Your search keyword '"Laminaria metabolism"' showing total 91 results

1. Enhanced ileum function in weaned piglets via Laminaria digitata and alginate lyase dietary inclusion: A combined proteomics and metabolomics analysis.

Author

Ribeiro DM, Leclercq CC, Charton SAB, Costa MM, Carvalho DFP, Cocco E, Sergeant K, Renaut J, Freire JPB, Prates JAM, and de Almeida AM

Subjects

Animals, Swine, Proteomics, Diet, Dietary Supplements analysis, Ileum metabolism, Polysaccharides metabolism, Glucose, Animal Feed analysis, Laminaria chemistry, Laminaria metabolism, Seaweed chemistry, Seaweed metabolism

Abstract

Laminaria digitata, a brown seaweed with prebiotic properties, can potentially enhance the resilience of weaned piglets to nutritional distress. However, their cell wall polysaccharides elude digestion by monogastric animals' endogenous enzymes. In vitro studies suggest alginate lyase's ability to degrade such polysaccharides. This study aimed to assess the impact of a 10% dietary inclusion of L. digitata and alginate lyase supplementation on the ileum proteome and metabolome, adopting a hypothesis-generating approach. Findings indicated that control piglets escalated glucose usage as an enteric energy source, as evidenced by the increased abundance of PKLR and PCK2 proteins and decreased tissue glucose concentration. Additionally, the inclusion of seaweed fostered a rise in proteins linked to enhanced enterocyte structural integrity (ACTBL2, CRMP1, FLII, EML2 and MYLK), elevated peptidase activity (NAALADL1 and CAPNS1), and heightened anti-inflammatory activity (C3), underscoring improved intestinal function. In addition, seaweed-fed piglets showed a reduced abundance of proteins related to apoptosis (ERN2) and proteolysis (DPP4). Alginate lyase supplementation appeared to amplify the initial effects of seaweed-only feeding, by boosting the number of differential proteins within the same pathways. This amplification is potentially due to increased intracellular nutrient availability, making a compelling case for further exploration of this dietary approach. SIGNIFICANCE: Pig production used to rely heavily on antibiotics and zinc oxide to deal with post-weaning stress in a cost-effective way. Their negative repercussions on public health and the environment have motivated heavy restrictions, and a consequent search for alternative feed ingredients/supplements. One of such alternatives is Laminaria digitata, a brown seaweed whose prebiotic components that can help weaned piglets deal with nutritional stress, by improving their gut health and immune status. However, their recalcitrant cell walls have antinutritional properties, for which alginate lyase supplementation is a possible solution. By evaluating ileal metabolism as influenced by dietary seaweed and enzyme supplementation, we aim at discovering how the weaned piglet adapts to them and what are their effects on this important segment of the digestive system., Competing Interests: Declaration of Competing Interest None., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

2. Synchrotron X-rays reveal the modes of Fe binding and trace metal storage in the brown algae Laminaria digitata and Ectocarpus siliculosus.

Author

Mijovilovich A, Cloetens P, Lanzirotti A, Newville M, Wellenreuther G, Kumari P, Katsaros C, Carrano CJ, Küpper H, and Küpper FC

Subjects

X-Rays, Synchrotrons, Iron metabolism, Ferritins metabolism, Minerals metabolism, Kelp metabolism, Laminaria metabolism, Phaeophyceae metabolism, Trace Elements metabolism

Abstract

Iron is accumulated symplastically in kelp in a non-ferritin core that seems to be a general feature of brown algae. Microprobe studies show that Fe binding depends on tissue type. The sea is generally an iron-poor environment and brown algae were recognized in recent years for having a unique, ferritin-free iron storage system. Kelp (Laminaria digitata) and the filamentous brown alga Ectocarpus siliculosus were investigated using X-ray microprobe imaging and nanoprobe X-ray fluorescence tomography to explore the localization of iron, arsenic, strontium, and zinc, and micro-X-ray absorption near-edge structure (μXANES) to study Fe binding. Fe distribution in frozen hydrated environmental samples of both algae shows higher accumulation in the cortex with symplastic subcellular localization. This should be seen in the context of recent ultrastructural insight by cryofixation-freeze substitution that found a new type of cisternae that may have a storage function but differs from the apoplastic Fe accumulation found by conventional chemical fixation. Zn distribution co-localizes with Fe in E. siliculosus, whereas it is chiefly located in the L. digitata medulla, which is similar to As and Sr. Both As and Sr are mostly found at the cell wall of both algae. XANES spectra indicate that Fe in L. digitata is stored in a mineral non-ferritin core, due to the lack of ferritin-encoding genes. We show that the L. digitata cortex contains mostly a ferritin-like mineral, while the meristoderm may include an additional component., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2023

3. Fucoidan from Saccharina japonica Alleviates Hyperuricemia-Induced Renal Fibrosis through Inhibiting the JAK2/STAT3 Signaling Pathway.

Author

Sun L, Liu Q, Zhang Y, Xue M, Yan H, Qiu X, Tian Y, Zhang H, and Liang H

Subjects

Mice, Animals, Janus Kinase 2 genetics, Janus Kinase 2 metabolism, Uric Acid metabolism, Kidney metabolism, Fibrosis, Polysaccharides metabolism, Signal Transduction, Hyperuricemia, Laminaria metabolism, Renal Insufficiency, Chronic metabolism

Abstract

Fucoidan is a native sulfated polysaccharide mainly isolated from brown seaweed, with diverse pharmacological activities, such as anti-inflammatory and antifibrosis. Hyperuricemia (HUA) is a common metabolic disease worldwide and mainly causes hyperuricemic nephropathy, including chronic kidney disease and end-stage renal fibrosis. The present study investigated the protective function of fucoidan in renal fibrosis and its pharmacological mechanism. The renal fibrotic model was established with the administration of potassium oxonate for 10 weeks. The protein levels of related factors were assessed in HUA mice by an enzyme-linked immunosorbent assay (ELISA) and western blotting. The results showed that fucoidan significantly reduced the levels of serum uric acid, blood urea nitrogen (BUN), α-smooth muscle actin (α-SMA), and collagen I, and improved kidney pathological changes. Furthermore, renal fibrosis had been remarkably elevated through the inhibition of the epithelial-to-mesenchymal transition (EMT) progression after fucoidan intervention, suppressing the Janus kinase 2 (JAK2) signal transducer and activator of transcription protein 3 (STAT3) signaling pathway activation. Together, this study provides experimental evidence that fucoidan may protect against hyperuricemia-induced renal fibrosis via downregulation of the JAK2/STAT3 signaling pathway.

Published

2023

4. The Combined Metabolically Oriented Effect of Fucoidan from the Brown Alga Saccharina cichorioides and Its Carboxymethylated Derivative with 2-Deoxy-D-Glucose on Human Melanoma Cells.

Author

Malyarenko OS, Usoltseva RV, Silchenko AS, Zueva AO, and Ermakova SP

Subjects

Humans, Glucose metabolism, Cell Proliferation, Deoxyglucose pharmacology, Deoxyglucose therapeutic use, Cell Line, Tumor, Laminaria metabolism, Melanoma drug therapy, Melanoma metabolism

Abstract

Melanoma is the most aggressive and treatment-resistant form of skin cancer. It is phenotypically characterized by aerobic glycolysis that provides higher proliferative rates and resistance to cell death. The glycolysis regulation in melanoma cells by means of effective metabolic modifiers represents a promising therapeutic opportunity. This work aimed to assess the metabolically oriented effect and mechanism of action of fucoidan from the brown alga Saccharina cichorioides (ScF) and its carboxymethylated derivative (ScFCM) in combination with 2-deoxy-D-glucose (2-DG) on the proliferation and colony formation of human melanoma cell lines SK-MEL-28, SK-MEL-5, and RPMI-7951. The metabolic profile of melanoma cells was determined by the glucose uptake and Lactate-Glo TM assays. The effect of 2-DG, ScF, ScFCM, and their combination on the proliferation, colony formation, and activity of glycolytic enzymes was assessed by the MTS, soft agar, and Western blot methods, respectively. When applied separately, 2-DG (IC 50 at 72 h = 8.7 mM), ScF (IC 50 at 72 h > 800 µg/mL), and ScFCM (IC 50 at 72 h = 573.9 μg/mL) inhibited the proliferation and colony formation of SK-MEL-28 cells to varying degrees. ScF or ScFCM enhanced the inhibiting effect of 2-DG at low, non-toxic concentrations via the downregulation of Glut 1, Hexokinase II, PKM2, LDHA, and pyruvate dehydrogenase activities. The obtained results emphasize the potential of the use of 2-DG in combination with algal fucoidan or its derivative as metabolic modifiers for inhibition of melanoma SK-MEL-28 cell proliferation.

Published

2023

5. Inhibition of Ca 2+ -calpain signaling is a new mechanism using Laminaria japonica polysaccharide to prevent macrophage foam cell formation and atherosclerosis.

Author

Li XY, Kuang DD, Guo AJ, Deng YY, Pan LH, Li QM, Luo JP, and Zha XQ

Subjects

Animals, Mice, Foam Cells, Calpain metabolism, Calpain pharmacology, Macrophages, Lipoproteins, LDL metabolism, Signal Transduction, Polysaccharides pharmacology, Polysaccharides metabolism, Autophagy, Laminaria metabolism, Atherosclerosis drug therapy, Atherosclerosis metabolism

Abstract

The Ca 2+ -calpain signaling plays a pivotal role in regulating the upstream signaling pathway of cellular autophagy. The aim of the current work was to investigate the role of Ca 2+ -calpain signaling in the regulation of macrophage autophagy by a Laminaria japonica polysaccharide (LJP61A) in Ox-LDL induced macrophages and high fat diet fed atherosclerotic mice. Results revealed that the LJP61A markedly decreased the levels of intracellular Ca 2+ , calpain1, calpain2 and their downstream effectors (Gsα, cAMP and IP3), and simultaneously enhanced autophagy activity and lipid metabolism, thereby reducing lipid accumulation in the Ox-LDL stimulated macrophages and lipid-laden plaques in atherosclerotic mice. Moreover, BAPTA-AM (a Ca 2+ chelator) and calpeptin (a calpain inhibitor) synergistically strengthened the beneficial effects of LJP61A on autophagy and lipid metabolism by decreasing the levels of intracellular Ca 2+ , calpain1, calpain2, and their downstream effectors (Gsα, cAMP and IP3) induced by Ox-LDL. These findings suggested that the LJP61A suppressed macrophage derived foam cell formation and atherosclerosis by modulating the Ca 2+ -calpain-mediated autophagy.

Published

2023

6. Comparison of Fucoidans from Saccharina latissima Regarding Age-Related Macular Degeneration Relevant Pathomechanisms in Retinal Pigment Epithelium.

