Displaying publications 21 - 40 of 535 in total

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  1. Fulltext The effects of palm oil on serum lipid profiles: A systematic review and meta-analysis
    Hisham MDB, Aziz Z, Huin WK, Teoh CH, Jamil AHA
    Asia Pac J Clin Nutr, 2020;29(3):523-536.
    PMID: 32990612 DOI: 10.6133/apjcn.202009_29(3).0011
    BACKGROUND AND OBJECTIVES: Current guidelines recommend reducing intake of diets rich in saturated fats and replacing it with diets rich in unsaturated fats. Palm oil contains a high amount of saturated fatty acids, but its effect on serum lipid levels is unclear. The study aimed to compare the effects of palm oil consumption with other edible oils rich in monounsaturated fatty acids (MUFAs) and polyunsaturated fatty acids (PUFAs) on serum lipid profiles.

    METHODS AND STUDY DESIGN: We searched Medline, Embase, Cochrane Central Registry of Controlled Trials and CINAHL. Clinical trials were eligible if they compared palm oil-rich diets with diets rich in MUFAs or PUFAs. We pooled results of included studies using a random effects model and assessed the quality of the evidence and certainty of conclusions using the GRADE approach.

    RESULTS: Intake of palm oil intake compared to oils rich in MUFA was associated with increased levels of total cholesterol (TC) [mean difference (MD)=0.27 mmol/L; 95% CI 0.08 to 0.45], LDL-C (MD=0.20 mmol/L; 95% CI 0.02 to 0.37) and HDL-C (MD=0.06 mmol/L; 95% CI 0.02 to 0.10). Similarly, for comparison with oils rich in PUFAs, palm oil showed increased in TC (MD=0.38 mmol/L; 95% CI 0.14 to 0.62), LDL-C (MD= 0.44 mmol/L; 95% CI 0.01 to 0.88) and HDL-C (MD=0.08 mmol/L; 95% CI 0.03 to 0.13). For both comparisons, there were no significant effects on triglycerides.

    CONCLUSIONS: Even though palm oil increases marginally the level of serum lipids, the evidence is mostly of low to moderate quality.

    Matched MeSH terms: Lipids/blood*
  2. Fulltext Role of Snf-β in lipid accumulation in the high lipid-producing fungus Mucor circinelloides WJ11
    Nosheen S, Naz T, Yang J, Hussain SA, Fazili ABA, Nazir Y, et al.
    Microb Cell Fact, 2021 Feb 27;20(1):52.
    PMID: 33639948 DOI: 10.1186/s12934-021-01545-y
    BACKGROUND: Mucor circinelloides WJ11 is a high-lipid producing strain and an excellent producer of γ-linolenic acid (GLA) which is crucial for human health. We have previously identified genes that encode for AMP-activated protein kinase (AMPK) complex in M. circinelloides which is an important regulator for lipid accumulation. Comparative transcriptional analysis between the high and low lipid-producing strains of M. circinelloides showed a direct correlation in the transcriptional level of AMPK genes with lipid metabolism. Thus, the role of Snf-β, which encodes for β subunit of AMPK complex, in lipid accumulation of the WJ11 strain was evaluated in the present study.

    RESULTS: The results showed that lipid content of cell dry weight in Snf-β knockout strain was increased by 32 % (from 19 to 25 %). However, in Snf-β overexpressing strain, lipid content of cell dry weight was decreased about 25 % (from 19 to 14.2 %) compared to the control strain. Total fatty acid analysis revealed that the expression of the Snf-β gene did not significantly affect the fatty acid composition of the strains. However, GLA content in biomass was increased from 2.5 % in control strain to 3.3 % in Snf-β knockout strain due to increased lipid accumulation and decreased to 1.83 % in Snf-β overexpressing strain. AMPK is known to inactivate acetyl-CoA carboxylase (ACC) which catalyzes the rate-limiting step in lipid synthesis. Snf-β manipulation also altered the expression level of the ACC1 gene which may indicate that Snf-β control lipid metabolism by regulating ACC1 gene.

    CONCLUSIONS: Our results suggested that Snf-β gene plays an important role in regulating lipid accumulation in M. circinelloides WJ11. Moreover, it will be interesting to evaluate the potential of other key subunits of AMPK related to lipid metabolism. Better insight can show us the way to manipulate these subunits effectively for upscaling the lipid production. Up to our knowledge, it is the first study to investigate the role of Snf-β in lipid accumulation in M. circinelloides.

