fish Nutrition: Insights on the Nutritional Implications of Modern Formulations.

Author

Rombenso, Artur, Araujo, Bruno, and Li, Erchao

Subjects

*FISH growth, *DIGESTIVE enzymes, *FISH oils, *NUTRITION, *OMEGA-3 fatty acids, *FISH farming, *FATTY acid desaturase, *PHYSIOLOGY

Abstract

The most physiologically relevant n-3 LC-PUFA for fish is docosahexaenoic acid (DHA, 22:6n-3), which plays several essential functions, such as the development of visual and nervous tissue and immunological system modulation, in addition to being highly relevant to human nutrition. Fish nutrition has driven advances in the efficiency, sustainability, and product quality of aquaculture production, facilitating its expansion of aquaculture production [[1]]. The results showed that different temperatures and FO replacement by algal oil did not impair lipid and fatty acid (mainly DHA) digestibility. The authors suggest that n-3 LC-PUFA synthesis was especially modulated by the upregulation of lipid-relevant genes such as elongase 5 ( I elovl5 i ) and fatty acid 6 desaturase. [Extracted from the article]

Published

2022

207. Evolutionary adaptation highlights the interconnection of fatty acids, sunlight, inflammation and epithelial adhesion.

Author

Hlusko, Leslea J. and McNelis, Madeline G.

Subjects

*FATTY acid desaturase, *FATTY acids, *HUMAN biology, *BIOLOGICAL fitness, *ULTRAVIOLET radiation

Abstract

Gene variants that influence human biology today reflect thousands of years of evolution. Genetic effects on infant health are a major point of selective pressure, given that childhood survival is essential to evolutionary success. Knowledge of this evolutionary history can have implications for paediatric research. Conclusion: An episode of human adaptation to the extremely low ultraviolet radiation environment of the Arctic 20,000 years ago implicates the Ectodysplasin A Receptor (EDAR) and the Fatty Acid Desaturases (FADS) in human lactation and epithelial inflammation. [ABSTRACT FROM AUTHOR]

Published

2022

208. Genetic Factors Associated with Response to Vitamin E Treatment in NAFLD.

Author

Civelek, Mehtap and Podszun, Maren C.

Subjects

VITAMIN E, FATTY acid desaturase, NON-alcoholic fatty liver disease, HAPTOGLOBINS, DIETARY supplements

Abstract

Non-alcoholic fatty liver disease (NAFLD) is becoming the predominant liver disease worldwide, and vitamin E has been clinically shown to improve histological parameters in a subset of patients. In this narrative review, we investigate whether genetic factors may help to explain why some patients show histological improvements upon high-dose alpha-tocopherol (αT) treatment while others do not. In summary, we identified two factors that are associated with treatment response, including genetic variations in haptoglobin as well as fatty acid desaturase 1/2 (FADS1/FADS2). Other genetic variants such as in alpha-tocopherol transfer protein (αTTP), tocopherol associated protein (TAP), transmembrane 6 superfamily 2 (TM6SF2), cluster of differentiation 36 (CD36), and proteins involved in lipoprotein metabolism may also play a role, but have not yet been investigated in a clinical context. We propose to further validate these associations in larger populations, to then use them as a clinical tool to identify the subset of patients that will benefit the most from vitamin E supplementation. [ABSTRACT FROM AUTHOR]

Published

2022

209. Development of a High Oleic Cardoon Cell Culture Platform by SAD Overexpression and RNAi-Mediated FAD2.2 Silencing.

Author

Cappetta, Elisa, De Palma, Monica, D’Alessandro, Rosa, Aiello, Alessandra, Romano, Raffaele, Graziani, Giulia, Ritieni, Alberto, Paolo, Dario, Locatelli, Franca, Sparvoli, Francesca, Docimo, Teresa, and Tucci, Marina

Subjects

CARDOON, FATTY acid desaturase, OLEIC acid, FATTY acids, LINOLEIC acid, BIODEGRADABLE plastics, CELL culture, PLANT polyphenols

Abstract

The development of effective tools for the sustainable supply of phyto-ingredients and natural substances with reduced environmental footprints can help mitigate the dramatic scenario of climate change. Plant cell cultures-based biorefineries can be a technological advancement to face this challenge and offer a potentially unlimited availability of natural substances, in a standardized composition and devoid of the seasonal variability of cultivated plants. Monounsaturated (MUFA) fatty acids are attracting considerable attention as supplements for biodegradable plastics, bio-additives for the cosmetic industry, and bio-lubricants. Cardoon (Cynara cardunculus L. var. altilis) callus cultures accumulate fatty acids and polyphenols and are therefore suitable for large-scale production of biochemicals and valuable compounds, as well as biofuel precursors. With the aim of boosting their potential uses, we designed a biotechnological approach to increase oleic acid content through Agrobacterium tumefaciens-mediated metabolic engineering. Bioinformatic data mining in the C. cardunculus transcriptome allowed the selection and molecular characterization of SAD (stearic acid desaturase) and FAD2.2 (fatty acid desaturase) genes, coding for key enzymes in oleic and linoleic acid formation, as targets for metabolic engineering. A total of 22 and 27 fast-growing independent CcSAD overexpressing (OE) and CcFAD2.2 RNAi knocked out (KO) transgenic lines were obtained. Further characterization of five independent transgenic lines for each construct demonstrated that, successfully, SAD overexpression increased linoleic acid content, e.g., to 42.5%, of the relative fatty acid content, in the CcSADOE6 line compared with 30.4% in the wild type (WT), whereas FAD2.2 silencing reduced linoleic acid in favor of the accumulation of its precursor, oleic acid, e.g., to almost 57% of the relative fatty acid content in the CcFAD2.2KO2 line with respect to 17.7% in the WT. Moreover, CcSADOE6 and CcFAD2.2KO2 were also characterized by a significant increase in total polyphenolic content up to about 4.7 and 4.1 mg/g DW as compared with 2.7 mg/g DW in the WT, mainly due to the accumulation of dicaffeoyl quinic and feruloyl quinic acids. These results pose the basis for the effective creation of an engineered cardoon cells-based biorefinery accumulating high levels of valuable compounds from primary and specialized metabolism to meet the industrial demand for renewable and sustainable sources of innovative bioproducts. [ABSTRACT FROM AUTHOR]

Published

2022

210. Studies from Temple University Health System Add New Findings in the Area of Acute Myeloid Leukemia (Disruption of Polyunsaturated Fatty Acid Biosynthesis Drives and Death).

Subjects

FATTY acid desaturase, ACUTE myeloid leukemia, MOLECULAR biology, BIOCHEMISTRY, UNSATURATED fatty acids

Abstract

A recent study conducted at Temple University Health System in Philadelphia, Pennsylvania, explored the role of polyunsaturated fatty acid biosynthesis in acute myeloid leukemia (AML). The research found that elevated expression of fatty acid desaturase 1 (FADS1) in AML patients correlated with worse overall survival. Inhibition of FADS1 led to AML cell growth reduction and delayed leukemia onset in a mouse model, suggesting potential therapeutic implications for targeting PUFA metabolism in AML treatment. The study highlights the complex interplay between lipid metabolism and immune signaling pathways in AML progression and provides insights into potential treatment strategies. [Extracted from the article]

Published

2024

211. Study Findings from Washington University Provide New Insights into Gene Therapy (Gene Therapy for Fat-1 Prevents Obesity- Induced Metabolic Dysfunction, Cellular Senescence, and Osteoarthritis).

Subjects

NUTRITION disorders, MUSCULOSKELETAL system diseases, FATTY acid desaturase, RHEUMATISM, CELLULAR aging

Abstract

A study conducted by researchers at Washington University explores the relationship between obesity, cellular senescence, and osteoarthritis. The research suggests that gene therapy targeting the fat-1 gene can mitigate metabolic dysfunction, cellular senescence, and joint degeneration induced by obesity and joint injury. The findings support the potential for fat-1 gene therapy to be used clinically in treating obesity- and/or injury-induced osteoarthritis. The study was funded by Shriners Hospitals for Children and the National Institutes of Health (NIH) in the United States. [Extracted from the article]

Published

2024

212. Studies Conducted at Cairo University on Non-Alcoholic Fatty Liver Disease Recently Published (Cicer arietinum phytosome ameliorates hepatosteatosis via downregulation of fatty acid synthase and stearoyl-CoA desaturase 1 in rats).

Subjects

NON-alcoholic fatty liver disease, FATTY acid synthases, FATTY acid desaturase, BLOOD proteins, CHICKPEA

Abstract

A recent study conducted at Cairo University focused on non-alcoholic fatty liver disease (NAFLD) and its treatment using Cicer arietinum polyunsaturated fatty acids (CAP) and C. arietinum polyunsaturated fatty acids phytosome (CAPP) in male albino rats. The study found that CAP and CAPP treatments helped alleviate hepatosteatosis by downregulating fatty acid synthase (FAS), stearoyl-CoA desaturase 1 (SCD-1), and oxidative stress. The research suggests that these treatments may have a potential role in managing NAFLD. [Extracted from the article]

Published

2024

213. Findings from Nanjing Medical University Update Understanding of Head and Neck Cancer (Integrative Analysis of Fads3 As a Marker for Prognosis and Immunity In Head and Neck Squamous Cell Carcinoma).

Subjects

FATTY acid desaturase, SQUAMOUS cell carcinoma, PROGNOSIS, UNSATURATED fatty acids, ORAL diseases

Abstract

A study conducted at Nanjing Medical University in China explored the role of FADS3 in head and neck squamous cell carcinoma (HNSCC). The research found that FADS3 expression was higher in HNSCC compared to normal tissues and was associated with poor clinical outcomes. FADS3 was identified as a potential prognostic marker for HNSCC, impacting tumor progression, immune infiltration, and response to immunotherapy. The study suggests that targeting FADS3 could be a potential treatment strategy for HNSCC. [Extracted from the article]

Published

2024

214. Study Findings from Guizhou Medical University Broaden Understanding of Industrial Crops and Products (Mechanism By Which Exogenous H2o2 Improves Main Secondary Metabolites Contents In Post-harvest Fresh Ginkgo Leaves Through Induced...).