Author

Dörschmann P, Thalenhorst T, Seeba C, Tischhöfer MT, Neupane S, Roider J, Alban S, and Klettner A

Subjects

Humans, Animals, Swine, Retinal Pigment Epithelium metabolism, Vascular Endothelial Growth Factor A metabolism, Hydrogen Peroxide metabolism, Interleukin-8 metabolism, Laminaria metabolism, Macular Degeneration drug therapy, Macular Degeneration metabolism

Abstract

Fucoidans from brown algae are described as anti-inflammatory, antioxidative, and antiangiogenic. We tested two Saccharina latissima fucoidans (SL-FRO and SL-NOR) regarding their potential biological effects against age-related macular degeneration (AMD). Primary porcine retinal pigment epithelium (RPE), human RPE cell line ARPE-19, and human uveal melanoma cell line OMM-1 were used. Cell survival was assessed in tetrazolium assay (MTT). Oxidative stress assays were induced with erastin or H 2 O 2 . Supernatants were harvested to assess secreted vascular endothelial growth factor A (VEGF-A) in ELISA. Barrier function was assessed by measurement of trans-epithelial electrical resistance (TEER). Protectin (CD59) and retinal pigment epithelium-specific 65 kDa protein (RPE65) were evaluated in western blot. Polymorphonuclear elastase and complement inhibition assays were performed. Phagocytosis of photoreceptor outer segments was tested in a fluorescence assay. Secretion and expression of proinflammatory cytokines were assessed with ELISA and real-time PCR. Fucoidans were chemically analyzed. Neither toxic nor antioxidative effects were detected in ARPE-19 or OMM-1. Interleukin 8 gene expression was slightly reduced by SL-NOR but induced by SL-FRO in RPE. VEGF secretion was reduced in ARPE-19 by SL-FRO and in RPE by both fucoidans. Polyinosinic:polycytidylic acid induced interleukin 6 and interleukin 8 secretion was reduced by both fucoidans in RPE. CD59 expression was positively influenced by fucoidans, and they exhibited a complement and elastase inhibitory effect in cell-free assay. RPE65 expression was reduced by SL-NOR in RPE. Barrier function of RPE was transiently reduced. Phagocytosis ability was slightly reduced by both fucoidans in primary RPE but not in ARPE-19. Fucoidans from Saccharina latissima , especially SL-FRO, are promising agents against AMD, as they reduce angiogenic cytokines and show anti-inflammatory and complement inhibiting properties; however, potential effects on gene expression and RPE functions need to be considered for further research.

Published

2023

7. Nuclear-encoded CbbX located in chloroplast is essential for the activity of red-type Rubisco in Saccharina japonica.

Author

Bi YH, Feng B, Xie WY, Ouyang LL, Ye RX, and Zhou ZG

Subjects

Tissue Plasminogen Activator metabolism, Chloroplasts metabolism, Photosynthesis physiology, Plant Proteins genetics, Plant Proteins metabolism, Ribulose-Bisphosphate Carboxylase genetics, Ribulose-Bisphosphate Carboxylase metabolism, Laminaria metabolism

Abstract

Saccharina japonica (Laminariales, Phaeophyta) is a brown alga and the major component of algae beds on the northwest coast of the Pacific Ocean. Rubisco, the key enzyme of CO 2 fixation in photosynthesis, is inhibited by nonproductive binding of its substrate RuBP and other sugar phosphates. The inhibited Rubisco in eukaryotic phytoplankton of the red plastid lineage was reactivated by CbbXs, the red-type Rubisco activases, through the process of ATP-hydrolysis-powered remodeling. As well documented, CbbXs had two types of subunits encoded by the plastid or nuclear genome respectively. In this study, both proteins of S. japonica (SjCbbX-n and SjCbbX-p) were localized in the chloroplast illustrated by immuno-electron microscopy technique. GST pull-down detection verified SjCbbX-n could interact with SjCbbX-p. Two-dimensional electrophoresis-based Western blot analysis illustrated that the endogenous SjCbbXs could form heterohexamer in the ratio of 1:1. Activase activity assays showed that although both the recombinant proteins of SjCbbXs were functional, SjCbbX-n illustrated the significantly higher activase activity than SjCbbX-p. Notably, when the two proteins were mixed, the highest specific efficiencies of Rubisco were obtained. These results implied SjCbbX-n may be essential for Rubisco activation. Molecular evolutionary analysis of cbbx genes revealed that cbbx-n originated from the duplication of cbbx-p and then evolved independently under the positive selection pressure. This is the first report about the functional relationship between the two types of CbbXs in macroalge with the red-type Rubisco and provides useful information for revealing the mechanism of high photosynthetic efficiency of this important kelp., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2023

8. Impact of Monascus purpureus fermentation on antioxidant activity, free amino acid profiles and flavor properties of kelp (Saccharina japonica).

Author

Nie J, Fu X, Wang L, Xu J, and Gao X

Subjects

Amino Acids metabolism, Amino Acids, Essential metabolism, Antioxidants analysis, Fermentation, Flavonoids metabolism, Gas Chromatography-Mass Spectrometry, gamma-Aminobutyric Acid analysis, Kelp, Laminaria metabolism, Monascus metabolism, Volatile Organic Compounds analysis

Abstract

This study evaluated the efficacy of Monascus purpureus fermentation on Saccharina japonica (SJ). Healthy substances and antioxidant activity of fermented SJ (FSJ) were determined. Results showed that fermentation caused the release of phenolic compounds and flavonoids, which resulted in the enhancement of antioxidant activity. Essential amino acids and γ-aminobutyric acid also greatly accumulated in FSJ. Sensory evaluation and gas chromatography-ion mobility spectrometry (GC-IMS) were used to evaluate flavor properties of FSJ. A lexicon consisted of 24 descriptors was established for SJ and FSJ, of which 14 descriptors were regarded as odor attributes. A total of 46 volatile compounds were identified by GC-IMS and showed positive correlation with odor attributes. Fifteen volatile compounds were screened as key compounds, tricarboxylic acid cycle, embden-meyerhof-parnas and amino acid catabolism were main formation metabolisms of them. Advanced properties of FSJ indicated that fermentation is a promising approach for the production of SJ food., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

9. Identification of Bioactive Peptides from a Laminaria digitata Protein Hydrolysate Using In Silico and In Vitro Methods to Identify Angiotensin-1-Converting Enzyme (ACE-1) Inhibitory Peptides.

Author

Purcell D, Packer MA, and Hayes M

Subjects

Protein Hydrolysates chemistry, Peptidyl-Dipeptidase A chemistry, Peptides pharmacology, Angiotensins, Angiotensin-Converting Enzyme Inhibitors pharmacology, Laminaria metabolism

Abstract

Bioactive peptides range in size from 2-30 amino acids and may be derived from any protein-containing biomass using hydrolysis, fermentation or high-pressure processing. Pro-peptides or cryptides result in shorter peptide sequences following digestion and may have enhanced bioactivity. Previously, we identified a protein hydrolysate generated from Laminaria digitata that inhibited ACE-1 in vitro and had an ACE-1 IC 50 value of 590 µg/mL compared to an ACE-1 IC 50 value of 500 µg/mL (~2.3 µM) observed for the anti-hypertensive drug Captopril©. A number of peptide sequences (130 in total) were identified using mass spectrometry from a 3 kDa permeate of this hydrolysate. Predicted bioactivities for these peptides were determined using an in silico strategy previously published by this group utilizing available databases including Expasy peptide cutter, BIOPEP and Peptide Ranker. Peptide sequences YIGNNPAKGGLF and IGNNPAKGGLF had Peptide Ranker scores of 0.81 and 0.80, respectively, and were chemically synthesized. Synthesized peptides were evaluated for ACE-1 inhibitory activity in vitro and were found to inhibit ACE-1 by 80 ± 8% and 91 ± 16%, respectively. The observed ACE-1 IC 50 values for IGNNPAKGGLF and YIGNNPAKGGLF were determined as 174.4 µg/mL and 133.1 µg/mL. Both peptides produced sequences following simulated digestion with the potential to inhibit Dipeptidyl peptidase IV (DPP-IV).

Published

2023

10. Interaction of High-Molecular Weight Fucoidan from Laminaria hyperborea with Natural Functions of the Retinal Pigment Epithelium.

Author

Dörschmann P, Kopplin G, Roider J, and Klettner A

Subjects

Swine, Animals, Vascular Endothelial Growth Factor A metabolism, Interleukin-8 metabolism, Molecular Weight, Interleukin-6 metabolism, Polysaccharides pharmacology, Polysaccharides metabolism, Vascular Endothelial Growth Factors metabolism, Cells, Cultured, Retinal Pigment Epithelium metabolism, Laminaria metabolism

Abstract

Fucoidans are polysaccharides and constituents of cell walls of brown algae such as Laminaria hyperborea (LH). They exhibit promising effects regarding age-related macular degeneration (AMD). However, the safety of this compound needs to be assured. The focus of this study lies on influences of an LH fucoidan on the retinal pigment epithelium (RPE). The high-molecular weight LH fucoidan Fuc1 was applied to primary porcine RPE cells, and a tetrazolium (MTT) cell viability assay was conducted. Further tests included a scratch assay to measure wound healing, Western blotting to measure expression of retinal pigment epithelium-specific 65 kDa protein (RPE65), as well as immunofluorescence to measure uptake of opsonized fluorescence beads into RPE cells. Lipopolysaccharide was used to proinflammatorily activate the RPE, and interleukin 6 (IL-6) and interleukin 8 (IL-8) secretion was measured. RPE/choroid cultures were used to assess vascular endothelial growth factor (VEGF) secretion. Real-time polymerase chain reaction (real-time PCR) was performed to detect the gene expression of 91 different genes in a specific porcine RPE gene array. Fuc1 slightly reduced wound healing, but did not influence cell viability, phagocytosis or RPE65 expression. Fuc1 lowered IL-6, IL-8 and VEGF secretion. Furthermore, Fuc1 did not change tested RPE genes. In conclusion, Fuc1 does not impair RPE cellular functions and shows antiangiogenic and anti-inflammatory activities, which indicates its safety and strengthens its suitability concerning ocular diseases.

Published

2023

11. Carbon sequestration from refractory dissolved organic carbon produced by biodegradation of Saccharina japonica.

Author

Zhang M, Qin H, Ma Y, Qi Y, Zhao Y, Wang Z, and Li B

Subjects

Humans, Dissolved Organic Matter, Carbon Sequestration, Carbon metabolism, Water, Hypoxia, Laminaria metabolism, Kelp

Abstract

Using macroalgae cultures to sequester carbon has been proposed in recent years. Yet the key mechanism of carbon sequestration-how carbon in degrading biomass is converted into refractory dissolved organic carbon (RDOC) remains poorly understood. The process of producting RDOC via biomass degradation of Saccharina japonica, the most productive algae in China, was thus studied in the laboratory. Most of the carbon in the kelp biomass was converted to dissolved inorganic carbon (DIC) by bacterial respiration. Only 7.8% of the carbon in the kelp biomass was converted into labile DOC, semi-labile or semi-refractory DOC, and refractory DOC in turn. The enrichment of DIC resulted in hypoxic conditions in the water. For the hypoxia in the experiment, the sulfur-degrading bacteria Campylobacteria and Bacteroidia became the dominant bacterial classes, which were the key drivers for the transformation of labile DOC to semi-labile or semi-refractory DOC. Then, semi-labile or semi-refractory DOC was converted to RDOC, driven by the sulfite-reducing bacteria Clostridia and Kapabacteria. Finally, 0.3% of the carbon content in kelp was transformed into RDOC. The resulting RDOC, which was rich in sulfur and nitrogen elements, increased the molecular diversity and average molecular weight in the water. An important finding was that the production of RDOC may be accompanied by the environmental risk of hypoxia., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2023

12. Replacing starch with resistant starch (Laminaria japonica) improves water quality, nitrogen and phosphorus budget and microbial community in hybrid snakehead (Channa maculata ♀ × Channa argus ♂).

Author

Wang S, Zuo Z, Wang Q, Zhou A, Wang G, Xu G, and Zou J

Subjects

Animals, Animal Feed analysis, Fishes metabolism, Nitrogen metabolism, Phosphorus, Resistant Starch, Starch, Water Quality, Laminaria metabolism, Microbiota

Abstract

It is essential to increase the use of carbohydrates as an energy source and improve protein synthesis and utilization to reduce ammonia nitrogen emissions. A 60-day cultural experiment was conducted to assess the impact of resistant starch (kelp meal, Laminaria japonica) replacing starch on water quality, nitrogen and phosphorus budget and microbial community of hybrid snakehead. Approximately 1350 experimental fish (11.4 ± 0.15 g) were randomly divided into control group (C, 20% starch) and four resistant starch groups: low replacement group (LR, 15% starch), medium replacement group (MR, 10% starch), high replacement group (HR, 5% starch) and full replacement group (FR, 0% starch). The crude protein and crude fat content of hybrid snakehead fish fed with the FR diet had the most significant improvement (P < 0.05). However, resistant starch also increased the effectiveness of nitrogen and phosphorus utilization in hybrid snakeheads, which decreased the proportion of total nitrogen and total phosphorus in tail water. The minimum nitrogen and phosphorus emission rate was when the starch level was 6.1%. Denitrifying microbes including Gemmobacter, Rhodobacter, Emticicia and Bosea have become much more prevalent in group FR (P < 0.05). In general, replacing starch with resistant starch can enhance the rate at which nitrogen and phosphorus are used in feeding, lessening water pollution and altering environmental microbial composition. PRACTITIONER POINTS: Resistant starch (RS) improves whole fish nutritional content. Resistant starch improves dietary nitrogen and phosphorus utilization. Resistant starch acts as a carbon source and encourages the colonization of denitrifying bacteria in water., (© 2023 Water Environment Federation.)