    Matched MeSH terms: Lipids/biosynthesis*
  3. Serum lipids and lipoproteins in healthy Malayans
    CHONG YH
    Med J Malaya, 1961 Dec;16:136-43.
    PMID: 13879161
    Matched MeSH terms: Lipids/blood*
  4. Anesthetic Molecule Interaction of Noble Gases with Proteins and Lipids and their Effect: A Review
    Kundu SK, Chakraborty C, Yagihara S, Teoh SL, Das S
    Curr Drug Deliv, 2018;15(10):1381-1392.
    PMID: 30124152 DOI: 10.2174/1567201815666180820101255
    Surgical operations are impossible without administering proper analgesia. Advancement in the field of anesthesia has invariably resulted in the accomplishment of all surgical processes without any inconvenience. Admittedly, the use of noble gas is on the decline. The noble gases may not interact chemically with any other substance under normal temperature and pressure but they may interact with proteins and lipids. Different anesthetic molecules may stimulate either proteins or lipids in membrane. There is a connection between the anesthetic molecules and the hydrophobic region of the membrane. In the present review, we attempt to highlight the interaction between the anesthetic molecule with proteins and lipids and their effects. We sketched few noble gases and some other existing molecules such as halothane and alcohol which interacted with proteins and lipids.
    Matched MeSH terms: Lipids/chemistry*
  5. Nanostructured Lipid Carriers for the Delivery of Natural Bioactive Compounds
    Shamsuddin NAM, Zulfakar MH
    Curr Drug Deliv, 2023;20(2):127-143.
    PMID: 35331113 DOI: 10.2174/1567201819666220324094234
    Natural products contain bioactive compounds that are produced naturally via synthetic or semisynthetic processes. These bioactive compounds play significant biological roles, especially for growth as well as in defense mechanisms against pathogens. Bioactive compounds in natural products have been extensively studied in recent decades for their pharmacological activities, such as anticancer, wound healing, anti-microbial, anti-inflammatory, and anti-oxidative properties. However, their pharmaceutical significance has always been hindered by their low bioavailability and instability with variations in pH, temperature, and exposure to light. Nanotechnology paves the way for the development of drug delivery systems by enhancing therapeutic efficacy. Nanostructured lipid carriers, a lipidbased drug delivery system, are recently being studied to improve the biocompatibility, biodegradability, bioavailability, solubility, permeability, and shelf life of bioactive compounds in the pharmaceutical industry. The ideal component and preparation method for bioactive compounds in nanostructured lipid carrier development is necessary for their physicochemical properties and therapeutic efficiency. Therefore, this review seeks to highlight recent developments, preparation, and application of nanostructured lipid carriers as carriers for natural bioactive compounds in improving their therapeutic potential in drug delivery systems.
    Matched MeSH terms: Lipids/chemistry
  6. A review of organic waste enrichment for inducing palatability of black soldier fly larvae: Wastes to valuable resources
    Raksasat R, Lim JW, Kiatkittipong W, Kiatkittipong K, Ho YC, Lam MK, et al.
    Environ Pollut, 2020 Dec;267:115488.
    PMID: 32891050 DOI: 10.1016/j.envpol.2020.115488
    The increase of annual organic wastes generated worldwide has become a major problem for many countries since the mismanagement could bring about negative effects on the environment besides, being costly for an innocuous disposal. Recently, insect larvae have been investigated to valorize organic wastes. This entomoremediation approach is rising from the ability of the insect larvae to convert organic wastes into its biomass via assimilation process as catapulted by the natural demand to complete its lifecycle. Among the insect species, black soldier fly or Hermetia illucens is widely researched since the larvae can grow in various environments while being saprophagous in nature. Even though black soldier fly larvae (BSFL) can ingest various decay materials, some organic wastes such as sewage sludge or lignocellulosic wastes such as waste coconut endosperm are destitute of decent nutrients that could retard the BSFL growth. Hence, blending with nutrient-rich low-cost substrates such as palm kernel expeller, soybean curd residue, etc. is employed to fortify the nutritional contents of larval feeding substrates prior to administering to the BSFL. Alternatively, microbial fermentation can be adopted to breakdown the lignocellulosic wastes, exuding essential nutrients for growing BSFL. Upon reaching maturity, the BSFL can be harvested to serve as the protein and lipid feedstock. The larval protein can be made into insect meal for farmed animals, whilst the lipid source could be extracted and transesterified into larval biodiesel to cushion the global energy demands. Henceforth, this review presents the influence of various organic wastes introduced to feed BSFL, targeting to reduce wastes and producing biochemicals from mature larvae through entomoremediation. Modification of recalcitrant organic wastes via fermentation processes is also unveiled to ameliorate the BSFL growth. Lastly, the sustainable applications of harvested BSFL biomass are as well covered together with the immediate shortcomings that entail further researches.