Subjects

CROPS, FATTY acid desaturase, METABOLITES, INDUSTRIAL goods, REPORTERS & reporting, FLAVONOLS, QUERCETIN

Abstract

A study conducted by Guizhou Medical University in Guiyang, China, explored the use of exogenous hydrogen peroxide (H2O2) to improve secondary metabolites in post-harvest fresh Ginkgo leaves. The research found that applying H2O2 led to increased levels of antioxidants, osmolytes, flavonoids, and ginkgolides, resulting in a significant enhancement of secondary metabolites in the leaves. This discovery has implications for the pharmaceutical industry and offers a new method for enhancing secondary metabolites in medicinal crops during post-harvest processing. [Extracted from the article]

Published

2024

215. Reports from Shanghai Ocean University Add New Data to Findings in Metabolic Engineering (Microalgal Metabolic Engineering Facilitates Precision Nutrition and Dietary Regulation).

Subjects

FATTY acid desaturase, SUSTAINABILITY, OMEGA-3 fatty acids, ESSENTIAL amino acids, NUTRITIONAL requirements

Abstract

A recent study from Shanghai Ocean University in China explores the potential of microalgae for precision nutrition and sustainable diets through metabolic engineering. By manipulating metabolic pathways and key metabolites, researchers aim to enhance the production of bioactive compounds like omega-3 fatty acids and antioxidants. The tailored microalgal strains developed could serve as cost-effective and sustainable sources of nutrition for human consumption and aquaculture, addressing the demand for functional foods and environmentally friendly feed alternatives. This research has been peer-reviewed and offers insights into the potential impact of microalgal precision nutrition on human health and food production systems. [Extracted from the article]

Published

2024

216. First Hospital of China Medical University Researchers Target Bladder Cancer (Stearoyl CoA desaturase inhibition can effectively induce apoptosis in bladder cancer stem cells).

Subjects

FATTY acid desaturase, CANCER stem cells, UNFOLDED protein response, STEM cell research, COENZYMES

Abstract

Researchers at the First Hospital of China Medical University conducted a study on bladder cancer, focusing on the role of stearoyl-CoA desaturase (SCD) in the disease. The study aimed to analyze the SCD transcription start site and explore the impact of SCD inhibitors on cancer stem cells. The research also highlighted the significance of nervonic acid in altering the proliferative capacity of bladder cancer cell lines. This study provides valuable insights into potential treatment strategies for bladder cancer. [Extracted from the article]

Published

2024

217. Chongqing Medical University Researcher Reports Recent Findings in Fatty Liver Disease (6-Gingerol Inhibits De Novo Lipogenesis by Targeting Stearoyl-CoA Desaturase to Alleviate Fructose-Induced Hepatic Steatosis).

Subjects

FATTY liver, NON-alcoholic fatty liver disease, FATTY acid desaturase, DIGESTIVE system diseases, LIVER diseases

Abstract

A recent study conducted at Chongqing Medical University in China explored the use of 6-gingerol, an active compound in ginger, to alleviate fructose-induced hepatic steatosis in rats. The research found that 6-gingerol reduced hyperlipidemia and inhibited de novo lipogenesis, targeting stearoyl-CoA desaturase (SCD) to decrease fatty acid desaturation levels. The study suggests that 6-gingerol may be a potential therapeutic option for metabolic-associated fatty liver disease. For more information, the full article can be accessed through the International Journal of Molecular Sciences. [Extracted from the article]

Published

2024

218. Findings from Birla Institute of Technology and Science Pilani Broaden Understanding of Montelukast Therapy [Lipogenic Stearoyl-coa Desaturase-1 (Scd1) Targeted Virtual Screening for Chemical Inhibitors: Molecular Docking / Dynamics Simulation...].

Subjects

FATTY acid desaturase, RESPIRATORY agents, MONOUNSATURATED fatty acids, NON-alcoholic fatty liver disease, ANTIASTHMATIC agents

Abstract

A study conducted at the Birla Institute of Technology and Science Pilani in India focused on Montelukast Therapy and its potential as a treatment for non-alcoholic fatty liver disease (NAFLD). The research identified Montelukast as a potential inhibitor of the SCD1 enzyme, which plays a role in fat accumulation in the liver. The study utilized virtual screening, molecular docking, and molecular dynamics simulations to identify potential inhibitors, with Montelukast showing promising results in reducing hepatic fat accumulation and oxidative stress. The findings suggest that Montelukast could be a valuable treatment option for metabolic disorders involving SCD1. [Extracted from the article]

Published

2024

219. Fatty acid desaturases link cell metabolism pathways to promote proliferation of Epstein-Barr virus-infected B cells.

Subjects

FATTY acid desaturase, MONONUCLEAR leukocytes, HERPESVIRUS diseases, ONCOGENIC viruses, COENZYMES

Abstract

The article discusses the role of fatty acid desaturases, specifically SCD1 and FADS2, in promoting the proliferation of Epstein-Barr virus-infected B cells. It highlights how the upregulation of these enzymes by EBV is crucial for B cell proliferation and how inhibiting both enzymes leads to a significant reduction in cell growth. The study also reveals the metabolic pathways linking SCD1 and FADS2 to cell proliferation, suggesting potential targets for future anti-lymphoma therapies. [Extracted from the article]

Published

2024

220. New Findings from Royal Netherlands Academy of Arts and Sciences Describe Advances in Non-Alcoholic Fatty Liver Disease (Engineered Human Hepatocyte Organoids Enable Crispr-based Target Discovery and Drug Screening for Steatosis).

Subjects

NON-alcoholic fatty liver disease, FATTY acid desaturase, FATTY liver, MEDICAL societies, MEDICAL research

Abstract

Researchers from the Royal Netherlands Academy of Arts and Sciences have made advancements in studying Non-Alcoholic Fatty Liver Disease (NAFLD) using human fetal hepatocyte organoids. These organoid models help in target discovery and drug screening for steatosis, the first stage of NAFLD. The study identified compounds effective at resolving steatosis and highlighted the importance of FADS2 in hepatic steatosis. This research provides valuable insights into the etiology of steatosis and potential drug targets for NAFLD. [Extracted from the article]

Published

2024

221. Findings in Lipid Research Reported from Institute for Molecular and Cellular Biology (A High-resolution 13c Nmr Approach for Profiling Fi Ling Fatty Acid Unsaturation In Lipid Extracts and In Live caenorhabditis elegans).

Subjects

FATTY acid desaturase, UNSATURATED fatty acids, MOLECULAR biology, NUCLEAR magnetic resonance spectroscopy, CYTOLOGY, FATTY acid analysis

Abstract

Researchers from the Institute for Molecular and Cellular Biology in Rosario, Argentina have developed a high-resolution 13C NMR approach for profiling fatty acid unsaturation in lipid extracts and in live Caenorhabditis elegans. Unsaturated fatty acids (UFA) play a crucial role in cellular processes and disruptions in UFA homeostasis can contribute to various disorders. The researchers used NMR spectroscopy to analyze C. elegans and identified differences in lipid compositions and fatty acid unsaturation levels between wild-type and mutant strains. This method provides a nondestructive and nontargeted technique for studying lipid storage in intact worms and can be used for future investigations of fatty acid regulation. [Extracted from the article]

Published

2024

222. Research Conducted at University of Wisconsin Madison Has Updated Our Knowledge about Liver Cancer (Hepatic Stearoyl-coa Desaturase-1 Deficiency Induces Fibrosis and Hepatocellular Carcinoma-related Gene Activation Under a High Carbohydrate Low...).

Subjects

FATTY acid desaturase, LOW-fat diet, LOW-carbohydrate diet, HEPATIC fibrosis, MOLECULAR biology

Abstract

A recent study conducted at the University of Wisconsin Madison has provided new insights into liver cancer. The research focused on the role of the enzyme Stearoyl-CoA desaturase-1 (SCD1) in liver damage, including fibrosis and hepatocellular carcinoma (HCC). The study found that deficiency of SCD1 in the liver led to increased saturation of liver lipid species and hepatic fibrosis. The research highlights the connection between monounsaturated fatty acid (MUFA) insufficiency and the development of fibrosis, cirrhosis, and HCC. [Extracted from the article]

Published

2024

223. Researchers from Institute of Molecular and Cellular Biology Report Recent Findings in Lipid Research (A high-resolution 13C NMR approach for profiling fatty acid unsaturation in lipid extracts and in live Caenorhabditis elegans).

Subjects

FATTY acid desaturase, LIFE sciences, UNSATURATED fatty acids, CAENORHABDITIS elegans, MOLECULAR biology, FATTY acid analysis

Abstract

Researchers from the Institute of Molecular and Cellular Biology in Rosario, Argentina have conducted a study on lipid research, specifically focusing on unsaturated fatty acids (UFA) and their role in cellular processes in animals. The researchers used a high-resolution 13C NMR spectroscopy technique to analyze the lipid compositions and fatty acid unsaturation levels in live Caenorhabditis elegans, a type of roundworm. The study found notable differences in lipid extracts between wild-type worms and mutant worms with impaired fatty acid desaturation. This research provides a benchmark for future investigations of fatty acid regulation in live C. elegans using NMR spectroscopy. [Extracted from the article]

Published

2024

224. Cholic acid-based inhibition of SVCV replication by modulating polyunsaturated fatty acid content.

Author

Yu, Yanzhi, Zhang, Yujun, Hua, Xiaojing, Lu, Yuanan, and Liu, Xueqin

Subjects

*UNSATURATED fatty acids, *FATTY acid desaturase, *CHOLIC acid, *FATTY acids, *BILE acids

Abstract

Spring Viremia of Carp Virus (SVCV) is a highly pathogenic pathogen that infects carp fish, and SVCV infection frequently causes a severe inflammatory response in the affected fish. The viral infection is extremely lethal in carp larvae, often leading to heavy economic losses. Cholic acid (CA) is a primary bile acid synthesized directly from cholesterol in the liver and has been found to have an inhibitory effect on viral infections. To substantiate this antiviral potential, 500 μM CA was tested against SVCV replication in vitro and showed a significant inhibitory effect on viral replication. Further experimental tests demonstrated that CA exerted antiviral effects during its replication phase but not at viral adsorption and entry stages. In vivo experiments demonstrated that CA increased the survival rate of SVCV-infected zebrafish by 40 %, reduced viral load in tissues and reduced histopathological lesions. Comparison of the liver transcriptome of zebrafish between CA treatment and control (NC) groups revealed that CA treatment was able to promote the synthesis of polyunsaturated fatty acids, with the most significant changes in docosahexaenoic acid (DHA). Inhibition assay on fatty acid desaturase 2 (Fads2), the first rate-limiting enzyme for the synthesis of polyunsaturated fatty acid, showed that the antiviral effect of CA on SVCV disappeared. These new findings suggest that CA may exert its antiviral effects by regulating the synthesis of polyunsaturated fatty acid. In addition, this study also verified that DHA has antiviral activity against SVCV. In conclusion, CA shows promise as a potential anti-SVCV drug or feed additive that could help mitigate SVCV outbreaks in aquaculture. • Cholic acid inhibits SVCV replication at the cellular level. • Cholic acid increased the survival of SVCV-infected zebrafish by 40 % and palliated tissue lesions. • Cholic acid may exert antiviral function by promoting polyunsaturated fatty acid synthesis. • This study paves the way for developing new feed additives to prevent SVC in carp aquaculture. [ABSTRACT FROM AUTHOR]

Published

2025

225. Recent advances on the physiological and pathophysiological roles of polyunsaturated fatty acids and their biosynthetic pathway.