Published

2023

13. Characterization of a bifunctional and endolytic alginate lyase from Microbulbifer sp. ALW1 and its application in alginate oligosaccharides production from Laminaria japonica.

Author

Li H, Huang X, Yao S, Zhang C, Hong X, Wu T, Jiang Z, Ni H, and Zhu Y

Subjects

Alginates metabolism, Amino Acids, Antioxidants, Bacterial Proteins chemistry, Escherichia coli genetics, Escherichia coli metabolism, Hydrogen-Ion Concentration, Octoxynol, Oligosaccharides metabolism, Polysaccharide-Lyases chemistry, Polysorbates, Substrate Specificity, Surface-Active Agents, Temperature, Alteromonadaceae, Laminaria metabolism

Abstract

The diverse biological activities of alginate oligosaccharides attracted extensive exploration of alginate lyases with various substrate specificity and enzymatic properties. In this study, an alginate lyase from Microbulbifer sp. ALW1, namely AlgL7, was phylogenetically classified into the polysaccharide lyase family 7 (PL7). The conserved amino acid residues Tyr606 and His499 in AlgL7 were predicted to act as the general acid/base catalysts. The enzyme was enzymatically characterized after heterologous expression and purification in E. coli. AlgL7 displayed optimal activity at 40 °C and pH 7.0. It had good stability at temperature below 35 °C and within a pH range of 5.0-10.0. AlgL7 exhibited good stability against the reducing reagent β-ME and the surfactants of Tween-20 and Triton X-100. The degradation profiles of alginate indicated AlgL7 was a bifunctional endolytic alginate lyase generating alginate oligosaccharides with the degrees of polymerization 2-4. The degradation products of sodium alginate exhibited stronger antioxidant activities than the untreated polysaccharide. In addition, AlgL7 could directly digest Laminaria japonica to produce alginate oligosaccharides. These characteristics of AlgL7 offer a great potential of its application in high-value utilization of brown algae resources., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

14. Sulfated Fucogalactan From Laminaria Japonica Ameliorates β-Cell Failure by Attenuating Mitochondrial Dysfunction via SIRT1-PGC1-α Signaling Pathway Activation.

Author

Wu N, Jin W, Zhao Y, Wang H, He S, Zhang W, and Zhou J

Subjects

Animals, Galactans, Humans, Hydrogen Peroxide pharmacology, Mice, Mitochondria metabolism, Signal Transduction, Sirtuin 1 metabolism, Sulfates metabolism, Sulfates pharmacology, Diabetes Mellitus, Type 2 metabolism, Laminaria metabolism

Abstract

As mitochondrial metabolism is a major determinant of β-cell insulin secretion, mitochondrial dysfunction underlies β-cell failure and type 2 diabetes mellitus progression. An algal polysaccharide of Laminaria japonica , sulfated fucogalactan (SFG) displays various pharmacological effects in a variety of conditions, including metabolic disease. We investigated the protective effects of SFG against hydrogen peroxide (H 2 O 2 )-induced β-cell failure in MIN6 cells and islets. SFG significantly promoted the H 2 O 2 -inhibited proliferation in the cells and ameliorated their senescence, and potentiated β-cell function by regulating β-cell identity and the insulin exocytosis-related genes and proteins in H 2 O 2 -induced β-cells. SFG also attenuated mitochondrial dysfunction, including alterations in ATP content, mitochondrial respiratory chain genes and proteins expression, and reactive oxygen species and superoxide dismutase levels. Furthermore, SFG resulted in SIRT1-PGC1-α pathway activation and upregulated the downstream Nrf2 and Tfam. Taken together, the results show that SFG attenuates H 2 O 2 -induced β-cell failure by improving mitochondrial function via SIRT1-PGC1-α signaling pathway activation. Therefore, SFG is implicated as a potential agent for treating pancreatic β-cell failure., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Wu, Jin, Zhao, Wang, He, Zhang and Zhou.)

Published

2022

15. Combined effects of dietary Laminaria digitata with alginate lyase on plasma metabolites and hepatic lipid, pigment and mineral composition of broilers.

Author

Costa MM, Lopes PA, Assunção JMP, Alfaia CMRPM, Coelho DFM, Mourato MP, Pinto RMA, Lordelo MM, and Prates JAM

Subjects

Animals, Chickens, Diet veterinary, Fatty Acids metabolism, Female, Iron, Liver metabolism, Male, Minerals, Polysaccharide-Lyases, Laminaria metabolism

Abstract

Background: The Laminaria digitata is an abundant macroalga and a sustainable feedstock for poultry nutrition. L. digitata is a good source of essential amino acids, carbohydrates and vitamins, including A, D, E, and K, as well as triacylglycerols and minerals, in particular iron and calcium. However, the few studies available in the literature with broilers document the application of this macroalga as a dietary supplement rather than a feed ingredient. No study has addressed up until now the effects of a high-level incorporation (> 2% in the diet) of L. digitata on plasma biochemical markers and hepatic lipid composition, as well as minerals and pigments profile in the liver of broilers. Our experimental design included one hundred and twenty Ross 308 male birds contained in 40 wired-floor cages and distributed to the following diets at 22 days of age (n = 10) for 15 days: 1) a corn-soybean basal diet (Control); 2) the basal diet plus 15% of L. digitata (LA); 3) the basal diet plus 15% of L. digitata with 0.005% of Rovabio® Excel AP (LAR); and 4) the basal diet plus 15% of L. digitata with 0.01% of the recombinant CAZyme, alginate lyase (LAE)., Results: L. digitata compromised birds' growth performance by causing a reduction in final body weight. It was found an increase in hepatic n-3 and n-6 fatty acids, in particular C18:2n-6, C18:3n-6, C20:4n-6, C20:5n-3, C22:5n-3 and C22:6n-3 with the addition of the macroalga, with or without feed enzymes, to the broiler diets. Also, the beneficial C18:3n-3 fatty acid was increased by combining L. digitata and commercial Rovabio® Excel AP compared to the control diet. The sum of SFA, MUFA and the n-6/n-3 PUFA ratio were decreased by L. digitata, regardless the addition of exogenous enzymes. β-carotene was enhanced by L. digitata, individually or combined with CAZymes, being also responsible for a positive increase in total pigments. Macrominerals, in particular phosphorous and sulphur, were increased in the liver of broilers fed L. digitata individually relative to the control. For microminerals, copper, iron and the correspondent sum were consistently elevated in the liver of broilers fed L. digitata, individually or combined with exogenous CAZymes. The powerful discriminant analysis tool based on the hepatic characterization revealed a good separation between the control group and L. digitata diets but failed to discriminate the addition of feed enzymes., Conclusions: Overall, this study highlights the value of L. digitata as a feed ingredient for the poultry industry. Moreover, we can conclude that the effect of L. digitata overpowers the effect of feed enzymes, both the Rovabio® Excel AP and the alginate lyase. Having in mind the negative effects observed on birds' performance, our main recommendation at this stage is to restraint L. digitata incorporation level in forthcoming nutritional studies., (© 2022. The Author(s).)

Published

2022

16. Laminaria japonica fucoidan ameliorates cyclophosphamide-induced liver and kidney injury possibly by regulating Nrf2/HO-1 and TLR4/NF-κB signaling pathways.

Author

Tian S, Jiang X, Tang Y, and Han T

Subjects

Animals, Cyclophosphamide toxicity, Kidney metabolism, Liver metabolism, Male, Mice, Mice, Inbred ICR, NF-kappa B genetics, NF-kappa B metabolism, Polysaccharides, Signal Transduction, Toll-Like Receptor 4 genetics, Laminaria metabolism, NF-E2-Related Factor 2 genetics, NF-E2-Related Factor 2 metabolism

Abstract

Background: During clinical practice, cyclophosphamide (CTX) can lead to liver and kidney injury in vivo. In this study, we established a liver and kidney injury model by injecting CTX (80 mg kg -1  d -1 ) into male ICR mice, and then mice were treated with saline and fucoidan (20 or 40 mg kg -1 ), respectively. Subsequently, the liver and kidney toxicity indices, the expression levels of malonic dialdehyde (MDA), inflammatory factors, and the main protein levels of the Nrf2/HO-1 and TLR4/NF-κB pathways were determined., Results: Our results indicated that fucoidan could significantly decrease serum levels of alanine aminotransferase (ALT), aspartate aminotransferase (AST), creatinine (CRE), and urea (BUN) in the test group compared to the model group. Fucoidan administration caused reductions in MDA, interleukin-6 (IL-6), IL-1β, and tumor necrosis factor alpha (TNF-α) levels and improved superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT) activities in the liver and kidney of CTX-induced mice. Fucoidan up-regulated the Nrf2/HO-1 pathway and enhanced the protein levels of Nrf2, HO-1, GCLM, and NQO1. Moreover, fucoidan down-regulated the TLR4/NF-κB pathway, as indicated by decreased levels of TLR4, NF-κB p65, NF-κB p50, and increased IκBα level in liver and kidney tissues., Conclusion: Our studies suggest that fucoidan can ameliorate CTX-induced liver and kidney injury, potentially via up-regulating the Nrf2/HO-1 pathway and inhibiting the TLR4/NF-κB pathway. © 2021 Society of Chemical Industry., (© 2021 Society of Chemical Industry.)

Published

2022

17. Regulatory Effects of Functional Soluble Dietary Fiber from Saccharina japonica Byproduct on the Liver of Obese Mice with Type 2 Diabetes Mellitus.

Author

Zhang L, Wang X, He Y, Cao J, Wang K, Lin H, Qu C, and Miao J

Subjects

Animals, Chromatography, High Pressure Liquid, Diabetes Mellitus, Experimental complications, Diabetes Mellitus, Experimental drug therapy, Diabetes Mellitus, Type 2 complications, Female, Liver metabolism, Mice, Mice, Obese, Tandem Mass Spectrometry, Diabetes Mellitus, Type 2 drug therapy, Dietary Fiber pharmacology, Laminaria metabolism, Liver drug effects

Abstract

Though the relationship between dietary fiber and physical health has been investigated widely, the use of dietary fiber from marine plants has been investigated relatively rarely. The Saccharina japonica byproducts after the production of algin contain a large amount of insoluble polysaccharide, which will cause a waste of resources if ignored. Soluble dietary fiber (SDF)prepared from waste byproducts of Saccharina japonica by alkaline hydrolysis method for the first time had a wrinkled microscopic surface and low crystallinity, which not only significantly reduced liver index, serum levels of aspartate aminotransferase (AST) and alanine amiotransferase (ALT), and liver fat accumulation damage to the livers of obese diabetic mice, but also activated the PI3K/AKT signaling pathway to increase liver glycogen synthesis and glycolysis. By LC-MS/MS employing a Nexera UPLC tandem QE high-resolution mass spectrometer, the 6 potential biomarker metabolites were screened, namely glycerophosphocholine (GPC), phosphocholine (PCho), pantothenic acid, glutathione (GSH), oxidized glutathione (GSSG), and betaine; several pathways of these metabolites were associated with lipid metabolism, glycogen metabolism, and amino acid metabolism in the liver were observed. This study further provided a detailed insight into the mechanisms of SDF from Saccharina japonica byproducts in regulating the livers of obese mice with type 2 diabetes and laid a reliable foundation for the further development and utilization of Saccharina japonica .