    Matched MeSH terms: Lipids
  7. Algae biorefinery: Review on a broad spectrum of downstream processes and products
    Khoo CG, Dasan YK, Lam MK, Lee KT
    Bioresour Technol, 2019 Nov;292:121964.
    PMID: 31451339 DOI: 10.1016/j.biortech.2019.121964
    Algae biomass comprises variety of biochemicals components such as carbohydrates, lipids and protein, which make them a feasible feedstock for biofuel production. However, high production cost mainly due to algae cultivation remains the main challenge in commercializing algae biofuels. Hence, extraction of other high value-added bioproducts from algae biomass is necessary to enhance the economic feasibility of algae biofuel production. This paper is aims to deliberate the recent developments of conventional technologies for algae biofuels production, such as biochemical and chemical conversion pathways, and extraction of a variety of bioproducts from algae biomass for various potential applications. Besides, life cycle evaluation studies on microalgae biorefinery are presented, focusing on case studies for various cultivation techniques, culture medium, harvesting, and dewatering techniques along with biofuel and bioenergy production pathways. Overall, the algae biorefinery provides new opportunities for valorisation of algae biomass for multiple products synthesis.
    Matched MeSH terms: Lipids
  8. Fulltext Case Report: The Use of Intravenous SMOFlipid Infusion to Treat Severe Asparaginase-Induced Hypertriglyceridemia in Two Pediatric Acute Lymphoblastic Leukemia Patients
    Lau SCD, Loh CK, Alias H
    Front Pediatr, 2021;9:660627.
    PMID: 33968859 DOI: 10.3389/fped.2021.660627
    Asparaginase-induced hypertriglyceridemia can have a spectrum of clinical presentations, from being asymptomatic to having life-threatening thrombosis or hyperviscosity syndrome. At present, there is no recommendation on routine lipid monitoring during asparaginase-containing treatment phase, nor a standardized guideline on its management. Two cases are presented here to illustrate the effects of concurrent infection on asparaginase-induced hypertriglyceridemia in patients with high-risk ALL and the use of SMOFlipid infusion as a treatment option in an acute situation.
    Matched MeSH terms: Lipids
  9. Hydrochar production from high-ash low-lipid microalgal biomass via hydrothermal carbonization: Effects of operational parameters and products characterization
    Khoo CG, Lam MK, Mohamed AR, Lee KT
    Environ Res, 2020 09;188:109828.
    PMID: 32798947 DOI: 10.1016/j.envres.2020.109828
    This study aims to produce hydrochar from high-ash low-lipid Chlorella vulgaris biomass via hydrothermal carbonization (HTC) process. The effects of hydrothermal temperature and retention time with respect to the physicochemical properties of hydrochar were studied in the range of 180-250 °C and 0.5-4 h, respectively. It was found that the hydrothermal temperature had resulted in a significant reduction of hydrochar yield as compared to the retention time. The raw microalgal biomass was successfully converted into an energy densified hydrochar via an optimized HTC reaction, with higher heating value (HHV) of 24.51 kJ/g, which was approximately two-times higher than that of raw biomass. In addition, the overall carbon recovery rate and energy yield were in the range of 53.2-86.4% and 46.9-76.6%, respectively. The high quality of the produced hydrochar was further supported by the plot of van Krevelen diagram and combustion behaviour analysis. Besides, the aqueous phase collected from HTC process could be further used as nutrients source to cultivate C. vulgaris, in which up to 70% of the biomass yield could be attained as compared to the control cultivation condition. The reusability of the aqueous phase collected from HTC process as an alternative nutrients source to cultivate microalgal indicated the feasibility and positive integration of HTC process in microalgal biofuel processing chain.