Author

Lee-Okada, Hyeon-Cheol, Xue, Chengxuan, and Yokomizo, Takehiko

Subjects

*ESSENTIAL fatty acids, *UNSATURATED fatty acids, *FATTY acid desaturase, *LINOLEIC acid, *ARACHIDONIC acid, *OMEGA-6 fatty acids

Abstract

Polyunsaturated fatty acids (PUFAs)—fatty acids containing multiple double bonds within their carbon chain—are an indispensable component of the cell membrane. PUFAs, including the omega-6 PUFA arachidonic acid (ARA; C20:4n-6) and the omega-3 PUFAs eicosapentaenoic acid (EPA; C20:5n-3) and docosahexaenoic acid (DHA; C22:6n-3), have been implicated in various (patho)physiological events. These PUFAs are either obtained from the diet or biosynthesized from the essential fatty acids linoleic acid (LA; C18:2n-6) and α-linolenic acid (ALA; C18:3n-3) via enzymatic reactions that are catalyzed by fatty acid elongases (ELOVL2 and ELOVL5) and fatty acid desaturases (FADS1 and FADS2). In this review, we summarize the recent literature studying the role of PUFAs, placing a special emphasis on the newly discovered functions of PUFAs and their biosynthetic pathway as revealed by studies using animal models targeting the PUFA biosynthetic pathway and genetic approaches including genome-wide association studies. • PUFAs are an indispensable component of the cell membrane. • PUFA deficiency can be achieved by genetic inhibition of PUFA-synthesizing enzymes. • Disruption of the PUFA biosynthetic pathway causes a wide variety of human diseases. • PUFA-manipulated animal models are useful for studying PUFA-related diseases. [ABSTRACT FROM AUTHOR]

Published

2025

226. ELOVL5 and VLDLR synergistically affect n-3 PUFA deposition in eggs of different chicken breeds.

Author

Jiang, Caiyun, Shi, Yuanhang, Shi, Xuefeng, Yan, Jin, Xuan, Lin, Zhuang, Longyu, Li, Junying, Xu, Guiyun, and Zheng, Jiangxia

Subjects

*CARNITINE palmitoyltransferase, *LINSEED oil, *FATTY acid desaturase, *UNSATURATED fatty acids, *FREE fatty acids

Abstract

There was no significant difference in the composition and content of fatty acids in eggs among different breeds initially, but following the supplementation of flaxseed oil, Dwarf Layer were observed to deposit more n-3 polyunsaturated fatty acid (PUFA) in eggs. Currently, there is limited research on the mechanisms underlying the differences in egg composition among different breeds. Therefore, in this study, 150 twenty-four-wk-old hens of each breed, including the Dwarf Layer and White Leghorn, were fed either a basal diet or a diet supplemented with 2.5% flaxseed oil. After 28 d, eggs and liver samples were collected to determine fatty acid composition, and serum, liver, intestine, and follicles were collected for subsequent biochemical, intestinal morphology, and lipid metabolism-related genes expression analysis. Duodenal contents were collected for microbial analysis. The results showed that there was no significant difference in the content and deposition efficiency of total n-3 PUFA in the liver of the 2 breeds, but the content and deposition efficiency of total n-3 PUFA in the egg of Dwarf Layer were significantly higher than those of White Leghorn after feeding flaxseed oil. Flaxseed oil and breeds did not have significant effects on cholesterol (CHO), free fatty acids (NEFA), low-density lipoprotein (LDL), and estrogen (E 2) levels. After feeding with flaxseed oil, the villus height and the villus-to-crypt ratio in both breeds were increased and duodenal crypt depth was decreased. The villus-to-crypt ratio (4.78 vs. 3.60) in the duodenum of Dwarf Layer was significantly higher than that in White Leghorn after feeding with flaxseed oil. Flaxseed oil can impact the gut microbiota in the duodenum and reduce the microbiota associated with fatty acid breakdown, such as Romboutsia, Subdolibranulum, Lachnochlostridium , and Clostridium. This may mean that less ALA can be decomposed and more ALA can be absorbed into the body. Additionally, after feeding flaxseed oil, the mRNA levels of elongation enzymes 5 ( ELOVL5 ), fatty acid desaturase 1 ( FADS1 ), and fatty acid transporter 1 ( FATP1 ) in the liver of Dwarf Layer were significantly higher than those in White Leghorn, while the mRNA levels of peroxisome proliferator-activated receptor alpha ( PPAR ), carnitine palmitoyl transferase 1 ( CPT1 ), Acyl CoA oxidase 1 ( ACOX1 ), and Acyl-CoA synthetase ( ACSL ) were significantly lower than those in White Leghorn. The mRNA level of FABP1 in the duodenum of Dwarf Layer was significantly higher than that of White Leghorn, while the mRNA level of FATP1 was significantly lower than that of White Leghorn. The protein levels of ELOVL5 in the liver of Dwarf Layer and very low-density lipoprotein receptor (VLDLR) in the follicles were significantly higher than those of White Leghorn. In summary, after feeding flaxseed oil, the higher ratio of villus height to crypt depth in Dwarf Layer allows more α-linolenic acid (ALA) to be absorbed into the body. The higher mRNA expression of FADS1, ELOVL5 , and FATP1 , as well as the higher protein expression of ELOVL5 in the liver of Dwarf Layer enhance the conversion of ALA into DHA. The higher protein expression of VLDLR in follicles of Dwarf Layer allows more n-3 PUFA to deposit in the follicles. These combined factors contribute to the Dwarf Layer's ability to deposit higher levels of n-3 PUFA in eggs, as well as improving the deposition efficiency of n-3 PUFA. [ABSTRACT FROM AUTHOR]

Published

2024

227. PuERF008-PuFAD2 module regulates aroma formation via the fatty acid pathway in response to calcium signaling in 'Nanguo' pear.

Author

Liu, Zhi, Qin, Gai-Hua, Wei, Shu-Wei, Yan, Long-Fei, Ning, Zhi-Yuan, Wang, Hong, Cao, Zhen, Hu, Kang-Di, Yao, Gai-Fang, and Zhang, Hua

Subjects

*FATTY acid desaturase, *SECOND messengers (Biochemistry), *RNA interference, *GENE expression, *UNSATURATED fatty acids

Abstract

Calcium acts as a secondary messenger in plants and is essential for plant growth and development. However, studies on the pathway of aroma synthesis in 'Nanguo' pear (Pyrus ussriensis Maxim.) are scarce. In this study, a bioinformatics analysis of transcriptomic data from calcium-treated 'Nanguo' pear was performed, which identified two fatty acid desaturases, PuFAD2 and PuFAD3 , and eight AP2/ERF transcription factors, all exhibiting the same expression patterns. Transient expression experiments showed overexpression of PuFAD2 and PuFAD3 significantly increased the levels of aromatic substrates linoleic acid, hexanal, linolenic acid, and (E)-2-hexenal, but RNAi (RNA interference) had the opposite expression. Promoter sequences analysis revealed that PuFAD2 and PuFAD3 have ERE (estrogen response element) motifs on their promoters. The strongest activation of PuFAD2 by PuERF008 was verified using a dual-luciferase reporting system. Additionally, yeast one-hybrid and electrophoretic mobility shift assays revealed PuERF008 could active PuFAD2. Transient overexpression and RNAi analyses of PuERF008 showed a strong correlation with the expression of PuFAD2. This study provides insights into the process of aroma biosynthesis in 'Nanguo' pear and offers a theoretical basis for elucidating the role of calcium signaling in aroma synthesis. • The screened PuFAD2 and PuFAD3 had effects on aroma synthesis of 'Nanguo' pear. • PuERF008 could activate the promoter of PuFAD2 and upregulate its expression. • Regulated by calcium signaling, PuERF008 - PuFAD2 participates in aroma synthesis. [ABSTRACT FROM AUTHOR]

Published

2024

228. Synergistic effect of selenium and gibberellic acid for enhanced biomass, lipid and improved biodiesel quality from Tetradesmus obliquus through response surface methodology.