Published

2022

18. Physicochemical Properties of the Soluble Dietary Fiber from Laminaria japonica and Its Role in the Regulation of Type 2 Diabetes Mice.

Author

Wang X, Zhang L, Qin L, Wang Y, Chen F, Qu C, and Miao J

Subjects

Animals, Chemical Phenomena, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Type 2 metabolism, Dietary Fiber metabolism, Disease Models, Animal, Mice, Plant Extracts metabolism, Diabetes Mellitus, Experimental diet therapy, Diabetes Mellitus, Type 2 diet therapy, Dietary Fiber pharmacology, Laminaria metabolism, Plant Extracts pharmacology

Abstract

Laminaria japonica is a large marine brown alga that is annually highly productive. However, due to its underutilization, its potential value is substantially wasted. For example, a lot of Laminaria japonica cellulose remains unused during production of algin. The soluble dietary fiber (SDF) was prepared from the byproducts of Laminaria japonica , and its physicochemical properties were explored. SDF exhibits good water-holding, oil-holding, water-absorbing swelling, glucose and cholesterol absorption capacity, and inhibitory activity of α-amylase and α-glucosidase. In addition, the beneficial effects of SDF in diabetic mice include reduced body weight, lower blood glucose, and relieved insulin resistance. Finally, the intestinal flora and metabolomic products were analyzed from feces using 16S amplicon and LC-MS/MS, respectively. SDF not only significantly changed the composition and structure of intestinal flora and intestinal metabolites, but also significantly increased the abundance of beneficial bacteria Akkermansia , Odoribacter and Bacteroides , decreased the abundance of harmful bacteria Staphylococcus , and increased the content of bioactive substances in intestinal tract, such as harmine, magnolol, arachidonic acid, prostaglandin E2, urimorelin and azelaic acid. Taken together, these findings suggest that dietary intake of SDF alleviates type 2 diabetes mellitus disease, and provides an important theoretical basis for SDF to be used as a functional food.

Published

2022

19. A low molecular weight brown algae Laminaria japonica glycan modulation of gut microbiota and body weight in mice.

Author

Jin Z, Fang Z, Pei Z, Wang H, Zhu J, Lee YK, Zhang H, Zhao J, Lu W, and Chen W

Subjects

Animals, Male, Mice, Mice, Inbred BALB C, Models, Animal, Body Weight drug effects, Gastrointestinal Microbiome drug effects, Laminaria metabolism, Polysaccharides metabolism

Abstract

Brown algae glycan from Laminaria japonica (LJNP) is a heterogeneous glycan with two apparent molecular weights of 1.1 and 37.3 kDa, and is mainly composed of α β-glucan and a few fucosyl residues. To explore the regulation of gut microbiota and the host, LJNP and 2'-fucosyllactose (2'FL) were compared to investigate their effect on mice via oral administration. Using metagenomic and metabolomic analyses, we found that 2'FL mainly relied on Adlercreutzia equolifaciens and Akkermansia muciniphila to improve gut amino acid and bile acid metabolism, whereas LJNP mainly drove Bacteroides vulgatus and Bacteroides uniformis to regulate gut amino acid metabolism and glycometabolism. Moreover, LJNP showed a weight loss effect and better protection of the intestinal barrier than 2'FL. We further employed LJNP and 2'FL on a germ-free mice model. Interestingly, the body weight management was not microbiome mediated. This study showed that LJNP can ameliorate the intestinal barrier through modulation of the gut microbiota, maintain the blood glucose level, and regulate body weight and the antioxidant function. Although the benefits of LJNP on host health were partly revealed, mechanisms such as the weight loss effect require further study.

Published

2021

20. Secondary metabolites of Galactomyces geotrichum from Laminaria japonica ameliorate cognitive deficits and brain oxidative stress in D-galactose induced Alzheimer's disease mouse model.

Author

Wang F, Wang F, and Chen T

Subjects

Acetylcholinesterase metabolism, Animals, Brain metabolism, Cognition, Disease Models, Animal, Galactose pharmacology, Geotrichum, Maze Learning, Mice, Oxidative Stress, Alzheimer Disease chemically induced, Alzheimer Disease drug therapy, Cognitive Dysfunction drug therapy, Laminaria metabolism, Neuroprotective Agents pharmacology, Neuroprotective Agents therapeutic use

Abstract

Accumulating evidences have shown the beneficial effects of natural products for Alzheimer's disease (AD) treatment. The present study was designed to investigate the neuroprotective effects of secondary metabolites of Galactomyces geotrichum (SMGG) on D-galactose induced AD mice. SMGG was extracted and its toxicological evaluation was conducted. To explore the neuroprotective mechanism responsible for anti-AD activity of SMGG, spatial learning and memory behavioral, oxidative stress levels, acetylcholinesterase and choline acetyltransferase activity assays were employed. The AD mice received SMGG treatment exhibited significant improvement in cognitive performance, enhanced antioxidant capacity, decreased acetylcholinesterase activity and increased choline acetyltransferase activity. Meanwhile, SMGG had no toxicity and seven compounds were separated from it: 7,8-dimethyl-iso-alloxazine, 1-methyl-3-benzyl-6-(4-hydroxybenzyl)-2,5-piperzainedione, cyclo-(Phe-Pro), cyclo-(Leu-Pro), cyclo-(Pro-Gly), cyclo-(Gly-Leu) and uracil, respectively. Overall, these data suggested that SMGG protects the brain against D-galactose induced cognitive impairment, oxidative damages and acetylcholine content decrease in AD mice.

Published

2021

21. The beneficial effects of Lactobacillus brevis FZU0713-fermented Laminaria japonica on lipid metabolism and intestinal microbiota in hyperlipidemic rats fed with a high-fat diet.

Author

Zhang Q, Fan XY, Cao YJ, Zheng TT, Cheng WJ, Chen LJ, Lv XC, Ni L, Rao PF, and Liang P

Subjects

Administration, Oral, Animals, Disease Models, Animal, Fermentation, Hyperlipidemias blood, Male, Rats, Diet, High-Fat, Gastrointestinal Microbiome drug effects, Hyperlipidemias metabolism, Levilactobacillus brevis metabolism, Laminaria metabolism, Lipid Metabolism drug effects

Abstract

This study aimed to investigate the beneficial effects of the oral administration of Lactobacillus brevis FZU0713-fermented Laminaria japonica (FLJ) on lipid metabolism and intestinal microbiota in hyperlipidemic rats fed with a high-fat diet (HFD). The results demonstrated that the oral administration of FLJ significantly inhibited obesity and improved the serum and hepatic biochemical parameters in HFD-fed rats. Histopathological results also indicated that FLJ intervention could significantly reduce the accumulation of lipid droplets in the liver induced by HFD feeding. Furthermore, FLJ intervention up-regulated the fecal short-chain fatty acid (SCFA) levels (mainly acetate, propionate and isobutyrate) in HFD-fed rats. Intestinal microbiota profiling by 16S rRNA gene sequencing revealed that FLJ intervention increased the relative abundance of Akkermansia, Collinsella, Ruminococcaceae&#95;UCG-013, Defluviitaleaceae&#95;UCG-011, Intestinimonas, Actinomyces and Tyzzerella, but decreased the abundance of Flavonifractor, Collinsella, Sporosarcina and Lacticigenium. Based on Spearman's correlation, the fecal levels of TC, TG, acetic acid and butyric acid were positively correlated with the relative abundance of Akkermansia and Ruminococcaceae&#95;NK4A214, but negatively correlated with the relative amount of Flavonifractor and Collinsella. The metabolic function of intestinal microbiota predicted by PICRUSt analysis of 16S rRNA gene sequences demonstrated that primary and secondary bile acid biosyntheses, fatty acid biosynthesis, taurine and hypotaurine metabolism, arachidonic acid metabolism, glycolysis/gluconeogenesis, etc. were significantly down-regulated after 8 weeks of FLJ intervention. Additionally, FLJ intervention significantly regulated the hepatic mRNA levels (including BSEP, CYP7A1, LDLR, HMGCR, CD36 and SREBP1-C) involved in lipid metabolism and bile acid homeostasis. In conclusion, these findings support the possibility that Laminaria japonica fermented with probiotic Lactobacillus has the potential to reduce the disturbance of lipid metabolism by regulating intestinal microflora and liver gene expression profiles, so it can be employed as a potential functional food to prevent hyperlipidemia.

Published

2021

22. Laminaria japonica polysaccharide prevents high-fat-diet-induced insulin resistance in mice via regulating gut microbiota.

Author

Li QM, Zha XQ, Zhang WN, Liu J, Pan LH, and Luo JP

Subjects

Animals, Atherosclerosis prevention & control, Dietary Carbohydrates pharmacology, Dysbiosis, Feces microbiology, Homeostasis, Inflammation, Male, Metabolic Diseases pathology, Metabolic Diseases prevention & control, Mice, Mice, Inbred C57BL, Obesity prevention & control, Diet, High-Fat adverse effects, Gastrointestinal Microbiome drug effects, Insulin Resistance, Laminaria metabolism, Polysaccharides pharmacology

Abstract

Insulin resistance has become a worldwide nutrition and metabolic health problem due to the lack of effective protective agents. Laminaria japonica is a well-known marine vegetable. Purified Laminaria japonica polysaccharide (LJP61A) can inhibit atherosclerosis in high-fat-diet (HFD)-fed mice via ameliorating insulin resistance. In this study, we aimed to clarify the mechanism by which LJP61A ameliorates HFD-induced insulin resistance. The results indicated that HFD-induced insulin resistance, obesity, systematic inflammation, metabolic endotoxemia, and gut permeability in mice could be reduced by LJP61A. Gut microbiota analysis showed that the gut microbiota dysbiosis of HFD-fed mice, especially the reduction in mucin-degrading Akkermansia, could be reversed by LJP61A. Additionally, the reduction in mucin-producing goblet cells in HFD-fed mice could also be reversed by LJP61A. Moreover, insulin resistance, obesity, systematic inflammation, metabolic endotoxemia, and gut microbiota dysbiosis in HFD-fed mice could also be alleviated by faecal transplant from LJP61A-treated mice. Overall, LJP61A might be used as a prebiotic to ameliorate HFD-induced insulin resistance and associated metabolic disorders via regulating gut microbiota, especially Akkermansia.

Published

2021

23. An individual alginate lyase is effective in the disruption of Laminaria digitata recalcitrant cell wall.

Author

Costa M, Pio L, Bule P, Cardoso V, Alfaia CM, Coelho D, Brás J, Fontes CMGA, and Prates JAM

Subjects

Electrophoresis, Polyacrylamide Gel, Enzyme Stability, Fatty Acids metabolism, Pigments, Biological metabolism, Proteins metabolism, Proteolysis, Cell Wall metabolism, Laminaria metabolism, Polysaccharide-Lyases metabolism

Abstract

In the present study, 199 pre-selected Carbohydrate-Active enZymes (CAZymes) and sulfatases were assessed, either alone or in combination, to evaluate their capacity to disrupt Laminaria digitata cell wall, with the consequent release of interesting nutritional compounds. A previously characterized individual alginate lyase, belonging to the family 7 of polysaccharide lyases (PL7) and produced by Saccharophagus degradans, was shown to be the most efficient in the in vitro degradation of L. digitata cell wall. The alginate lyase treatment, compared to the control, released up to 7.11 g/L of reducing sugars (p < 0.001) and 8.59 mmol/100 g dried alga of monosaccharides (p < 0.001), and reduced cell wall fluorescence intensity by 39.1% after staining with Calcofluor White (p = 0.001). The hydrolysis of gel-forming polymer alginate by the alginate lyase treatment could prevent the trapping of fatty acids and release beneficial monounsaturated fatty acids, particularly 18:1c9 (p < 0.001), to the extracellular medium. However, no liberation of proteins (p > 0.170) or pigments (p > 0.070) was observed. Overall, these results show the ability of an individual alginate lyase, from PL7 family, to partially degrade L. digitata cell wall under physiological conditions. Therefore, this CAZyme can potentially improve the bioavailability of L. digitata bioactive compounds for monogastric diets, with further application in feed industry.