    Matched MeSH terms: Lipids
  10. Fulltext Clinical Practice Guidelines: Management of Dyslipidemia, 5th Edition
    Citation: Clinical Practice Guidelines: Management of Dyslipidemia, 5th Edition. Putrajaya: Ministry of Health, Malaysia; 2017

    Older version:
    Clinical Practice Guidelines: Management of Dyslipidemia, 4th Edition. Putrajaya: Ministry of Health, Malaysia; 2011
    http://www.acadmed.org.my/view_file.cfm?fileid=416
    Keywords: CPG
    Matched MeSH terms: Lipids
  11. Liquid triphasic systems as sustainable downstream processing of Chlorella sp. biorefinery for potential biofuels and feed production
    Koyande AK, Chew KW, Show PL, Munawaroh HSH, Chang JS
    Bioresour Technol, 2021 Aug;333:125075.
    PMID: 33872996 DOI: 10.1016/j.biortech.2021.125075
    Microalgae are potential sustainable renewable sources of energy but are highly underutilized due to the expensive and time-consuming downstream processing. This study aims at curbing these obstacles by extracting multiple components with a single processing unit. In this work, an ultrasound-assisted liquid triphasic flotation system was incorporated to extract proteins, lipids, and carbohydrates by phase separation. The parameters involved were optimized and the final recovery efficiency of proteins, lipids, and carbohydrates was determined. A control run involving conventional three-phase partitioning and a 15-fold scale-up system with the recycling of phase components were also performed. Gas Chromatograph and Fourier Transform Infrared spectroscopy were used to examine the potential of extracted products as a source of biofuel. This biorefinery approach is crucial in commercializing microalgae for biodiesel and bioethanol generation with a side product of purified proteins as feed.
    Matched MeSH terms: Lipids
  12. Deletion of Plasma Membrane Malate Transporters Increased Lipid Accumulation in the Oleaginous Fungus Mucor circinelloides WJ11
    Yang J, Cánovas-Márquez JT, Li P, Li S, Niu J, Wang X, et al.
    J Agric Food Chem, 2021 Aug 25;69(33):9632-9641.
    PMID: 34428900 DOI: 10.1021/acs.jafc.1c03307
    Malate as an important intermediate metabolite, its subcellular location, and concentration have a significant impact on fungal lipid metabolism. Previous studies showed that the mitochondrial malate transporter plays an important role in lipid accumulation in Mucor circinelloides by manipulating intracellular malate concentration. However, the role of plasma membrane malate transporters in oleaginous fungi remains unexplored. Therefore, in this work, two plasma membrane malate transporters "2-oxoglutarate:malate antiporters" (named SoDIT-a and SoDIT-b) of M. circinelloides WJ11 were deleted, and the consequences in growth capacity, lipid accumulation, and metabolism were analyzed. The results showed that deletion of sodit-a or/and sodit-b reduced the extracellular malate, confirming that the products of both genes participate in malate transportation. In parallel, the lipid contents in mutants increased approximately 10-40% higher than that in the control strain, suggesting that the defect in plasma membrane malate transport results in an increase of malate available for lipid biosynthesis. Furthermore, transcriptional analysis showed that the expression levels of multiple key genes involved in the lipid biosynthesis were also increased in the knockout mutants. To the best of our knowledge, this is the first report that demonstrated the association between plasma membrane malate transporters and lipid accumulation in M. circinelloides.
    Matched MeSH terms: Lipids
  13. Palatability of black soldier fly larvae in valorizing mixed waste coconut endosperm and soybean curd residue into larval lipid and protein sources
    Lim JW, Mohd-Noor SN, Wong CY, Lam MK, Goh PS, Beniers JJA, et al.
    J Environ Manage, 2019 Feb 01;231:129-136.