Author

Vinitha, Vivekanandan, Meignanalakshmi, Sundaram, and Gopalan Tirumurugaan, Krishnaswamy

Subjects

*GIBBERELLIC acid, *RESPONSE surfaces (Statistics), *ACETYLCOENZYME A, *FATTY acid desaturase, *SUSTAINABILITY, *SELENIUM

Abstract

[Display omitted] • Selenium15 µg/L supplementation for T. obliquus increased the lipid content. • The addition of 50 µM gibberellic acid increased T. obliquus biomass productivity. • Selenium and gibberellic acid synergistically raised lipid and biomass of T. obliquus. • Selenium and gibberellic acid enhanced ACC, FAD gene expression in T. obliquus. • Selenium and gibberellic acid extended T. obliquus biodiesel stability to 14.96 hrs. Biodiesel production from microalgae presents an innovative solution for renewable energy. This study investigates biodiesel production using Tetradesmus obliquus ON506010.1 by optimizing substrates, selenium and gibberellic acid. Using 15 µg/L selenium, lipid content and biomass productivity reached 35.45 %±0.92 and 0.178 g/L/day ± 0.051. With 50 µM gibberellic acid, biomass productivity and lipid content peaked at 0.785 ± 0.101 g/L/day and 38.95 %±0.35, surpassing the control. Fatty acid composition, biodiesel properties, and mRNA expression of lipid synthesis enzymes (acetyl CoA carboxylase (ACC) and fatty acid desaturase (FAD)) correlated. Combining 10 µg/L selenium with 75 µM gibberellic acid with response surface methodology (RSM) increased lipid content (42.80 % ±0.11) and biomass productivity (0.964 g/L/day ± 0.128). ACC and FAD upregulation validated this enhancement, with a 4.4-fold increase in FAD expression. Fatty acid composition and most biodiesel properties met international standards demonstrating Tetradesmus obliquus ON506010.1′s potential for sustainable biodiesel production with better cold flow property and oxidative stability. [ABSTRACT FROM AUTHOR]

Published

2024

229. A complete biosynthetic pathway of the long-chain polyunsaturated fatty acids in an amphidromous fish, ayu sweetfish Plecoglossus altivelis (Stomiati; Osmeriformes).

Author

Zhao, Bo, Peng, Yingying, Itakura, Yuki, Lizanda, Myriam, Haga, Yutaka, Satoh, Shuichi, Navarro, Juan C., Monroig, Óscar, and Kabeya, Naoki

Subjects

*UNSATURATED fatty acids, *ARACHIDONIC acid, *EICOSAPENTAENOIC acid, *BIOCHEMICAL substrates, *GENOMICS, *FATTY acid desaturase, *DOCOSAHEXAENOIC acid, *OMEGA-6 fatty acids

Abstract

The biosynthetic capability of the long-chain polyunsaturated fatty acids (LC-PUFA) in teleosts are highly diversified due to evolutionary events such as gene loss and subsequent neo- and/or sub-functionalisation of enzymes encoded by existing genes. In the present study, we have comprehensively characterised genes potentially involved in LC-PUFA biosynthesis, namely one front-end desaturase (fads2) and eight fatty acid elongases (elovl1a , elovl1b , elovl4a , elovl4b , elovl5 , elovl7 , elovl8a and elovl8b) from an amphidromous teleost, Ayu sweetfish, Plecoglossus altivelis. Functional analysis confirmed Fads2 with Δ6, Δ5 and Δ8 desaturase activities towards multiple PUFA substrates and several Elovl enzymes exhibited elongation capacities towards C 18–20 or C 18–22 PUFA substrates. Consequently, P. altivelis possesses a complete enzymatic capability to synthesise physiologically important LC-PUFA including arachidonic acid (ARA, 20:4n-6), eicosapentaenoic acid (EPA, 20:5n-3) and docosahexaenoic acid (DHA, 22:6n-3) from their C 18 precursors. Interestingly, the loss of elovl2 gene in P. altivelis was corroborated by genomic and phylogenetic analyses. However, this constraint would possibly be overcome by the function of alternative Elovl enzymes, such as Elovl1b, which has not hitherto been functionally characterised in teleosts. The present study contributes novel insights into LC-PUFA biosynthesis in the relatively understudied teleost group, Osmeriformes (Stomiati), thereby enhancing our understanding of the complement of LC-PUFA biosynthetic genes within teleosts. • A complete biosynthetic capability of LC-PUFA is present in an amphidromous fish, Plecoglossus altivelis. • Fads2 desaturase showed Δ6, Δ5 and Δ8 desaturase activities. • Varied elongation activities towards C 18 through C 22 PUFA were detected in each of the eight elongases. • Interestingly, Elovl1b and Elovl7 could be involved in the LC-PUFA biosynthesis in Plecoglossus altivelis. [ABSTRACT FROM AUTHOR]

Published

2024

230. Dietary n-3 alpha-linolenic and n-6 linoleic acids modestly lower serum lipoprotein(a) concentration but differentially influence other atherogenic lipoprotein traits: A randomized trial.

Author

Nuotio, Petrus, Lankinen, Maria A., Meuronen, Topi, de Mello, Vanessa D., Sallinen, Taisa, Virtanen, Kirsi A., Pihlajamäki, Jussi, Laakso, Markku, and Schwab, Ursula

Subjects

*LIPOPROTEIN A, *LINOLEIC acid, *FATTY acid desaturase, *ALPHA-linolenic acid, *APOLIPOPROTEIN B, *CARDIOVASCULAR diseases risk factors

Abstract

Lipoprotein(a) [Lp(a)] is a causal, genetically determined cardiovascular risk factor. Limited evidence suggests that dietary unsaturated fat may increase serum Lp(a) concentration by 10–15 %. Linoleic acid may increase Lp(a) concentration through its endogenous conversion to arachidonic acid, a process regulated by the fatty acid desaturase (FADS) gene cluster. We aimed to compare the Lp(a) and other lipoprotein trait-modulating effects of dietary alpha-linolenic (ALA) and linoleic acids (LA). Additionally, we examined whether FADS1 rs174550 genotype modifies Lp(a) responses. A genotype-based randomized trial was performed in 118 men homozygous for FADS1 rs174550 SNP (TT or CC). After a 4-week run-in period, the participants were randomized to 8-week intervention diets enriched with either Camelina sativa oil (ALA diet) or sunflower oil (LA diet) 30–50 mL/day based on their BMI. Serum lipid profile was measured at baseline and at the end of the intervention. ALA diet lowered serum Lp(a) concentration by 7.3 % (p = 0.003) and LA diet by 9.5 % (p < 0.001) (p = 0.089 for between-diet difference). Both diets led to greater absolute decreases in individuals with higher baseline Lp(a) concentration (p < 0.001). Concentrations of LDL cholesterol (LDL-C), non-HDL-C, remnant-C, and apolipoprotein B were lowered more by the ALA diet (p < 0.01). Lipid or lipoprotein responses were not modified by the FADS1 rs174550 genotype. A considerable increase in either dietary ALA or LA from vegetable oils has a similar Lp(a)-lowering effect, whereas ALA may lower other major atherogenic lipids and lipoproteins to a greater extent than LA. Genetic differences in endogenous PUFA conversion may not influence serum Lp(a) concentration. [Display omitted] • Diets enriched with either n -3 alpha-linolenic or n -6 linoleic acid decrease serum Lp(a) concentration by 7–10 %. • Alpha-linolenic acid may have more beneficial effect on other atherogenic lipoprotein traits, compared to linoleic acid. • The FADS1 rs174550 genotype does not modulate diet-induced changes in Lp(a) concentration or other lipoprotein traits. [ABSTRACT FROM AUTHOR]

Published

2024

231. Toxic effects of freshwater grouper (Acrossocheilus fasciatus) eggs on poultry: Morphological and transcriptomic insights into hepatic toxicity.

Author

Jiang, Yanqiu, Lu, Zhen, Wang, Derui, Hou, Zhihao, Zhong, Tianxing, Yan, Zhi, Lin, Ainuo, Jiang, Baozhen, Ren, Jianfeng, and Li, Ke

Subjects

POISONS, HEPATOTOXICOLOGY, FATTY acid desaturase, GROUPERS, SEAFOOD poisoning, CHICKS, FISH eggs

Abstract

Fish egg poisoning is a serious and neglected public menace that kills hundreds of people and numerous poultry each year. Freshwater groupers (Acrossocheilus fasciatus) are common food fish in the southeastern regions of China. Their toxic eggs are regarded as a significant public health concern. The molecular mechanisms of egg-toxin toxicity in freshwater grouper to poisoned organisms are elusive. In this study, black-boned chicks were exposed to toxic eggs from freshwater grouper at a lethal dose. The hepatic morphology of the intoxicated chick was assessed. An analysis of the liver gene expression profile was conducted by comparing samples exposed to toxic eggs with control samples using RNA-Seq. The result revealed that an increase in vacuolation and congestion was observed in chicks with toxic eggs exposure. The transcriptome analysis revealed 5421 genes with differential expression, comprising 2810 up-regulated and 2611 down-regulated genes. The genes were primarily linked to energy metabolism, cell apoptosis, cell adhesion, exogenous microbial infection, and cell junction. The most strongly upregulated genes were cholecystokinin (CCK), cholecystokinin A receptor (CCKAR), and unc-80 homolog, NALCN activator (UNC80), and the most downregulated genes were glycine amidinotransferase (GATM), fatty acid desaturase 2 (FADS2), and hexokinase 2 (HKDC1). GO term with the highest enrichment of DEGs is nucleosome assembly. According to KEGG pathways, the three most significant metabolic pathways in the liver are DNA replication, retinol metabolism, and steroid biosynthesis. The results could be crucial for comprehending the negative biological impacts of egg-toxin and its toxic mechanisms. The outcome could provide potential biomarkers of egg-toxin exposure in hepatic, which might be useful for manufacturing an antidote to egg-toxin and providing valuable insights for ecotoxicity studies. [Display omitted] ● The average lethal dose of freshwater grouper eggs is 0.14 g/g. ● Fish egg poisoning causes hepatic hemorrhage and vacuolation in chicks. ● Toxic fish eggs had a significant impact on nutrient metabolism and DNA synthesis. ● Steroid biosynthesis and retinol metabolism were the most notable KEGG enrichments. [ABSTRACT FROM AUTHOR]

Published

2024

232. Molecular mechanism of interaction between fatty acid delta 6 desaturase and acyl-CoA by computational prediction.

Author

Cui, Jie, Chen, Haiqin, Tang, Xin, Zhang, Hao, Chen, Yong Q., and Chen, Wei

Subjects

*MOLECULAR interactions, *FATTY acid desaturase, *FATTY acids, *ACYL coenzyme A, *DESATURASES

Abstract

Enzyme catalyzed desaturation of intracellular fatty acids plays an important role in various physiological and pathological processes related to lipids. Limited to the multiple transmembrane domains, it is difficult to obtain their three-dimensional structure of fatty acid desaturases. So how they interact with their substrates is unclear. Here, we predicted the complex of Micromonas pusilla delta 6 desaturase (MpFADS6) with the substrate linoleinyl-CoA (ALA-CoA) by trRosetta software and docking poses by Dock 6 software. The potential enzyme–substrate binding sites were anchored by analysis of the complex. Then, site-directed mutagenesis and activity verification clarified that W290, W224, and F352 were critical residues of the substrate tunnel and directly bonded to ALA-CoA. H94 and H69 were indispensable for transporting electrons with heme. H452, N445, and H358 significantly influenced the recognition and attraction of MpFADS6 to the substrate. These findings provide new insights and methods to determine the structure, mechanisms and directed transformation of membrane-bound desaturases. Keypoints: The structure of the Δ6 fatty acid desaturase and substrate complex is modeled. The substrate tunnel and key residues of MpFADS6 catalytic activity are determined. The new insights to determine the mechanism of the membrane-bound desaturases. [ABSTRACT FROM AUTHOR]

Published

2022

233. MYB1R1 and MYC2 Regulate ω-3 Fatty Acid Desaturase Involved in ABA-Mediated Suberization in the Russet Skin of a Mutant of 'Dangshansuli' (Pyrus bretschneideri Rehd.).