Published

2021

24. Seasonal Variation of the Proximate Composition, Mineral Content, Fatty Acid Profiles and Other Phytochemical Constituents of Selected Brown Macroalgae.

Author

Garcia-Vaquero M, Rajauria G, Miranda M, Sweeney T, Lopez-Alonso M, and O'Doherty J

Subjects

Antioxidants analysis, Climate, Fatty Acids analysis, Minerals analysis, Species Specificity, Ascophyllum metabolism, Laminaria metabolism, Nutritive Value, Phytochemicals analysis, Seasons

Abstract

The main objective was to determine the chemical, phytochemical, fatty acid and mineral profiles of three commercially relevant brown macroalgae ( Laminaria digitata , Laminaria hyperborea and Ascophyllum nodosum ) collected each season for two years off the west coast of Ireland. All the chemical, phytochemical, fatty acid and minerals analysed varied significantly depending on the macroalgal species, season and year of collection. Overall, the protein contents of macroalgae were negatively correlated with carbohydrate content. Protein (2-11%) was at its highest during winter and/or spring, decreasing to a minimum during summer and/or autumn. The three macroalgal species analysed in this study had clearly differentiated fatty acid profiles. The concentration of fatty acids was higher in A. nodosum compared with both Laminaria species. The mineral profile of the three macroalgal species was rich in essential metals, particularly Ca, Mg and P, while the levels of I were approximately 9- to 10-fold higher in both Laminaria spp. compared with A. nodosum . The levels of toxic metals (Cd, Hg and Pb) in all the macroalgal species studied were low in the current study; while the levels of total As were high (49-64 mg/kg DW macroalgae) compared with previous reports.

Published

2021

25. Magnesium bioavailability of dried and thinly shaved kombu in rats.

Author

Nishiyama M, Funaba M, and Matsui T

Subjects

Animals, Biological Availability, Laminaria chemistry, Magnesium analysis, Male, Minerals analysis, Minerals metabolism, Rats, Rats, Sprague-Dawley, Seaweed chemistry, Laminaria metabolism, Magnesium metabolism, Seaweed metabolism

Abstract

Background: Magnesium (Mg) is highly bioavailable in kombu compared with other edible seaweeds. However, a considerable amount of Mg is lost during industrial processing and cooking of kombu. We hypothesized that thinly shaved kombu (TSK), a traditional Japanese kombu product, is a suitable Mg source for daily diets because TSK hardly loses Mg during processing. Rats were fed diets containing TSK or magnesium oxide (MgO) to satisfy 25%, 50%, 75%, or 100% of their Mg requirements. We determined the relative Mg bioavailability of TSK compared to MgO and examined factors affecting Mg bioavailability in TSK., Results: The relative bioavailability of Mg in TSK compared with MgO was calculated as 92.3%, 111.4%, and 87.2% from apparent absorption, urinary excretion, and femoral concentration of Mg, respectively. The ultrafiltrable Mg concentration was lower in the cecal content of rats given TSK than those given MgO. However, the mRNA expression of TRPM6, an Mg channel responsible for Mg absorption, was higher in the cecum of rats given TSK than those given MgO., Conclusion: Enhancement of TRPM6 expression in the large intestine negates the low bioaccessibility of Mg in TSK, and thus TSK shows Mg bioavailability comparable with MgO. © 2020 Society of Chemical Industry., (© 2020 Society of Chemical Industry.)

Published

2021

26. Physical Stress Induced Reduction of Proliferating Cells and Differentiated Neuroblasts Is Ameliorated by Fermented Laminaria japonica Extract Treatment.

Author

Jung HY, Kim W, Kwon HJ, Yoo DY, Nam SM, Hahn KR, Yi SS, Choi JH, Kim DW, Yoon YS, and Hwang IK

Subjects

Animals, Brain-Derived Neurotrophic Factor metabolism, CREB-Binding Protein metabolism, Corticosterone blood, Dentate Gyrus metabolism, Dentate Gyrus pathology, Doublecortin Domain Proteins, Ki-67 Antigen metabolism, Laminaria metabolism, Male, Mice, Inbred ICR, Microtubule-Associated Proteins metabolism, Neural Stem Cells metabolism, Neural Stem Cells pathology, Neuropeptides metabolism, Neuroprotective Agents isolation & purification, Phosphorylation, Signal Transduction, Stress, Physiological, Stress, Psychological, Cell Proliferation drug effects, Dentate Gyrus drug effects, Fermentation, Laminaria microbiology, Neural Stem Cells drug effects, Neurogenesis drug effects, Neuroprotective Agents pharmacology

Abstract

Laminaria japonica is widely cultivated in East Asia, including South Korea. Fucoidan, a main component of L. japonica , protects neurons from neurological disorders such as ischemia and traumatic brain injury. In the present study, we examined the effects of extract from fermented L. japonica on the reduction of proliferating cells and neuroblasts in mice that were physically (with electric food shock) or psychologically (with visual, auditory and olfactory sensation) stressed with the help of a communication box. Vehicle (distilled water) or fermented L. japonica extract (50 mg/kg) were orally administered to the mice once a day for 21 days. On the 19th day of the treatment, physical and psychological stress was induced by foot shock using a communication box and thereafter for three days. Plasma corticosterone levels were significantly increased after exposure to physical stress and decreased Ki67 positive proliferating cells and doublecortin immunoreactive neuroblasts. In addition, western blot analysis demonstrated that physical stress as well as psychological stress decreased the expression levels of brain-derived neurotrophic factor (BDNF) and the number of phosphorylated cAMP response element binding protein (pCREB) positive nuclei in the dentate gyrus. Fermentation of L. japonica extract significantly increased the contents of reduced sugar and phenolic compounds. Supplementation with fermented L. japonica extract significantly ameliorated the increases of plasma corticosterone revels and decline in the proliferating cells, neuroblasts, and expression of BDNF and pCREB in the physically stressed mice. These results indicate that fermented L. japonica extract has positive effects in ameliorating the physical stress induced reduction in neurogenesis by modulating BDNF and pCREB expression in the dentate gyrus.

Published

2020

27. Comparative Ubiquitome Analysis under Heat Stress Reveals Diverse Functions of Ubiquitination in Saccharina japonica .

Author

Pengyan Z, Fuli L, Siqing C, Zhourui L, Wenjun W, and Xiutao S

Subjects

Binding Sites, Lysine metabolism, Protein Interaction Domains and Motifs, Protein Processing, Post-Translational, Proteome analysis, Proteome chemistry, Proteomics methods, Ubiquitin metabolism, Heat-Shock Response physiology, Laminaria metabolism, Proteome metabolism, Ubiquitination physiology

Abstract

Ubiquitination is a major post-translational modification involved in nearly all aspects of eukaryotic biology. Previous RNA-Seq studies showed that ubiquitination plays essential roles in the heat tolerance of Saccharina japonica , but to date, large-scale profiling of the ubiquitome in S. japonica has not been reported. To better understand the regulatory roles of ubiquitination in heat responses of S. japonica , we investigated its ubiquitome under normal and heat stress by the combination of affinity enrichment and high-resolution liquid chromatography-tandem mass spectroscopy analysis. Altogether, 3305 lysine ubiquitination sites in 1562 protein groups were identified. After normalization, 152 lysine ubiquitination sites in 106 proteins were significantly upregulated and 208 lysine ubiquitination sites in 131 proteins were significantly downregulated in response to heat stress. Protein annotation and functional analysis suggested that ubiquitination modulates a variety of essential cellular and physiological processes, including but not limited to the ubiquitin-26S proteasome system, ribosome, carbohydrate metabolism, and oxidative phosphorylation. Our results provide a global view of the heat response ubiquitome in S. japonica , and could facilitate future studies on the physiological roles of these ubiquitination-related proteins.

Published

2020

28. Environmental factors influencing primary productivity of the forest-forming kelp Laminaria hyperborea in the northeast Atlantic.

Author

Smale DA, Pessarrodona A, King N, Burrows MT, Yunnie A, Vance T, and Moore P

Subjects

Animals, Atlantic Ocean, Biomass, Carbon metabolism, Carbon Cycle, Food Chain, Laminaria metabolism, Light, Sea Urchins growth & development, Temperature, Ecosystem, Laminaria growth & development

Abstract

Rates and drivers of primary productivity are well understood for many terrestrial ecosystems, but remain poorly resolved for many marine ecosystems, particularly those within in coastal benthic environments. We quantified net primary productivity (NPP) using two methods as well as carbon standing stock within kelp forests (Laminaria hyperborea) at multiple subtidal habitats in the United Kingdom (UK). Study sites spanned 9° in latitude and encompassed a gradient in average temperature of ~ 2.5 °C. In addition to temperature, we measured other factors (e.g. light intensity, water motion, nutrients, sea urchin density) that may influence productivity. Although estimates of NPP were highly variable between sites, ranging from 166 to 738 g C m -2  yr -1 , our study-wide average of 340 g C m -2  yr -1 indicated that L. hyperborea forests are highly productive. We observed clear differences between NPP and carbon standing stock between our cold northernmost sites and our warm southernmost sites, with NPP and standing stock being around 1.5 and 2.5 times greater in the northern sites, respectively. Ocean temperature was identified as a likely driver of productivity, with reduced NPP and standing stock observed in warmer waters. Light availability was also strongly linked with carbon accumulation and storage, with increased light levels positively correlated with NPP and standing stock. Across its geographical range, total NPP from L. hyperborea is estimated at ~ 7.61 Tg C yr -1 . This biomass production is likely to be important for local food webs, as a trophic subsidy to distant habitats and for inshore carbon cycling and (potentially) carbon sequestration. However, given the strong links with temperature, continued ocean warming in the northeast Atlantic may reduce primary productivity of this foundation species, as optimal temperatures for growth and performance are surpassed.

Published

2020

29. Laminariales Host Does Impact Lipid Temperature Trajectories of the Fungal Endophyte Paradendryphiella salina (Sutherland.).

Author

Vallet M, Meziane T, Thiney N, Prado S, and Hubas C

Subjects

Ascomycota isolation & purification, Endophytes isolation & purification, Host-Pathogen Interactions, Laminaria metabolism, Salinity, Salt Tolerance, Thermotolerance, Ascomycota metabolism, Endophytes metabolism, Fatty Acids metabolism, Laminaria microbiology, Temperature

Abstract

Kelps are colonized by a wide range of microbial symbionts. Among them, endophytic fungi remain poorly studied, but recent studies evidenced yet their high diversity and their central role in algal defense against various pathogens. Thus, studying the metabolic expressions of kelp endophytes under different conditions is important to have a better understanding of their impacts on host performance. In this context, fatty acid composition is essential to a given algae fitness and of interest to food web studies either to measure its nutritional quality or to infer about its contribution to consumers diets. In the present study, Paradendryphiella salina , a fungal endophyte was isolated from Saccharina latissima (L.) and Laminaria digitata (Hudson.) and its fatty acid composition was assessed at increasing salinity and temperature conditions. Results showed that fungal composition in terms of fatty acids displayed algal-dependent trajectories in response to temperature increase. This highlights that C18 unsaturated fatty acids are key components in the host-dependant acclimation of P. salina to salinity and temperature changes.

Published

2020

30. The Antithrombotic Effects of Low Molecular Weight Fragment from Enzymatically Modified of Laminaria Japonica Polysaccharide.