    PMID: 30340132 DOI: 10.1016/j.jenvman.2018.10.022
    The black soldier fly larvae (BSFL) have been widely extolled for the application in managing various solid organic wastes. Owing to the saprophagous nature of BSFL, a rapid valorization of solid organic wastes can be accomplished with the simultaneous production of valuable biochemical compounds derived from larval biomass. In the present works, the mixed waste coconut endosperm (w-CE) and soybean curd residue (SC-r) substrates with increasing protein nutritional constituent were administered to BSFL. The correlations between protein from larval feed substrates and nutritional profiles of BSFL biomasses were ultimately unveiled. The protein from larval feed substrates could be increased by increasing of SC-r portion against w-CE. At the w-CE:SC-r ratio of 3:2, the highest larval total weight gained and growth rate were attained; indicating an optimum protein nutritional constituent in mixed organics (12.4%) that could enhance the BSFL palatability. Further increment of protein nutritional constituent in mixed organics was found acidifying the residual larval feed substrate progressively, undermining the growth of BSFL. By feeding the BSFL with optimum mixed organics, the maximum accumulations of larval lipid and protein could be achieved. Transesterification of extracted lipid had demonstrated high in monounsaturated fatty acids (73%) which was suitable for biodiesel. The BSFL palatability was finally confirmed from the bioconversion viewpoint of mixed organic wastes. Again, achieving the highest bioconversion efficiency of 14% into larval biomass after accounting the metabolic loss of 54%. Therefore, a total of 68% of mixed w-CE and SC-r could be successfully bioconverted.
    Matched MeSH terms: Lipids
  14. Fulltext Growth kinetics of ethidium bromide mutagenized Lipomyces starkeyi strains
    Micky Vincent, Latifah Suali, Afizul Safwan Azahari, Patricia Rowena Mark Baran, Elexson Nillian, Lesley Maurice Bilung
    Journal of Advanced Research in Applied Sciences and Engineering Technology, 2018;11(1):47-54.
    MyJurnal
    Yeast growth and biomass production are greatly influenced by the length of the
    incubation period during cultivation. Therefore, this study was conducted to
    investigate the growth kinetics of five Lipomyces starkeyi strains as determined by
    biomass production. The five L. starkeyi strains, namely L. starkeyi ATCC 12659, L.
    starkeyi MV-1, L. starkeyi MV-4, L. starkeyi MV-5 and L. starkeyi MV-8, were inoculated
    in sterilized Yeast Malt broth, and, incubated for 192 hr at ambient temperature.
    Biomass yields were assessed and calculated gravimetrically every 24 hr. Results
    indicated that the optimal biomass production of L. starkeyi ATCC 12659, L. starkeyi
    MV-1, L. starkeyi MV-4, L. starkeyi MV-5 and L. starkeyi MV-8 were at 120, 168, 144,
    168 and 120 hr, with the concentrations of 6.64, 6.43, 9.78, 11.23 and 8.56 g/L,
    respectively. These results indicate that each L. starkeyi strain requires specific
    incubation period for the optimum production of fungal biomass. Therefore, by
    cultivating each L. starkeyi strain at the predetermined incubation period, biomass
    yields could significantly be improved for further downstream applications such as
    single cell protein and lipid production.
    Matched MeSH terms: Lipids
  15. Enhanced coproduction of astaxanthin and lipids by the green microalga Chromochloris zofingiensis: Selected phytohormones as positive stimulators
    Chen JH, Wei D, Lim PE
    Bioresour Technol, 2020 Jan;295:122242.
    PMID: 31629282 DOI: 10.1016/j.biortech.2019.122242
    Phytohormones comprise a variety of trace bioactive compounds that can stimulate cell growth and promote metabolic shifts. In the present work, a two-stage screening strategy was innovatively established to identify positive phytohormones for enhancement of astaxanthin and lipid coproduction in microplate-based cultures of mixotrophic Chromochloris zofingiensis. The results showed that auxins were the most efficient stimulators for astaxanthin accumulation. The maximum content of 13.1 mg/g and yield of 89.9 mg/L were obtained using indole propionic acid (10 mg/L) and indoleacetic acid (7.8 mg/L), representing the highest levels of astaxanthin in this microalga reported to date. Total lipids with the highest content (64.5% DW) and productivity (445.7 mg/L/d) were coproduced with astaxanthin using indoleacetic acid. Statistical analysis revealed close relations between phytohormones and astaxanthin and lipid biosynthesis. This study provides a novel original strategy for improving astaxanthin and lipid coproduction in C. zofingiensis using the selected phytohormones as positive stimulators.