Author

Wang, Qi, Liu, Yaping, Wu, Xinyi, Wang, Lindu, Li, Jinchao, Wan, Minchen, Jia, Bin, Ye, Zhenfeng, Liu, Lun, Tang, Xiaomei, Tao, Shutian, Zhu, Liwu, and Heng, Wei

Subjects

FATTY acid desaturase, ABSCISIC acid, FRUIT skins, TRANSCRIPTION factors, PHENOTYPIC plasticity

Abstract

Russeting, a disorder of pear fruit skin, is mainly caused by suberin accumulation on the inner part of the outer epidermal cell layers. ABA was identified as a crucial phytohormone in suberification. Here, we demonstrated that the ABA content in russet pear skin was higher than in green skin. Then, ABA was applied to explore the changes in phenotype and suberin composition coupled with RNA-Seq and metabolomics to investigate the probably regulatory pathway of ABA-mediated suberification. The results showed that ABA treatment increased the expression of ω-3 fatty acid desaturase (FAD) and the content of α-linolenic acid. We identified 17 PbFADs in white pear, and the expression of PbFAD3a was induced by ABA. In addition, the role of PbFAD3a in promoting suberification has been demonstrated by overexpression in Arabidopsis and VIGS assays in the fruitlets. GUS staining indicated that the promoter of PbFAD3a was activated by ABA. Furthermore, MYC2 and MYB1R1 have been shown to bind to the PbFAD3a promoter directly and this was induced by ABA via yeast one-hybrid (Y1H) screening and qRT–PCR. In summary, our study found that ABA induces the expression of MYC2 and MYB1R1 and activates the PbFAD3a promoter, contributing to the formation of russet pear skin. Functional identification of key transcription factors will be the goal of future research. These findings reveal the molecular mechanism of ABA-mediated suberization in the russet skin and provide a good foundation for future studies on the formation of russet skin. [ABSTRACT FROM AUTHOR]

Published

2022

234. Fatty acid desaturase 2 affects the milk‐production traits in Chinese Holsteins.

Author

Fu, Yihan, Jia, Ruike, Xu, Lingna, Su, Dingran, Li, Yanhua, Liu, Lin, Ma, Zhu, Sun, Dongxiao, and Han, Bo

Subjects

*FATTY acid desaturase, *MILKFAT, *UNSATURATED fatty acids, *DAIRY cattle, *MISSENSE mutation, *MILK yield

Abstract

As a member of the fatty acid desaturase family, fatty acid desaturase 2 (FADS2) gene is a rate‐limiting enzyme in the synthesis of unsaturated fatty acids and within/near to the reported QTL regions for milk‐production traits. We previously found that FADS2 is differentially expressed during different lactations of Chinese Holstein cows, and participates in lipid metabolic processes by influencing the insulin, PI3K‐Akt, MAPK, AMPK, mTOR and PPAR signaling pathways. Therefore, we considered this gene as a candidate gene for milk‐production traits. In this study, we identified 12 SNPs in FADS2 by re‐sequencing, including two SNPs in the 5′ flanking region, one in the seventh exon, five in introns, two in the 3′ untranslated region and two in the 3′ flanking region. The 29:g.40378819C>T is a missense mutation that causes alanine (GCG) to be replaced with valine (GTG). Through single marker association analysis, we found that all of the 12 SNPs were significantly associated with 305 day milk yield, fat yield, fat percentage, protein yield or protein percentage (p < 0.0493). The results of the subsequent haplotype association analysis also confirmed the associations between the gene and milk‐production traits. In summary, this study suggests that there is a significant genetic association between FADS2 and milk‐production traits, and that the SNPs with significant genetic effects can provide important molecular information for the development of a genomic selection chip in dairy cattle. [ABSTRACT FROM AUTHOR]

Published

2022

235. Genome-Wide Identification and Functional Differentiation of Fatty Acid Desaturase Genes in Olea europaea L.

Author

Niu, Erli, Gao, Song, Hu, Wenjun, Zhang, Chengcheng, Liu, Daqun, Shen, Guoxin, and Zhu, Shenlong

Subjects

FATTY acid desaturase, OLIVE, UNSATURATED fatty acids, VERTICILLIUM dahliae, GENES, FRUIT development

Abstract

Olive (Olea europaea L.) is a world-famous woody oil tree and popular for redundant unsaturated fatty acids. Fatty acid desaturase (FAD) genes are responsible for fatty acid desaturation and stress regulation but have not yet been identified in olive at the whole genome level. This study identified 40 and 27 FAD genes in the cultivated olive O. europaea cv. Farga and the wild olive O. europaea var. Sylvestris, respectively. Phylogenetic analysis showed that all the FAD genes could be classified into the soluble FAB2/SAD clade and membrane-bound clade, including ADS/FAD5, DES, FAD4, SLD, ω-6 and ω-3, with the high consistency of subcellular localization, motif composition and exon-intron organization in each group. FAD genes in olive showed the diverse functional differentiation in morphology of different tissues, fruit development and stress responses. Among them, OeFAB2.8 and OeFAD2.3 were up-regulated and OeADS.1, OeFAD4.1 and OeFAD8.2 were down-regulated under the wound, Verticillium dahliae and cold stresses. This study presents a comprehensive analysis of the FAD genes at the whole-genome level in olives and will provide guidance for the improvement of oil quality or stress tolerance of olive trees. [ABSTRACT FROM AUTHOR]

Published

2022

236. Fatty acid synthases and desaturases are essential for the biosynthesis of α‐linolenic acid and metamorphosis in a major mulberry pest, Glyphodes pyloalis walker (Lepidoptera: Pyralidae).

Author

Wang, Jiao, Song, Yan, Hwarari, Delight T, Liang, Xin‐hao, Ding, Jian‐hao, Yan, Meng‐wen, Wu, Fu‐an, Wang, Jun, and Sheng, Sheng

Subjects

FATTY acid synthases, FATTY acid desaturase, LINOLENIC acids, PUPAE, UNSATURATED fatty acids, ESSENTIAL fatty acids, PYRALIDAE

Abstract

BACKGROUND: α‐linolenic acid is an essential unsaturated fatty acid in organisms. However, there is a large gap between α‐linolenic acid accumulation and its synthesis mechanism in insects. Fatty acid synthases (FASs) and desaturases (Desats) are vital enzymes required for the synthesis of unsaturated fatty acids. RESULTS: The pupae of Glyphodes pyloalis (Lepidoptera: Pyralidae), which is a destructive pest of mulberry trees, contain the highest level of α‐linolenic acid compared to other life‐history stages. To further explore the synthesis mechanism of α‐linolenic acid in G. pyloalis pupae, we constructed a pupal transcriptome dataset and identified 106 genes related to fatty acid metabolism from it. Among these, two fatty acid synthases (GpylFAS) and five desaturases (GpylDesat) were identified. A qRT‐PCR validation revealed that GpylFAS1 and GpylDesat1, 2, 3, 5 were expressed highest at pupal stages. Furthermore, the content of α‐linolenic acid decreased significantly after silencing GpylFAS1 and GpylDesat5, respectively. Besides, knocking down GpylFAS1 or GpylDesat5 resulted in more malformed pupae and adults, as well as lower emergence rates. Meanwhile, silencing GpylFAS1 or GpylDesat5 affected the expressions of the other GpylFASs and GpylDesats. CONCLUSION: The present results illustrate the pivotal function of FASs and Desats in α‐linolenic acid biosynthesis and metamorphosis in insects. Our research also broadens the sources of unsaturated fatty acids, especially for α‐linolenic acid from insects, and provides novel insights for the management of mulberry insect pests from the perspective of utilization rather than control. © 2022 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2022

237. The role of serum amyloid A1 in the adipogenic differentiation of human adipose-derived stem cells basing on single-cell RNA sequencing analysis.