Author

Xu Z, Zuo ZQ, Gaowa B, Gu YY, Hui C, Shen YL, and Xu HP

Subjects

Animals, Anticoagulants therapeutic use, Blood Coagulation drug effects, Blood Coagulation Tests methods, Glycoside Hydrolases pharmacology, Laminaria drug effects, Laminaria metabolism, Male, Nitric Oxide Synthase Type III blood, Partial Thromboplastin Time methods, Polysaccharides pharmacology, Prothrombin Time methods, Rats, Rats, Sprague-Dawley, Thrombosis blood, Fibrinolytic Agents pharmacology, Laminaria chemistry, Medicine, Chinese Traditional methods

Abstract

BACKGROUND Laminaria japonica polysaccharide (LJP), a fucose enriched sulfated polysaccharide has been demonstrated to have excellent anticoagulant and antithrombotic activities. However, the antithrombotic effect of low molecular weight polysaccharide from enzymatically modified of LJP (LMWEP) remains unknown. MATERIAL AND METHODS LMWEP was prepared by fucoidanase enzymatic hydrolysis, and the antithrombotic and anticoagulant activities, and the underlying mechanism were investigated thoroughly. Rats were randomly divided into 6 groups (8 rats in each group): the blank control group, the blank control group treated with LMWEP (20 mg/kg), the model group, the model group treated with heparin (2 mg/kg), the model group treated with LJP (20 mg/kg), and the model group treated with LMWEP (20 mg/kg). After 7 days of intravenous administration, blood was collected for biochemical parameters examinations. RESULTS LMWEP increased the activated partial thromboplastin time (APTT), thrombin time (TT), prothrombin time (PT), 6-keto prostaglandin F1alpha (6-Keto-PGF1alpha), and endothelial nitric oxide synthase (eNOS). In addition, LMWEP decreased fibrinogen (FIB), endothelin-1 (ET-1), thromboxane B2 (TXB2), erythrocyte sedimentation rate (ESR), and hematocrit (HCT). CONCLUSIONS LMWEP, an enzymatically modified fragment with a molecular weight of 25.8 kDa, is a potential antithrombotic candidate for treatment of thrombosis related diseases.

Published

2020

31. Effects of a polysaccharide-rich extract derived from Irish-sourced Laminaria digitata on the composition and metabolic activity of the human gut microbiota using an in vitro colonic model.

Author

Strain CR, Collins KC, Naughton V, McSorley EM, Stanton C, Smyth TJ, Soler-Vila A, Rea MC, Ross PR, Cherry P, and Allsopp PJ

Subjects

Colon microbiology, Feces microbiology, Gastrointestinal Microbiome physiology, Humans, In Vitro Techniques, Models, Biological, Plant Extracts metabolism, Polysaccharides metabolism, Colon metabolism, Gastrointestinal Microbiome drug effects, Laminaria metabolism, Laminaria microbiology, Plant Extracts pharmacology, Polysaccharides pharmacology

Abstract

Background: Brown seaweeds are known to be a rich source of fiber with the presence of several non-digestible polysaccharides including laminarin, fucoidan and alginate. These individual polysaccharides have previously been shown to favorably alter the gut microbiota composition and activity albeit the effect of the collective brown seaweed fiber component on the microbiota remains to be determined., Methods: This study investigated the effect of a crude polysaccharide-rich extract obtained from Laminaria digitata (CE) and a depolymerized CE extract (DE) on the gut microbiota composition and metabolism using an in vitro fecal batch culture model though metagenomic compositional analysis using 16S rRNA FLX amplicon pyrosequencing and short-chain fatty acid (SCFA) analysis using GC-FID., Results: Selective culture analysis showed no significant changes in cultured lactobacilli or bifidobacteria between the CE or DE and the cellulose-negative control at any time point measured (0, 5, 10, 24, 36, 48 h). Following metagenomic analysis, the CE and DE significantly altered the relative abundance of several families including Lachnospiraceae and genera including Streptococcus, Ruminococcus and Parabacteroides of human fecal bacterial populations in comparison to cellulose after 24 h. The concentrations of acetic acid, propionic acid, butyric acid and total SCFA were significantly higher for both the CE and DE compared to cellulose after 10, 24, 36 and 48 h fermentation (p < 0.05). Furthermore, the acetate:propionate ratio was significantly reduced (p < 0.05) for both CD and DE following 24, 36 and 48 h fermentation., Conclusion: The microbiota-associated metabolic and compositional changes noted provide initial indication of putative beneficial health benefits of L. digitata in vitro; however, research is needed to clarify if L. digitata-derived fiber can favorably alter the gut microbiota and confer health benefits in vivo.

Published

2020

32. Non-Coding RNAs Participate in the Regulation of CRY-DASH in the Growth and Early Development of Saccharina japonica (Laminariales, Phaeophyceae).

Author

Yang X, Li L, Wang X, Yao J, and Duan D

Subjects

Circadian Rhythm genetics, Circadian Rhythm radiation effects, Cluster Analysis, Cryptochromes genetics, DNA Repair genetics, Gene Expression Regulation genetics, Gene Expression Regulation radiation effects, Laminaria growth & development, Laminaria radiation effects, Light, Photoperiod, RNA, Long Noncoding genetics, RNA, Messenger metabolism, Temperature, Cryptochromes metabolism, Laminaria genetics, Laminaria metabolism, RNA, Long Noncoding metabolism

Abstract

CRY-DASH, a new cryptochrome blue light receptor, can repair damaged DNA and regulate secondary metabolism and development of fungus. However, its role in regulation during the growth of Saccharina japonica is still unclear. After cloning the full-length of CRY-DASH from S. japonica ( sjCRY-DASH ), we deduced that its open reading frame was 1779 bp long and encoded 592 amino acids. sjCRY-DASH transcription was rapidly upregulated within 30 min in response to blue light and exhibited 24 h periodicity with different photoperiods. Moreover, sjCRY-DASH maintained the same periodicity in suitable growth temperature, suggesting a close relationship between this periodicity and circadian rhythm regulation. Novel-m3234-5p , which was targeted to sjCRY-DASH , decreased with increasing sjCRY-DASH transcription, acting as a negative modulator of sjCRY-DASH . Six long non-coding RNAs classified as long intergenic non-coding RNAs (lincRNAs) exhibited co-expression with sjCRY-DASH . A miRNA sjCRY DASH lincRNA network was consequently identified. By predicting the endogenous competing mRNAs of novel - m3234 - 5p , we found that sjCRY-DASH indirectly participated in the regulation of DNA damage repair, protein synthesis and processing, and actin transport. In conclusion, our results revealed that non-coding RNAs participate in the regulation of sjCRY-DASH, which played vital roles in the growth and early development of S. japonica .

Published

2020

33. Size-dependent whitening activity of enzyme-degraded fucoidan from Laminaria japonica.

Author

Chen Q, Kou L, Wang F, and Wang Y

Subjects

Animals, Antioxidants, Cell Line, Tumor, Molecular Weight, Monophenol Monooxygenase antagonists & inhibitors, Sulfates metabolism, Bleaching Agents chemistry, Bleaching Agents pharmacology, Laminaria metabolism, Polysaccharides chemistry, Polysaccharides pharmacology, Skin Lightening Preparations chemistry, Skin Lightening Preparations pharmacology

Abstract

Fucoidan from Laminaria japonica is a kind of sulfate polysaccharide with high molecular weight (MW) and broad bioactivities. This study was performed to investigate the relationship between MW and whitening activity of fucoidan and to exploit a novel functional ingredient for whitening cosmetics. High sulfate content fucoidan was enzymic degraded by Flavobacterium RC2-3 produced fucoidanase. Two hours were enough for the enzyme degradation to achieve degraded fucoidan with favorable tyrosinase inhibitory ability. The whitening activity of different MW fucoidan fractions were evaluated by their tyrosinase inhibitory ability, antioxidant activity and cellular melanogenesis inhibitory ability. Results showed that in the MW range above 5 kDa, the smaller MW of fucoidan were related to the better whitening activity. The fucoidan fraction with the MW between 5-10 kDa, presented the best tyrosinase inhibitory activity (62.0%), antioxidant activity (48.3%) and excellent anti-melanogenesis ability in B16 cells, which could be applied as the whitening factor in cosmetics development., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

34. Cooking effects on bioaccessibility of chlorophyll pigments of the main edible seaweeds.

Author

Chen K and Roca M

Subjects

Biological Availability, Chromatography, High Pressure Liquid, Laminaria metabolism, Microwaves, Porphyra metabolism, Spectrophotometry, Ulva metabolism, alpha-Amylases metabolism, Chlorophyll analysis, Cooking, Laminaria chemistry, Porphyra chemistry, Ulva chemistry

Abstract

Edible seaweeds are highly consumed food with a rich chlorophyll profile. Although seaweeds are mainly cooked ingested, the influence of cooking on the chlorophyll bioaccessibility remains unknown. In this research, cooked Nori, Sea Lettuce and Kombu were subjected to an in vitro digestion and following micellarization investigations. The processing of red seaweed does not affect the chlorophyll recovery, while cooking green and brown seaweeds implies an important increase in chlorophyll recovery after in vitro digestion. In this line, while cooking affects negatively the micellarization rate of chlorophyll derivatives in Nori and Kombu, it does not modify the micellarization in Sea Lettuce. Generally, the chlorophyll bioaccessibility of microwaved seaweeds is always higher than that of boiled ones. However, cooking improves the chlorophyll bioaccessibility in brown seaweeds, while decreases in red seaweeds. In conclusion, the characteristics of food matrix are the determinant factor on the chlorophyll bioaccessibility of cooked seaweeds., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

35. Combined enzymatic hydrolysis and selective fermentation for green production of alginate oligosaccharides from Laminaria japonica.

Author

Li SY, Wang ZP, Wang LN, Peng JX, Wang YN, Han YT, and Zhao SF

Subjects

Alginates metabolism, Hydrolysis, Seaweed metabolism, Yarrowia genetics, Yarrowia metabolism, Fermentation, Laminaria metabolism, Oligosaccharides metabolism

Abstract

Alginate oligosaccharides (AOS) showed various biological activities. Traditional protocol for producing AOS was a multiple-step and high-pollution procedure. In this study, a rapid and efficient AOS producing method was developed directly from Laminaria japonica. Natural sun-dried L. japonica with a feed ratio of 1:7 (w/v) was pretreated using cellulase with a dry weight of 3%, for releasing the fermentable sugars (8.5 g/L glucose and 15.2 g/L mannitol). Then, the engineered yeast Yarrowia lipolytica strain with alginate lyase activity was grown using an algae-based medium. After fermentation for 72 h, glucose and mannitol were completely consumed, and 71.8 mM AOS was extracted from the fermentation supernatant. The degree of polymerization (DP) was ranging from 2 to 3. The recovery yield of AOS was about 91.7%. The purity of the extracted AOS was 92.6%. Overall, our work provided new insights for the development of green biotechnologies for oligosaccharide production from seaweed., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

36. The 40S Ribosomal Protein S6 Response to Blue Light by Interaction with SjAUREO in Saccharina japonica .

Author

Luan H, Yao J, Chen Z, and Duan D

Subjects

Cell Proliferation, Gene Expression Profiling, Gene Expression Regulation, Developmental genetics, Gene Expression Regulation, Developmental radiation effects, Gene Expression Regulation, Plant radiation effects, Gene Library, Genes, Plant genetics, Laminaria genetics, Photoreceptor Cells metabolism, Photoreceptor Cells radiation effects, Photosynthesis, Plant Proteins genetics, Ribosomal Proteins genetics, Up-Regulation radiation effects, Laminaria metabolism, Laminaria radiation effects, Light, Ribosomal Protein S6 metabolism, Ribosomal Protein S6 radiation effects, Ribosomal Proteins metabolism, Ribosomal Proteins radiation effects

Abstract

Blue light (BL) plays an important role in regulation of the growth and development of aquatic plants and land plants. Aureochrome (AUREO), the recent BL photoreceptor identified in photosynthetic stramenopile algae, is involved in the photomorphogenesis and early development of Saccharina japonica porophytes (kelp). However the factors that interact with the SjAUREO under BL conditions specifically are not clear. Here in our study, three high quality cDNA libraries with CFU over 5 × 10 6 and a recombination rate of 100% were constructed respectively through white light (WL), BL and darkness (DK) treatments to the juvenile sporophytes. Based on the constructed cDNA libraries, the interactors of SjAUREO were screened and analyzed. There are eighty-four genes encoding the sixteen predicted proteins from the BL cDNA library, sixty-eight genes encoding eighteen predicted proteins from the DK cDNA library, and seventy-four genes encoding nineteen proteins from the WL cDNA library. All the predicted proteins are presumed to interact with SjAUREO when co-expressed with SjAUREO seperately. The 40S ribosomal protein S6 (RPS6), which only exists in the BL treated cDNA library except for two other libraries, and which is essential for cell proliferation and is involved in cell cycle progression, was selected for detailed analysis. We showed that its transcription was up-regulated by BL, and was highly transcribed in the basal blade (meristem region) of juvenile sporophytes but less in the distal part. Taken together, our results indicated that RPS6 was highly involved in BL-mediated kelp cellular division and photomorphogenesis by interacting with SjAUREO.