    Matched MeSH terms: Lipids
  16. Keberkesanan ekstrak Hylocereus polyrhizus merendahkan lipid serum dan aras MDA-TBAR hati tikus teraruh hiperkolesterolemia
    Halimah Abdullah Sani, Asmazila Baharoom, Muhammad Azam Ahmad, Isma Illyani Ismail
    Sains Malaysiana, 2009;38.
    Hiperkolesterolemia merupakan suatu keadaan yang dikaitkan dengan perubahan aras lipid serum serta peningkatan aras peroksidaan lipid. Kajian ini dilakukan untuk melihat kesan ekstrak akues isi dan kulit buah Hylocereus polyrhizus (HP) terhadap jumlah kolesterol dan trigliserid (TG) serum serta aras malonaldehid (MDA-TBAR) hati tikus teraruh hiperkolesterolemia. Tikus Sprague dawley jantan diaruh menjadi hiperkolesterolemia dengan pemberian diet rat chow bersama 15% minyak sapi selama 8 minggu dan 0.02 g kolesterol secara suap paksa dua kali seminggu. Tikus-tikus diberi perlakuan ekstrak isi dan kulit buah HP, 300 mg/kg secara suap paksa selama 10 hari. Hasil menunjukkan aras kolesterol menurun secara signifikan (p<0.05) pada kedua-dua kumpulan hiperkolesterolemia yang diberi rawatan ekstrak isi dan kulit buah HP sebanyak 43.53% dan 51.36% berbanding tikus kawalan hiperkolesterolemia. Aras TG menunjukkan penurunan secara signifikan (p<0.05) sebanyak 38.0% bagi kumpulan tikus yang diberi rawatan ekstrak isi dan 42.98% bagi rawatan dengan ekstrak kulit buah HP. Peningkatan aras MDA-TBAR hati telah direncat dengan penurunan aras MDA-TBAR sebanyak 56.85% bagi kumpulan tikus yang diberi ekstrak kulit serta sedikit penurunan iaitu 10.27% bagi tikus yang diberi ekstrak isi berbanding tikus kawalan hiperkolesterolemia. Kajian ini menunjukkan bahawa kedua-dua ekstrak akues isi dan kulit buah HP merendahkan aras lipid serum serta aras MDA-TBAR hati pada tikus teraruh hiperkolesterolemia. Walau bagaimanapun, kesan ekstrak kulit lebih jelas berbanding ekstrak isi yang mungkin disebabkan oleh kandungan betasianin yang lebih tinggi dalam kulit berbanding isi buah HP.
    Matched MeSH terms: Lipids
  17. Variasi dan sumber sterol di Kuala Selangor, Selangor
    Masni Mohd Ali, Norfariza Humrawali, Mohd Talib Latif
    Sains Malaysiana, 2010;39.
    Kajian ini adalah mengenai peranan sterol sebagai penunjuk bio-lipid untuk mengenal pasti variasi dan sumber bahan organik yang hadir bersama sedimen permukaan dari Kuala Selangor, Selangor. Kajian melibatkan kaedah pengekstrakan sterol daripada sampel sedimen dan seterusnya dianalisis menggunakan GC-MS untuk menentukan kehadiran sebatian tersebut. Sepuluh sebatian sterol dikenal pasti hadir dengan fitosterol merupakan sebatian dominan di kawasan kajian iaitu 79% daripada jumlah keseluruhan sterol. Ini diikuti oleh kolesterol serta sterol kumbahan masing-masing menyumbangkan 6% daripada jumlah keseluruhan sterol manakala selebihnya berada dalam julat 1-5%. Indeks Sumber Sterol (SSI) juga menunjukkan kandungan fitosterol yang tinggi walaupun hadir pada kadar yang berbeza di setiap stesen pensampelan. Penilaian pencemaran kumbahan menggunakan nisbah koprostanol/kolesterol, koprostanol/(koprostanol+kholestanol) serta epikoprostanol/koprostanol menunjukkan kawasan kajian tidak mengalami pencemaran kumbahan walaupun sterol daripada sumber kumbahan hadir di persekitarannya. Kesimpulannya sedimen permukaan di Kuala Selangor, Selangor mengandungi campuran sterol daripada pelbagai sumber yang hadir di persekitarannya dengan didominasi oleh fitosterol yang berasal daripada tumbuhan terestrial.