Author

Qu, Rongmei, He, Kai, Yang, Yuchao, Fan, Tingyu, Sun, Bing, Khan, Asmat Ullah, Huang, Wenhua, Ouyang, Jun, Pan, Xinghua, and Dai, Jingxing

Subjects

*LINCRNA, *HUMAN stem cells, *FATTY acid desaturase, *AMYLOID, *STAINS & staining (Microscopy), *CARRIER proteins

Abstract

Background: Adipose-derived stem cells (ASCs) are obtained from a variety of sources in vivo where they present in large quantities. These cells are suitable for use in autologous transplantation and the construction of tissue-engineered adipose tissue. Studies have shown that ASCs differentiation is in a high degree of heterogeneity, yet the molecular basis including key regulators of differentiation remains to clarify. Methods: We performed single-cell RNA sequencing and bioinformatics analysis on both undifferentiated (ASC-GM group) and adipogenically differentiated human ASCs (ASC-AD group, ASCs were cultured in adipogenic inducing medium for 1 week). And then, we verified the results of serum amyloid A1 (SAA1) with western blotting, immunofluorescence staining, oil red O staining. After these experiments, we down-regulated the expression of serum amyloid A1 (SAA1) gene to verify the adipogenic differentiation ability of ASCs. Results: In single-cell RNA sequence analyzing, we obtained 4415 cells in the ASC-GM group and 4634 cells in the ASC-AD group. The integrated sample cells could be divided into 11 subgroups (0–10 cluster). The cells in cluster 0, 2, 5 were came from ASC-GM group and the cells in cluster 1, 3, 7 came from ASC-AD group. The cells of cluster 4 and 6 came from both ASC-GM and ASC-AD groups. Fatty acid binding protein 4, fatty acid binding protein 5, complement factor D, fatty acid desaturase 1, and insulin like growth factor binding protein 5 were high expressed in category 1 and 7. Regulation of inflammatory response is the rank 1 biological processes. And cellular responses to external stimuli, negative regulation of defense response and acute inflammatory response are included in top 20 biological processes. Based on the MCODE results, we found that SAA1, C-C Motif Chemokine Ligand 5 (CCL5), and Annexin A1 (ANXA1) significantly highly expressed during adipogenic differentiation. Western blot and immunofluorescent staining results showed that SAA1 increased during adipogenesis. And the area of ORO positive staining in siSAA1 cells was significantly lower than in the siControl (negative control) cells. Conclusions: Our results also indicated that our adipogenic induction was successful, and there was great heterogeneity in the adipogenic differentiation of ASCs. SAA1 with the regulation of inflammatory response were involved in adipogenesis of ASCs based on single-cell RNA sequencing analysis. The data obtained will help to elucidate the intrinsic mechanism of heterogeneity in the differentiation process of stem cells, thus, guiding the regulation of self-renewal and differentiation of adult stem cells. [ABSTRACT FROM AUTHOR]

Published

2022

238. Advances in Understanding the Genetic Basis of Fatty Acids Biosynthesis in Perilla: An Update.

Author

Bae, Seon-Hwa, Zoclanclounon, Yedomon Ange Bovys, Kumar, Thamilarasan Senthil, Oh, Jae-Hyeon, Lee, Jundae, Kim, Tae-Ho, and Park, Ki Young

Subjects

FATTY acids, FATTY acid desaturase, PERILLA, BIOSYNTHESIS, UNSATURATED fatty acids, ESSENTIAL oils

Abstract

Perilla, also termed as purple mint, Chinese basil, or Perilla mint, is a flavoring herb widely used in East Asia. Both crude oil and essential oil are employed for consumption as well as industrial purposes. Fatty acids (FAs) biosynthesis and oil body assemblies in Perilla have been extensively investigated over the last three decades. Recent advances have been made in order to reveal the enzymes involved in the fatty acid biosynthesis in Perilla. Among those fatty acids, alpha-linolenic acid retained the attention of scientists mainly due to its medicinal and nutraceutical properties. Lipids synthesis in Perilla exhibited similarities with Arabidopsis thaliana lipids' pathway. The homologous coding genes for polyunsaturated fatty acid desaturases, transcription factors, and major acyl-related enzymes have been found in Perilla via de novo transcriptome profiling, genome-wide association study, and in silico whole-genome screening. The identified genes covered de novo fatty acid synthesis, acyl-CoA dependent Kennedy pathway, acyl-CoA independent pathway, Triacylglycerols (TAGs) assembly, and acyl editing of phosphatidylcholine. In addition to the enzymes, transcription factors including WRINKLED, FUSCA3, LEAFY COTYLEDON1, and ABSCISIC ACID INSENSITIVE3 have been suggested. Meanwhile, the epigenome aspect impacting the transcriptional regulation of FAs is still unclear and might require more attention from the scientific community. This review mainly outlines the identification of the key gene master players involved in Perilla FAs biosynthesis and TAGs assembly that have been identified in recent years. With the recent advances in genomics resources regarding this orphan crop, we provided an updated overview of the recent contributions into the comprehension of the genetic background of fatty acid biosynthesis. The provided resources can be useful for further usage in oil-bioengineering and the design of alpha-linolenic acid-boosted Perilla genotypes in the future. [ABSTRACT FROM AUTHOR]

Published

2022

239. Elevation of fatty acid desaturase 2 in esophageal adenocarcinoma increases polyunsaturated lipids and may exacerbate bile acid‐induced DNA damage.

Author

Molendijk, Jeffrey, Kolka, Cathryn M., Cairns, Henry, Brosda, Sandra, Mohamed, Ahmed, Shah, Alok K., Brown, Ian, Hodson, Mark P., Hennessy, Thomas, Liu, Guanghao, Stoll, Thomas, Richards, Renee S., Gartside, Michael, Patel, Kalpana, Clemons, Nicholas J., Phillips, Wayne A., Barbour, Andrew, Westerhuis, Johan A., and Hill, Michelle M.

Subjects

*FATTY acid desaturase, *DNA damage, *BARRETT'S esophagus, *DOUBLE-strand DNA breaks, *GASTROESOPHAGEAL reflux, *LIPIDS, *PHOSPHOCHOLINE

Abstract

Background: The risk of esophageal adenocarcinoma (EAC) is associated with gastro‐esophageal reflux disease (GERD) and obesity. Lipid metabolism‐targeted therapies decrease the risk of progressing from Barrett's esophagus (BE) to EAC, but the precise lipid metabolic changes and their roles in genotoxicity during EAC development are yet to be established. Methods: Esophageal biopsies from the normal epithelium (NE), BE, and EAC, were analyzed using concurrent lipidomics and proteomics (n = 30) followed by orthogonal validation on independent samples using RNAseq transcriptomics (n = 22) and immunohistochemistry (IHC, n = 80). The EAC cell line FLO‐1 was treated with FADS2 selective inhibitor SC26196, and/or bile acid cocktail, followed by immunofluorescence staining for γH2AX. Results: Metabolism‐focused Reactome analysis of the proteomics data revealed enrichment of fatty acid metabolism, ketone body metabolism, and biosynthesis of specialized pro‐resolving mediators in EAC pathogenesis. Lipidomics revealed progressive alterations (NE‐BE‐EAC) in glycerophospholipid synthesis with decreasing triglycerides and increasing phosphatidylcholine and phosphatidylethanolamine, and sphingolipid synthesis with decreasing dihydroceramide and increasing ceramides. Furthermore, a progressive increase in lipids with C20 fatty acids and polyunsaturated lipids with ≥4 double bonds were also observed. Integration with transcriptome data identified candidate enzymes for IHC validation: Δ4‐Desaturase, Sphingolipid 1 (DEGS1) which desaturates dihydroceramide to ceramide, and Δ5 and Δ6‐Desaturases (fatty acid desaturases, FADS1 and FADS2), responsible for polyunsaturation. All three enzymes showed significant increases from BE through dysplasia to EAC, but transcript levels of DEGS1 were decreased suggesting post‐translational regulation. Finally, the FADS2 selective inhibitor SC26196 significantly reduced polyunsaturated lipids with three and four double bonds and reduced bile acid‐induced DNA double‐strand breaks in FLO‐1 cells in vitro. Conclusions: Integrated multiomics revealed sphingolipid and phospholipid metabolism rewiring during EAC development. FADS2 inhibition and reduction of the high polyunsaturated lipids effectively protected EAC cells from bile acid‐induced DNA damage in vitro, potentially through reduced lipid peroxidation. [ABSTRACT FROM AUTHOR]

Published

2022

240. CRISPR/Cas9 Based Site-Specific Modification of FAD2 cis -Regulatory Motifs in Peanut (Arachis hypogaea L).

Author

Neelakandan, Anjanasree K., Wright, David A., Traore, Sy M., Chen, Xiangyu, Spalding, Martin H., and He, Guohao

Subjects

PEANUTS, FATTY acid desaturase, OLEIC acid, CRISPRS, ARACHIS, CIS-regulatory elements (Genetics), LINOLEIC acid

Abstract

Peanut (Arachis hypogaea L.) seed is a rich source of edible oil, comprised primarily of monounsaturated oleic acid and polyunsaturated linoleic acid, accounting for 80% of its fatty acid repertoire. The conversion of oleic acid to linoleic acid, catalyzed by Fatty Acid Desaturase 2 (FAD2) enzymes, is an important regulatory point linked to improved abiotic stress responses while the ratio of these components is a significant determinant of commercial oil quality. Specifically, oleic acid has better oxidative stability leading to longer shelf life and better taste qualities while also providing nutritional based health benefits. Naturally occurring FAD2 gene knockouts that lead to high oleic acid levels improve oil quality at the potential expense of plant health though. We undertook a CRISPR/Cas9 based site-specific genome modification approach designed to downregulate the expression of two homeologous FAD2 genes in seed while maintaining regulation in other plant tissues. Two cis -regulatory elements the RY repeat motif and 2S seed protein motif in the 5′UTR and associated intron of FAD2 genes are potentially important for regulating seed-specific gene expression. Using hairy root and stable germ line transformation, differential editing efficiencies were observed at both CREs when targeted by single gRNAs using two different gRNA scaffolds. The editing efficiencies also differed when two gRNAs were expressed simultaneously. Additionally, stably transformed seed exhibited an increase in oleic acid levels relative to wild type. Taken together, the results demonstrate the immense potential of CRISPR/Cas9 based approaches to achieve high frequency targeted edits in regulatory sequences for the generation of novel transcriptional alleles, which may lead to fine tuning of gene expression and functional genomic studies in peanut. [ABSTRACT FROM AUTHOR]

Published

2022

241. The dysregulation of unsaturated fatty acid-based metabolomics in the MNNG-induced malignant transformation of Het-1A cells.