Published

2019

37. Key aspects of the iodine metabolism in brown algae: a brief critical review.

Author

Küpper FC and Carrano CJ

Subjects

Biological Transport, Immunity, Innate, Iodine immunology, Laminaria immunology, Macrocystis immunology, Oxidative Stress, Phaeophyceae immunology, Iodine metabolism, Laminaria metabolism, Macrocystis metabolism, Phaeophyceae metabolism

Abstract

Brown algae include the strongest accumulators of iodine known among living systems. This paper reviews the current state of bioinorganic research in the field, focusing on the models Laminaria digitata, Macrocystis pyrifera and Ectocarpus siliculosus, and covering uptake and efflux, localization and biological significance of storage, as well as marine and atmospheric chemistry of iodine.

Published

2019

38. Co-digestion of Laminaria digitata with cattle manure: A unimodel simulation study of both batch and continuous experiments.

Author

Sun H, Kovalovszki A, Tsapekos P, Alvarado-Morales M, Rudatis A, Wu S, Dong R, Kougias PG, and Angelidaki I

Subjects

Animals, Bioreactors, Cattle, Methane biosynthesis, Reproducibility of Results, Laminaria metabolism, Manure

Abstract

This work investigated the thermophilic (55 °C) co-digestion performance both in batch and continuous mode operation. The biochemical methane potentials of L. digitata and cattle manure were 308 ± 24 and 203 ± 33 mL CH 4 /g VS, respectively. The optimum co-digestion feedstock ratio was found to be 80% macroalgae: 20% manure on a volatile solids basis, which produced 290 ± 19 mL CH 4 /g VS under long-term and stable continuous operation at an organic loading rate of 2 g VS/L/d and hydraulic retention time of 15 days. Simulations of the batch and continuous experiments were, for the first time, carried out using an integrated anaerobic bioconversion model without structural modifications. Close fits between measured and simulated data provided mutual confirmation of experimental reliability and model robustness, and provided new perspectives for the use of the software tool., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

39. Characteristics of hydrogen-producing enrichment cultures from marine sediment using macroalgae Laminaria japonica as a feedstock.

Author

Liu H, Qin H, and Wang H

Subjects

Fermentation, Hydrochloric Acid chemistry, Hydrochloric Acid pharmacology, Microbiota drug effects, Microbiota physiology, RNA, Ribosomal, 16S, Seaweed cytology, Seaweed metabolism, Bacteria cytology, Bacteria drug effects, Bacteria growth & development, Bacteria metabolism, Geologic Sediments chemistry, Hydrogen metabolism, Laminaria cytology, Laminaria metabolism

Abstract

This study aimed to investigate the characteristics of hydrogen production by mixed cultures using Laminaria japonica hydrolysates. The hydrolysates of L. japonica were prepared by pretreatment methods, including heat (100°C or 121°C) and acid (HCl or H 2 SO 4 ) pretreatments. The mixed cultures could produce hydrogen using L. japonica as a substrate, with the highest cumulative hydrogen production of 825 ± 14 mL/L from HCl-pretreated L. japonica. High-throughput sequencing of the 16S rRNA gene revealed that the microbial community in the hydrolysate of HCl-pretreated L. japonica was the most diverse among all the samples, with a Shannon diversity index of 5.253. The mixed culture from HCl-pretreated L. japonica and those from heat-pretreated (100°C and 121°C) L. japonica occupied different regions in a principal component analysis (PCA) plot. The dominant population in the hydrolysate of HCl-pretreated L. japonica was represented by hydrogen-producing bacteria, Clostridium spp. and Bacillus spp. The results suggested that L. japonica was an optimal feedstock for hydrogen production. The acid (HCl) pretreatment method could effectively enhance the hydrogen production from L. japonica., (Copyright © 2018 The Society for Biotechnology, Japan. Published by Elsevier B.V. All rights reserved.)

Published

2018

40. Grazers extend blue carbon transfer by slowing sinking speeds of kelp detritus.

Author

Wernberg T and Filbee-Dexter K

Subjects

Animals, Ecosystem, Food Chain, Aquatic Organisms metabolism, Aquatic Organisms physiology, Carbon analysis, Laminaria metabolism, Particulate Matter analysis, Sea Urchins metabolism, Seawater chemistry

Abstract

Marine plant communities such as kelp forests produce significant amounts of detritus, most of which is exported to areas where it can constitute an important trophic subsidy or potentially be sequestered in marine sediments. Knowing the vertical transport speed of detrital particles is critical to understanding the potential magnitude and spatial extent of these linkages. We measured sinking speeds for Laminaria hyperborea detritus ranging from whole plants to small fragments and sea urchin faecal pellets, capturing the entire range of particulate organic matter produced by kelp forests. Under typical current conditions, we determined that this organic material can be transported 10 s of m to 10 s of km. We show how the conversion of kelp fragments to sea urchin faeces, one of the most pervasive processes in kelp forests globally, increases the dispersal potential of detritus by 1 to 2 orders of magnitude. Kelp detritus sinking speeds were also faster than equivalent phytoplankton, highlighting its potential for rapid delivery of carbon to deep areas. Our findings support arguments for a significant contribution from kelp forests to subsidizing deep sea communities and the global carbon sink.

Published

2018

41. Carbon assimilation and transfer through kelp forests in the NE Atlantic is diminished under a warmer ocean climate.

Author

Pessarrodona A, Moore PJ, Sayer MDJ, and Smale DA

Subjects

Biomass, Cold Temperature, England, Scotland, Seawater analysis, Wales, Carbon metabolism, Carbon Cycle, Climate Change, Hot Temperature, Laminaria metabolism

Abstract

Global climate change is affecting carbon cycling by driving changes in primary productivity and rates of carbon fixation, release and storage within Earth's vegetated systems. There is, however, limited understanding of how carbon flow between donor and recipient habitats will respond to climatic changes. Macroalgal-dominated habitats, such as kelp forests, are gaining recognition as important carbon donors within coastal carbon cycles, yet rates of carbon assimilation and transfer through these habitats are poorly resolved. Here, we investigated the likely impacts of ocean warming on coastal carbon cycling by quantifying rates of carbon assimilation and transfer in Laminaria hyperborea kelp forests-one of the most extensive coastal vegetated habitat types in the NE Atlantic-along a latitudinal temperature gradient. Kelp forests within warm climatic regimes assimilated, on average, more than three times less carbon and donated less than half the amount of particulate carbon compared to those from cold regimes. These patterns were not related to variability in other environmental parameters. Across their wider geographical distribution, plants exhibited reduced sizes toward their warm-water equatorward range edge, further suggesting that carbon flow is reduced under warmer climates. Overall, we estimated that Laminaria hyperborea forests stored ~11.49 Tg C in living biomass and released particulate carbon at a rate of ~5.71 Tg C year -1 . This estimated flow of carbon was markedly higher than reported values for most other marine and terrestrial vegetated habitat types in Europe. Together, our observations suggest that continued warming will diminish the amount of carbon that is assimilated and transported through temperate kelp forests in NE Atlantic, with potential consequences for the coastal carbon cycle. Our findings underline the need to consider climate-driven changes in the capacity of ecosystems to fix and donate carbon when assessing the impacts of climate change on carbon cycling., (© 2018 The Authors Global Change Biology Published by John Wiley & Sons Ltd.)

Published

2018

42. Laminaria digitata phlorotannins decrease protein degradation and methanogenesis during in vitro ruminal fermentation.

Author

Vissers AM, Pellikaan WF, Bouwhuis A, Vincken JP, Gruppen H, and Hendriks WH

Subjects

Ammonia metabolism, Animal Feed analysis, Animals, Cattle, Digestion, Fatty Acids, Volatile metabolism, Fermentation, Laminaria chemistry, Proteolysis, Silage analysis, Laminaria metabolism, Methane metabolism, Plant Proteins metabolism, Rumen metabolism, Tannins chemistry

Abstract

Background: Phlorotannins (PhTs) are marine tannins consisting of phloroglucinol subunits connected via carbon-carbon and ether linkages. These have non-covalent protein binding properties and are, therefore, expected to be beneficial in protecting protein from hydrolysis during ruminal fermentation. In this study, the effectiveness of a methanolic PhTs extract from Laminaria digitata (10, 20, 40, 50, 75 and 100 g kg -1 tannin-free grass silage, with or without addition of polyethylene glycol (PEG), was investigated in vitro on protection of dietary protein and reduction of methane (CH 4 ) in ruminal fluid., Results: Addition of PhTs had linear (P < 0.0001) and quadratic (P = 0.0003) effects on gas and CH 4 production, respectively. Optimal dosage of PhTs was 40 g kg -1 as at this point CH 4 decreased (P < 0.0001) from 24.5 to 15.2 mL g -1 organic matter (OM), without affecting gas production (P = 0.3115) and total volatile fatty acids (P = 1.000). Ammonia trended (P = 0.0903) to decrease from 0.49 to 0.39 mmol g -1 OM, indicating protection of protein. Addition of PEG inhibited the effect of tannins at all dosage levels, and none of the fermentation parameters differed from the control., Conclusion: PhTs effectively protected protein from fermentation and reduced ruminal methanogenesis. © 2017 Society of Chemical Industry., (© 2017 Society of Chemical Industry.)

Published

2018

43. Variability in iodine in temperate seaweeds and iodine accumulation kinetics of Fucus vesiculosus and Laminaria digitata (Phaeophyceae, Ochrophyta).

Author

Nitschke U, Walsh P, McDaid J, and Stengel DB

Subjects

Ireland, Kinetics, Phaeophyceae metabolism, Rhodophyta metabolism, Species Specificity, Ulva metabolism, Fucus metabolism, Iodine metabolism, Laminaria metabolism, Seaweed metabolism

Abstract

The biogeochemistry of iodine in temperate coastal ecosystems is largely mediated by macroalgae, which act as a major biological sink and source of iodine. Their capacity to accumulate, retain and release iodine has been associated with abiotic and biotic stressors, but quantitative information is limited. We evaluated the seasonal iodine retention capacity of eleven macroalgal species belonging to different systematic groups, collected from two sites in Ireland. Iodine accumulation and retention were then further quantified in Fucus vesiculosus and Laminaria digitata in relation to I - concentrations in seawater and temperature. In general, iodine contents were ~10 1 -10 2  μmol · (g dw) -1 for Laminariales, 10 0 -10 1  μmol · (g dw) -1 for Fucales, 10 -1 -10 0  μmol · (g dw) -1 for Rhodophyta, and 10 -1  μmol · (g dw) -1 for Chlorophyta. Typically, algal iodine contents were above average in winter and below average in summer. Iodine accumulation in F. vesiculosus and L. digitata depended on I - availability and followed the Michaelis-Menten kinetic. The ratio of maximum accumulation rate to half accumulation coefficient (ρ max : K t ) was 2.4 times higher for F. vesiculosus than for L. digitata, suggesting that F. vesiculosus was more efficient in iodine accumulation. Both species exhibited a temperature-dependent net loss of iodine, and only an exposure to sufficient external I - concentrations compensated for this loss. This study revealed that both environmental (e.g., I - in seawater, temperature) and organismal (e.g., the status of the iodine storage pool) variables determine retention and variability in iodine in temperate seaweeds., (© 2017 Phycological Society of America.)