    Matched MeSH terms: Lipids
  18. Potential utilization of bioproducts from microalgae for the quality enhancement of natural products
    Tang DYY, Khoo KS, Chew KW, Tao Y, Ho SH, Show PL
    Bioresour Technol, 2020 May;304:122997.
    PMID: 32094007 DOI: 10.1016/j.biortech.2020.122997
    Microalgae are autotroph organisms that utilise light energy to synthesize various high-value bioactive compounds such as polysaccharides, proteins and lipids. Due to its fast growth rate and capability to survive in harsh environment, microalgae nowadays are applied in various industrial areas. The process of obtaining microalgae-based biomolecules starts with the selection of suitable microalgae strain, cultivation, followed by downstream processing of the biomass (i.e., pre-treatment, harvesting, extraction and purification). The end products of the processes are biofuels and other valuable bioproducts. Nevertheless, low production yield and high-cost downstream processes are the emerging bottlenecks which need to be addressed in the upscaling of extracted compounds from microalgae biomass. To conclude, tremendous efforts are required to overcome these challenges to revolutionize microalgae into a novel and green factory of different bioactive compounds for industrial necessities to satisfy and fulfil global demands.
    Matched MeSH terms: Lipids
  19. Recent advances in downstream processing of microalgae lipid recovery for biofuel production
    Khoo KS, Chew KW, Yew GY, Leong WH, Chai YH, Show PL, et al.
    Bioresour Technol, 2020 May;304:122996.
    PMID: 32115347 DOI: 10.1016/j.biortech.2020.122996
    The world energy system faces two major challenges: the requirement for more energy and less carbon. It is important to address biofuels production as an alternative to the usage of fossil fuel by utilizing microalgae as the potential feedstock. Yet, the commercialization of microalgae remains contentious caused by factors relating to the life cycle assessment and feasibility of microalgae-based biofuels. This present review starts with an introduction to the benefits of microalgae, followed by intensive elaboration on microalgae cultivation parameters. Subsequently, the fundamental principle along with the advantages and disadvantages of various pretreatment techniques of microalgae were reviewed. In addition, the conventional and recent advances in lipid extraction techniques from microalgae were comprehensively evaluated. Comparative analysis regard to the gaps from previous studies was discussed point-by-point in each section. The effort presented in this review will provide an insight for future researches dealing with microalgae-biofuel production on downstream processing.
    Matched MeSH terms: Lipids
  20. Investigating the effects of eleven key physicochemical factors on growth and lipid accumulation of Chlorella sp. as a feedstock for biodiesel production
    Parichehreh R, Gheshlaghi R, Mahdavi MA, Kamyab H
    J Biotechnol, 2021 Nov 10;340:64-74.
    PMID: 34454961 DOI: 10.1016/j.jbiotec.2021.08.010
    Biodiesel, as a renewable and eco-friendly energy source that can be produced through algae oil esterification, has recently received much attention. Maximization of algal biomass and lipid content is crucial for commercial biodiesel production. In this study, Chlorella sp. PG96, a microalgal strain isolated from urban wastewater, was identified considering its morphological and molecular characteristics. Fractional factorial design (211-7) was employed to screen medium and environmental factors for achieving high lipid productivity. The effects of eleven factors including light intensity, light spectrum, aeration rate, temperature, salinity, NaHCO3, CO2, NaNO3, NH4Cl, MgSO4.7H2O, and K2HPO4 and their interactions on growth characteristics of Chlorella sp. PG96 (biomass and lipid production) were statistically assessed. Based on the experimental results, lipid productivity was at its maximum (54.19 ± 8.40 mglipid L-1 day-1) under a combination of high levels of all factors. The analysis also showed that physical parameters of light intensity and temperature were more effective on algal growth compared to nutritional parameters. Furthermore, nitrogen source of ammonium and carbon source of bicarbonate played more significant roles in biomass and lipid production, compared with nitrate and CO2, respectively. Although the effect of sulfur limitation on cellular growth was similar to phosphorus deficiency, S-limitation had a greater impact on lipid accumulation. The interaction between NaHCO3 and NH4Cl was the most prominent interaction affecting all responses. It is concluded that Chlorella sp. PG96 at a high level of light intensity and temperature (22500 Lux and 32 °C, respectively) can be a prospective candidate for biodiesel production.
    Matched MeSH terms: Lipids
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