Author

Zhang, Hu, Liu, Qiwei, Zhao, Chao, Zhang, Ying, Wang, Shizhi, Liu, Ran, Pu, Yuepu, and Yin, Lihong

Subjects

LIQUID chromatography-mass spectrometry, UNSATURATED fatty acids, CELL transformation, POLLUTANTS, FATTY acid desaturase, NITROSOAMINES, METABOLOMICS

Abstract

Studies have shown that environmental carcinogens exerted an important function in the high incidence of esophageal cancer (EC). Nitrosamines have been identified as important environmental carcinogens for EC. This study aimed to investigate the metabolic disturbances and new key toxicological markers in the malignant transformation process of normal esophageal epithelial cells (Het-1A) induced by MNNG (N-methyl-N′-nitro-N-nitrosoguanidine). Untargeted metabolomic and lipidomic profiling analysis by using ultra-high-performance liquid chromatography coupled with mass spectrometry (UHPLC-MS) were applied to explore the metabolic network alterations of Het-1A cells. The metabolomic results showed that significant alterations were observed in metabolic signatures between different generations (P5, P15, P25, P35) and the control cell group (P0). A total of 48 differential endogenous metabolites were screened and identified, mainly containing fatty acids, amino acids, and nucleotides. The differential metabolites were predominantly linked to the pathway of biosynthesis of unsaturated fatty acids metabolism. The cell lipidomic profiling revealed that the most differential lipids contained fatty acids (FAs), phosphatidylcholines (PC), phosphatidylethanolamines (PE), and phosphatidylserines (PS). The enrichment of the lipidomic pathway also confirmed that the lipid metabolism of biosynthesis of unsaturated fatty acids was the significant variation during the cell malignant transformation. Furthermore, we detected the expression of the upstream regulatory enzymes related to the unsaturated fatty acids to explore the regulation mechanism. The expression of stearoyl-CoA desaturase (SCD), ELOVL fatty acid elongase 1 (ELOVL1) promoted, and fatty acid desaturase 1 (FADS1) inhibited the key fatty acids of unsaturated fatty acids metabolism compared to the control cell group. Overall, our results revealed that lipid fatty acid metabolism was involved in the malignant transformation of Het-1A cells induced by MNNG and deepened the awareness of the carcinogenic mechanism of environmental exposure pollutants. [ABSTRACT FROM AUTHOR]

Published

2022

242. Yiqi-Bushen-Tiaozhi Recipe Attenuated High-Fat and High-Fructose Diet Induced Nonalcoholic Steatohepatitis in Mice via Gut Microbiota.

Author

Yan, Junbin, Nie, Yunmeng, Liu, Yuan, Li, Jingya, Wu, Liyan, Chen, Zhiyun, and He, Beihui

Subjects

NON-alcoholic fatty liver disease, GUT microbiome, HIGH-fat diet, FATTY acid desaturase, MICE

Abstract

Aim: To investigate the treating effect of Yiqi-Bushen-Tiaozhi (YBT) recipe on nonalcoholic steatohepatitis (NASH) mice, determine whether the outcome was associated with gut microbiota, and clarify the regulating mechanism. Methods: NASH mice were induced by high-fat and high-fructose diets (HFFD). In the fifth week, mice in the YBT group were orally administrated YBT (22.12g·kg-1·d-1) daily for 12 weeks. Fresh stool of mice was collected at the 16th week for fecal 16S rDNA analysis. Hepatic pathology and biochemical indicators were used to reflect the improvement of YBT on hepatic inflammation and lipid metabolism in NASH mice. Quantitative real-time PCR (qRT-PCR) was used to verify the results of PICRUSt analysis. Results: Results of the pathological and biochemical index showed that YBT could improve NASH mice. Compared with improving inflammation and hepatocyte damage, YBT may be more focused on enhancing metabolic disorders in mice, such as increasing HDL-c level. The diversity and richness of the gut microbiota of NASH mice induced by HFFD are significantly different from the normal control (NC) group. After YBT treatment, the diversity and richness of the mice microbiota will be increased to similar NC mice. Intestinimonas, Acetatifactor, Alistipes, Intestinimonas, Acetatifactor , and Alistipes have the most significant changes in the class level. PICRUSt analysis was performed to predict genomic functions based on the 16S rDNA results and reference sequencing. The efficacy of YBT in the treatment of NASH can be achieved by regulating the diversity and richness of gut microbiota. PICRUSt analysis results showed that the most relevant function of the microbiota construction variations is α- Linolenic acid (ALA) metabolism. Results of qRT-PCR showed significant differences between groups in the expression of Fatty acid desaturase 1 (FADS1), Fatty acid desaturase 2 (FADS2), Acyl-CoA Oxidase 1 (ACOX1), and Acyl-CoA Oxidase 2 (ACOX2) related to ALA metabolism. The expression of the above genes will be inhibited in the liver and small intestine of the HFFD group mice, and the expression can be restored after YBT treatment. Conclusion: YBT could treat NASH mice by improving the diversity and richness of gut microbiota and further the improvement of ALA metabolism. [ABSTRACT FROM AUTHOR]

Published

2022

243. Genome-wide identification of FAD gene family and their contributions to the temperature stresses and mutualistic and parasitic fungi colonization responses in banana.

Author

Cheng, Chunzhen, Liu, Fan, Sun, Xueli, Wang, Bin, Liu, Jiapeng, Ni, Xueting, Hu, Chunhua, Deng, Guiming, Tong, Zheng, Zhang, Yongyan, and Lü, Peitao

Subjects

*FUNGAL colonies, *FATTY acid desaturase, *BANANAS, *AMINO acid sequence, *FUSARIUM wilt of banana, *BINDING sites

Abstract

Fatty acid desaturase (FAD) plays important roles in plant growth and development and plant defense processes. In this study, we identified 27 MaFAD genes from the banana genome. According to the amino acid sequence similarities, their encoded proteins could be classified into five subfamilies. This classification is consistently supported by their gene and protein structures, conserved motifs and subcellular localizations. Segmental duplication events were found to play predominant roles in the MaFAD gene family expansion. Thirty miRNAs targeting MaFADs were identified and many hormone- and stress-responsive cis -acting elements and transcription factor binding sites (TFBSs) were identified in their promoters, indicating that the MaFADs expression regulation was very complicated. Gene expression analysis showed that some MaFADs showed significant differential expression in response to high and low temperature. Foc TR4 influenced greatly the expression of several MaFADs and greatly induced the fatty acid (FA) accumulations in roots. Although S. indica showed no significant influence on the expression of most MaFADs , it could greatly alleviate the influence of Foc TR4 on several MaFADs and FA biosynthesis. Our study revealed that MaFADs contributed greatly to the responses of high and low temperature stresses and mutualistic and parasitic fungi colonization in banana. • The expansion of the MaFAD family is mainly dependent on segmental duplications. • The expression patterns of MaFADs are regulated by multiple factors. • Some MaFAD genes were found to participate in both high and low temperature stress responses of banana. • S. indica increases banana wilt resistance by weakening the influences of Foc TR4 on FAD s expression and FAs biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2022

244. miR-1908 Dysregulation in Human Cancers.

Author

Shen, Jinze, Wu, Yuchen, Ruan, Wenjing, Zhu, Feng, and Duan, Shiwei

Subjects

ADIPOKINES, LEPTIN, FATTY acid desaturase, NON-small-cell lung carcinoma, FREE fatty acids, VALPROIC acid, TRANSCRIPTION factors

Abstract

MiR-1908 is a miRNA located in the intron of the fatty acid desaturase 1 (FADS1) gene. The expression level of miR-1908 is abnormal in many diseases such as cancer. miR-1908 can inhibit the expression of at least 27 target genes by binding to the 3' untranslated region (3' UTR) of target genes. miR-1908 is involved in the biological processes of cell proliferation, cell differentiation, cell apoptosis, cancer cell invasion, and metastasis. The expression of miR-1908 is regulated by 11 factors, including lncRNA HOTTIP, adipokines (TNF-α, leptin, and resistin), NF-κB, free fatty acid (FFA), cholesterol, stearoyl-CoA desaturase (SCD1), immune-related transcription factors (STAT1, RB1, and IRF1). The expression of miR-1908 is also affected by the anticancer drug OSW-1, growth hormone (GH), and the anticonvulsant drug sodium valproate. In addition, the aberrant expression of miR-1908 is also related to the prognosis of a variety of cancers, including non-small cell lung cancer (NSCLC), ovarian cancer (OC), breast cancer, cervical cancer, glioma, high-grade serous ovarian carcinoma (HGSOC), osteosarcoma, etc. This article summarizes the abnormal expression pattern of miR-1908 in various diseases and its molecular regulation mechanisms. Our work will provide potential hints and direction for future miR-1908-related research. [ABSTRACT FROM AUTHOR]

Published

2022

245. Comparative Analysis and Structural Modeling of Elaeis oleifera FAD2, a Fatty Acid Desaturase Involved in Unsaturated Fatty Acid Composition of American Oil Palm.

Author

Ben Ayed, Rayda, Chirmade, Tejas, Hanana, Mohsen, Khamassi, Khalil, Ercisli, Sezai, Choudhary, Ravish, Kadoo, Narendra, and Karunakaran, Rohini

Subjects

*FATTY acid desaturase, *UNSATURATED fatty acids, *OIL palm, *PALMITIC acid, *LINOLEIC acid, *STRUCTURAL models, *OLEIC acid, *PALM oil

Abstract

Simple Summary: Palm oil has become the world's most important vegetable oil in terms of production quantity, and its overall demand is exponentially growing with the global population. The fatty acid composition and particularly the oleic/linoleic acid ratio are major factors influencing palm oil quality. In this study, we focused on FAD2, a fatty acid desaturase enzyme involved in the desaturation and conversion of oleic acid to linoleic acid in Elaeis oleifera, identified through in silico annotation analysis. Our phylogenetic and comparative studies revealed two SNP markers, SNP278 and SNP851, significantly correlated with the oleic/linoleic acid contents. Our study provides fundamental insights into the mechanism of fatty acids synthesis in oil palm and could support the application of molecular biology techniques to enhance the enzymatic activity and substrate affinity of EoFAD2. American oil palm (Elaeis oleifera) is an important source of dietary oil that could fulfill the increasing worldwide demand for cooking oil. Therefore, improving its production is crucial and could be realized through breeding and genetic engineering approaches aiming to obtain high-yielding varieties with improved oil content and quality. The fatty acid composition and particularly the oleic/linoleic acid ratio are major factors influencing oil quality. Our work focused on a fatty acid desaturase (FAD) enzyme involved in the desaturation and conversion of oleic acid to linoleic acid. Following the in silico identification and annotation of Elaeis oleifera FAD2, its molecular and structural features characterization was performed to better understand the mechanistic bases of its enzymatic activity. EoFAD2 is 1173 nucleotides long and encodes a protein of 390 amino acids that shares similarities with other FADs. Interestingly, the phylogenetic study showed three distinguished groups where EoFAD2 clustered among monocotyledonous taxa. EoFAD2 is a membrane-bound protein with five transmembrane domains presumably located in the endoplasmic reticulum. The homodimer organization model of EoFAD2 enzyme and substrates and respective substrate-binding residues were predicted and described. Moreover, the comparison between 24 FAD2 sequences from different species generated two interesting single-nucleotide polymorphisms (SNPs) associated with the oleic/linoleic acid contents. [ABSTRACT FROM AUTHOR]

Published

2022

246. Plasma phospholipid fatty acid profile, estimated desaturase activities and prevalence of the metabolic syndrome in a general population cohort: A cross-sectional study.