Published

2018

44. Resolubilization of Protein from Water-Insoluble Phlorotannin-Protein Complexes upon Acidification.

Author

Vissers AM, Blok AE, Westphal AH, Hendriks WH, Gruppen H, and Vincken JP

Subjects

Animals, Caseins metabolism, Cattle, Hydrogen-Ion Concentration, Isoelectric Point, Laminaria metabolism, Plant Extracts metabolism, Rumen chemistry, Seaweed metabolism, Serum Albumin, Bovine metabolism, Solubility, Tannins metabolism, Caseins chemistry, Laminaria chemistry, Plant Extracts chemistry, Rumen metabolism, Seaweed chemistry, Serum Albumin, Bovine chemistry, Tannins chemistry

Abstract

Marine phlorotannins (PhT) from Laminaria digitata might protect feed proteins from ruminal digestion by formation of insoluble non-covalent tannin-protein complexes at rumen pH (6-7). Formation and disintegration of PhT-protein complexes was studied with β-casein (random coil) and bovine serum albumin (BSA, globular) at various pH. PhT had similar binding affinity for β-casein and BSA as pentagalloyl glucose, as studied by fluorescence quenching. The affinity of PhT for both proteins was independent of pH (3.0, 6.0, and 8.0). In the presence of PhT, the pH range for precipitation of tannin-protein complexes widened to 0.5-1.5 pH units around the isoelectric point (pI) of the protein. Complete protein resolubilization from insoluble PhT-protein complexes was achieved at pH 7 and 2 for β-casein and BSA, respectively. It was demonstrated that PhT modulate the solubility of proteins at neutral pH and that resolubilization of PhT-protein complexes at pH deviating from pI is mainly governed by the charge state of the protein.

Published

2017

45. Historical δ15N records of Saccharina specimens from oligotrophic waters of Japan Sea (Hokkaido).

Author

Kuribayashi T, Abe T, and Montani S

Subjects

Animals, Fishes metabolism, Food Chain, Laminaria metabolism, Seawater chemistry, Laminaria chemistry, Nitrogen Isotopes analysis

Abstract

Historically Saccharina spp. beds occurred along the west coast of Hokkaido, an oligotrophic area, and were commercially exploited. Currently extensive commercial Saccharina spp. beds do not form due to nutrient limitations. Here, we postulate that nutrients assimilated by paleo-Saccharina spp. beds may have been derived from spawning herrings (Clupea pallasii) acting as organisms that formed a vector from their feeding grounds (Okhotsk Sea and Pacific Ocean) to their spawning area (west coast of Hokkaido, Japan Sea). To test this hypothesis we examined stable nitrogen isotope ratios (δ15N) of 100- to 135-year-old Saccharina specimens preserved at the Herbarium (Hokkaido University Museum). δ15N values of the paleo-Saccharina specimens collected from this region were in the range of 10‰, which is significantly higher than the current 3-7‰ in freshly sampled Saccharina spp. This high δ15N indicates that spawning herring (Clupea pallasii) had potentially been a significant source of dissolved inorganic nitrogen (DIN) absorbed by Saccharina, acting as an organism forming a vector for transporting nutrients from eutrophic to oligotrophic coastal ecosystems. Our findings support the hypothesis of so-called "herring-derived nutrients."

Published

2017

46. Exploration of the phycoremediation potential of Laminaria digitata towards diflubenzuron, lindane, copper and cadmium in a multitrophic pilot-scale experiment.

Author

Anacleto P, van den Heuvel FHM, Oliveira C, Rasmussen RR, Fernandes JO, Sloth JJ, Barbosa V, Alves RN, Marques A, and Cunha SC

Subjects

Biodegradation, Environmental, Cadmium analysis, Copper analysis, Diflubenzuron analysis, Water Pollutants, Chemical analysis, Cadmium metabolism, Copper metabolism, Diflubenzuron metabolism, Environmental Restoration and Remediation methods, Hexachlorocyclohexane metabolism, Laminaria metabolism, Seaweed metabolism, Water Pollutants, Chemical metabolism

Abstract

The presence of contaminants in aquatic ecosystems can cause serious problems to the environment and marine organisms. This study aims to evaluate the phycoremediation capacity of macroalgae Laminaria digitata for pesticides (diflubenzuron and lindane) and toxic elements (cadmium and copper) in seawater in the presence or absence of mussels. The photosynthetic activity was monitored in the macroalgae to assess its "physiological status". The results showed that the presence of algae decreased diflubenzuron concentration in mussels by 70% after 120 h of exposure. Additionally, this macroalgae was efficient to reduce lindane, Cu and Cd in seawater; even though it not was able to reduce these contaminants in mussels. The studied pollutants did not affect the physiological status of macroalgae. This study reveals that the application of phycoremediation with macroalgae can be an useful and effective mitigation strategy to remove/decrease contaminant levels from the aquatic environment., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

47. The effect of seasonal variation on biomethane production from seaweed and on application as a gaseous transport biofuel.

Author

Tabassum MR, Xia A, and Murphy JD

Subjects

Carbon analysis, Carbon metabolism, Conservation of Energy Resources, Ireland, Laminaria chemistry, Nitrogen analysis, Nitrogen metabolism, Seaweed chemistry, Biofuels, Laminaria metabolism, Methane biosynthesis, Seasons, Seaweed metabolism

Abstract

Biomethane produced from seaweed may be used as a transport biofuel. Seasonal variation will have an effect on this industry. Laminaria digitata, a typical Irish brown seaweed species, shows significant seasonal variation both in proximate, ultimate and biochemical composition. The characteristics in August were optimal with the lowest level of ash (20% of volatile solids), a C:N ratio of 32 and the highest specific methane yield measured at 327LCH4kgVS(-1), which was 72% of theoretical yield. The highest yield per mass collected of 53m(3)CH4t(-1) was achieved in August, which is 4.5 times higher than the lowest value, obtained in December. A seaweed cultivation area of 11,800ha would be required to satisfy the 2020 target for advanced biofuels in Ireland, of 1.25% renewable energy supply in transport (RES-T) based on the optimal gross energy yield obtained in August (200GJha(-1)yr(-1))., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

48. Isolation and Complete Genome Sequence of Algibacter alginolytica sp. nov., a Novel Seaweed-Degrading Bacteroidetes Bacterium with Diverse Putative Polysaccharide Utilization Loci.

Author

Sun C, Fu GY, Zhang CY, Hu J, Xu L, Wang RJ, Su Y, Han SB, Yu XY, Cheng H, Zhang XQ, Huo YY, Xu XW, and Wu M

Subjects

Bacterial Typing Techniques, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Flavobacteriaceae genetics, Flavobacteriaceae metabolism, Genetic Loci, Genotype, Metabolic Networks and Pathways genetics, Phylogeny, RNA, Ribosomal, 16S genetics, Flavobacteriaceae classification, Flavobacteriaceae isolation & purification, Genome, Bacterial, Laminaria metabolism, Laminaria microbiology, Polysaccharides metabolism, Sequence Analysis, DNA

Abstract

The members of the phylum Bacteroidetes are recognized as some of the most important specialists for the degradation of polysaccharides. However, in contrast to research on Bacteroidetes in the human gut, research on polysaccharide degradation by marine Bacteroidetes is still rare. The genus Algibacter belongs to the Flavobacteriaceae family of the Bacteroidetes, and most species in this genus are isolated from or near the habitat of algae, indicating a preference for the complex polysaccharides of algae. In this work, a novel brown-seaweed-degrading strain designated HZ22 was isolated from the surface of a brown seaweed (Laminaria japonica). On the basis of its physiological, chemotaxonomic, and genotypic characteristics, it is proposed that strain HZ22 represents a novel species in the genus Algibacter with the proposed name Algibacter alginolytica sp. nov. The genome of strain HZ22, the type strain of this species, harbors 3,371 coding sequences (CDSs) and 255 carbohydrate-active enzymes (CAZymes), including 104 glycoside hydrolases (GHs) and 18 polysaccharide lyases (PLs); this appears to be the highest proportion of CAZymes (∼7.5%) among the reported strains in the class Flavobacteria Seventeen polysaccharide utilization loci (PUL) are predicted to be specific for marine polysaccharides, especially algal polysaccharides from red, green, and brown seaweeds. In particular, PUL N is predicted to be specific for alginate. Taking these findings together with the results of assays of crude alginate lyases, we prove that strain HZ22(T) can completely degrade alginate. This work reveals that strain HZ22(T) has good potential for the degradation of algal polysaccharides and that the structure and related mechanism of PUL in strain HZ22(T) are worth further research., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

49. Production of hydrogen, ethanol and volatile fatty acids through co-fermentation of macro- and micro-algae.

Author

Xia A, Jacob A, Tabassum MR, Herrmann C, and Murphy JD

Subjects

Biofuels, Biomass, Carbohydrates chemistry, Carbon metabolism, Fatty Acids, Volatile metabolism, Fermentation, Glucose metabolism, Mannitol metabolism, Microalgae metabolism, Nitrogen metabolism, Seaweed metabolism, Cyanobacteria metabolism, Ethanol metabolism, Fatty Acids, Volatile biosynthesis, Hydrogen metabolism, Laminaria metabolism

Abstract

Algae may be fermented to produce hydrogen. However micro-algae (such as Arthrospira platensis) are rich in proteins and have a low carbon/nitrogen (C/N) ratio, which is not ideal for hydrogen fermentation. Co-fermentation with macro-algae (such as Laminaria digitata), which are rich in carbohydrates with a high (C/N) ratio, improves the performance of hydrogen production. Algal biomass, pre-treated with 2.5% dilute H2SO4 at 135°C for 15min, effected a total yield of carbohydrate monomers (CMs) of 0.268g/g volatile solids (VS). The CMs were dominating by glucose and mannitol and most (ca. 95%) were consumed by anaerobic fermentative micro-organisms during subsequent fermentation. An optimal specific hydrogen yield (SHY) of 85.0mL/g VS was obtained at an algal C/N ratio of 26.2 and an algal concentration of 20g VS/L. The overall energy conversion efficiency increased from 31.3% to 54.5% with decreasing algal concentration from 40 to 5 VS g/L., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

50. Integrated bioethanol and protein production from brown seaweed Laminaria digitata.

Author

Hou X, Hansen JH, and Bjerre AB

Subjects

Biomass, Denmark, Fermentation, Glucose metabolism, Hydrolysis, Laminaria metabolism, Seaweed chemistry, Seaweed metabolism, Algal Proteins metabolism, Ethanol metabolism, Laminaria chemistry

Abstract

A wild-growing glucose-rich (i.e. 56.7% glucose content) brown seaweed species Laminaria digitata, collected from the North Coast of Denmark in August 2012, was used as the feedstock for an integrated bioethanol and protein production. Glutamic acid and aspartic acid are the two most abundant amino acids in the algal protein, both with proportional content of 10% in crude protein. Only minor pretreatment of milling was used on the biomass to facilitate the subsequent enzymatic hydrolysis and fermentation. The Separate Hydrolysis and Fermentation (SHF) resulted in obviously higher ethanol yield than the Simultaneous Saccharification and Fermentation (SSF). High conversion rate at maximum of 84.1% glucose recovery by enzymatic hydrolysis and overall ethanol yield at maximum of 77.7% theoretical were achieved. Protein content in the solid residues after fermentation was enriched by 2.7 fold, with similar distributions of amino acids, due to the hydrolysis of polymers in the seaweed cell wall matrix., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015