Author

Zhu, Yinjie, Vogelpohl, Fabian A., Heiner-Fokkema, M. Rebecca, Pranger, Ilse G., Minović, Isidor, Navis, Gerjan J., Bakker, Stephan J.L., and Riphagen, Ineke J.

Subjects

*METABOLIC syndrome, *FATTY acids, *LATENT structure analysis, *COHORT analysis, *FATTY acid desaturase, *BONFERRONI correction, *CROSS-sectional method

Abstract

BACKGROUND: An altered plasma fatty acid (FA) profile and desaturase activities have been associated with several metabolic diseases, including the MetS, but studies in the general populations are lacking, and only few studies have investigated a broad spectrum of FA in plasma phospholipids (PL). OBJECTIVE: We investigated, cross-sectionally, the relationship of the FA profile and desaturase activities in plasma PL with the prevalence of MetS in a general population in The Netherlands. METHODS: Baseline characteristic data from 850 participants (male: 50.2%) aged 38-68 years recruited in the Lifelines cohort study were obtained. The FA profile was determined in fasting plasma PL, and desaturase activities were estimated from product/precursor ratios. The MetS was defined according to International Diabetes Federation. Logistic regressions were used to examine the relation of the FA profile with the prevalence of MetS, and Bonferroni correction was applied to account for multiple testing. RESULTS: 151 participants (17.7%) had the MetS. After adjustment for several confounders and Bonferroni correction, higher tertiles of C18 : 0 (the early precursor of de novo lipogenesis pathway), C18 : 3n6 and C20 : 3n6 (both consistent with a high Δ6 desaturase (D6D) activity), and D6D activity itself were associated with a higher prevalence of MetS, while higher tertiles of C18 : 1n7, C24 : 0, and C24 : 1n9 (very long chain FA) as well as stearoyl-CoA desaturase (SCD)-18 were inversely associated with the MetS. CONCLUSIONS: This study shows that a wide-ranging plasma PL FA profile and estimated desaturase activities were different between adults with and without the MetS in a general representative population and implicates the importance of monitoring individual FAs and desaturase activities as novel modifiable biomarkers for the MetS. [ABSTRACT FROM AUTHOR]

Published

2022

247. Temperature gradient storage induced biochemical and molecular changes in mango (Mangifera indica L. cv. Alphonso) fruits.

Author

Shivashankar, Kodthalu Seetharamaiah, Geetha, Gouribidanur Ashwathappa, Ravishankar, Kundapura Venkataramana, Rao, Darisi Venkata Sudhakar, Pavithra, Kabbinahalli Chandre Gowda, and Roy, Tapas Kumar

Abstract

Mango fruit is severely affected by chilling injury during storage at low temperatures. The molecular and biochemical processes occurring in fruits during the course of chilling injury development are not yet completely understood. The current study was carried out using the fruits of mango cv. Alphonso. Fruits were exposed to two treatments comprising temperature gradient storage (TGS) and low-temperature (5 °C) storage for 10, 20 and 30 days and compared with the room-temperature ripened fruits (control). The generation of free radicals and the content of malondialdehyde (MDA), leakage of electrolytes (EL), fatty acids, chlorophyll and total carotenoids were significantly affected in 5 °C stored fruits compared to control and TGS. Significant increase was observed in free radical generation and antioxidant enzyme activities at 5 °C storage. Consequently, the peroxidation of lipids and protein carbonyls were also significantly higher in low-temperature stored fruits. Unsaturated fatty acids were markedly reduced during the first 20 days at 5 °C leading to severe membrane leakage compared to TGS. Gene expression of Fatty Acid Desaturase (FAD), Peroxidase (POD) and Glutathione Reductase (GR) correlated with the observed increase in the level of unsaturated fatty acids, indicating the roles of these enzymes in cold stress-induced membrane changes. Out study has shown that the TGS treatment significantly reduces chilling injury by increasing the unsaturated fatty acids and also by reducing the peroxidation of lipids and protein carbonyls when compared to storage at 5 °C. [ABSTRACT FROM AUTHOR]

Published

2022

248. Metabolomic Associations of Asthma in the Hispanic Community Health Study/Study of Latinos.

Author

Lee, Yura, Chen, Han, Chen, Wei, Qi, Qibin, Afshar, Majid, Cai, Jianwen, Daviglus, Martha L., Thyagarajan, Bharat, North, Kari E., London, Stephanie J., Boerwinkle, Eric, Celedón, Juan C., Kaplan, Robert C., and Yu, Bing

Subjects

HEALTH of Hispanic Americans, FATTY acid desaturase, METABOLOMICS, HISPANIC Americans, PUBLIC health

Abstract

Asthma disproportionally affects Hispanic and/or Latino backgrounds; however, the relation between circulating metabolites and asthma remains unclear. We conducted a cross-sectional study associating 640 individual serum metabolites, as well as twelve metabolite modules, with asthma in 3347 Hispanic/Latino background participants (514 asthmatics, 15.36%) from the Hispanic/Latino Community Health Study/Study of Latinos. Using survey logistic regression, per standard deviation (SD) increase in 1-arachidonoyl-GPA (20:4) was significantly associated with 32% high odds of asthma after accounting for clinical risk factors (p = 6.27 × 10−5), and per SD of the green module, constructed using weighted gene co-expression network, was suggestively associated with 25% high odds of asthma (p = 0.006). In the stratified analyses by sex and Hispanic and/or Latino backgrounds, the effect of 1-arachidonoyl-GPA (20:4) and the green module was predominantly observed in women (OR = 1.24 and 1.37, p < 0.001) and people of Cuban and Puerto-Rican backgrounds (OR = 1.25 and 1.27, p < 0.01). Mutations in Fatty Acid Desaturase 2 (FADS2) affected the levels of 1-arachidonoyl-GPA (20:4), and Mendelian Randomization analyses revealed that high genetically regulated 1-arachidonoyl-GPA (20:4) levels were associated with increased odds of asthma (p < 0.001). The findings reinforce a molecular basis for asthma etiology, and the potential causal effect of 1-arachidonoyl-GPA (20:4) on asthma provides an opportunity for future intervention. [ABSTRACT FROM AUTHOR]

Published

2022

249. Understanding and exploiting the fatty acid desaturation system in Rhodotorula toruloides

Author

Yanbin Liu, Chong Mei John Koh, Sihui Amy Yap, Lin Cai, and Lianghui Ji

Subjects

Fatty acid desaturase, Lipid, γ-Linolenic acid, Palmitoleic acid, Regulation, Fuel, TP315-360, Biotechnology, TP248.13-248.65

Abstract

Abstract Background Rhodotorula toruloides is a robust producer of triacylglycerol owing to its fast growth rate and strong metabolic flux under conditions of high cell density fermentation. However, the molecular basis of fatty acid biosynthesis, desaturation and regulation remains elusive. Results We present the molecular characterization of four fatty acid desaturase (FAD) genes in R. toruloides. Biosynthesis of oleic acid (OA) and palmitoleic acid (POA) was conferred by a single-copy ∆9 Fad (Ole1) as targeted deletion of which abolished the biosynthesis of all unsaturated fatty acids. Conversion of OA to linoleic acid (LA) and α-linolenic acid (ALA) was predominantly catalyzed by the bifunctional ∆12/∆15 Fad2. FAD4 was found to encode a trifunctional ∆9/∆12/∆15 FAD, playing important roles in lipid and biomass production as well as stress resistance. Furthermore, an abundantly transcribed OLE1-related gene, OLE2 encoding a 149-aa protein, was shown to regulate Ole1 regioselectivity. Like other fungi, the transcription of FAD genes was controlled by nitrogen levels and fatty acids in the medium. A conserved DNA motif, (T/C)(G/A)TTGCAGA(T/C)CCCAG, was demonstrated to mediate the transcription of OLE1 by POA/OA. The applications of these FAD genes were illustrated by engineering high-level production of OA and γ-linolenic acid (GLA). Conclusion Our work has gained novel insights on the transcriptional regulation of FAD genes, evolution of FAD enzymes and their roles in UFA biosynthesis, membrane stress resistance and, cell mass and total fatty acid production. Our findings should illuminate fatty acid metabolic engineering in R. toruloides and beyond.

Published

2021

250. Association between rs174537 FADS1 polymorphism and immune cell profiles in abdominal and femoral subcutaneous adipose tissue: an exploratory study in adults with obesity

Author

Chenxuan Wang, Jessica Murphy, Kerri Z. Delaney, Natalie Khor, José A. Morais, Michael A. Tsoukas, Dana E. Lowry, David M. Mutch, and Sylvia Santosa

Subjects

fatty acid desaturase, macrophage, t cell, white adipose tissue, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Cytology, QH573-671, Physiology, QP1-981

Abstract

Fatty acid desaturase 1 (FADS1) polymorphisms alter fatty acid content in subcutaneous adipose tissue (SAT); however, existing evidence is limited and conflicting regarding the association between FADS1 variants and SAT inflammatory status. To advance this area, we conducted an exploratory study to investigate whether the common rs174537 polymorphism in FADS1 was associated with immune cell profiles in abdominal and femoral SAT in individuals with obesity. FADS1 gene expression and immune cell profiles in SAT depots were assessed by qPCR and flow cytometry, respectively. Although FADS1 gene expression was associated with genotype, no associations were observed with immune cell profiles in either depot. Our study provides additional evidence that rs174537 in FADS1 has minimal impact on inflammatory status in obese SAT.

Published

2021