Research Advances in the Inhibition of Long Chain Fatty Acid to Methanogenic Activity in Anaeroic Digestion System

This article reviewed the inhibition mechanism of long chain fatty acid on the formation of anaerobic system, then thoroughly analyzed the inhibition factors of long chain fatty acid, and summarized the remission method to its inhibition, finally proposed some suggestions to further study on the influence of long chain fatty acid on anaerobic digestion system.

Synthesis of Long Chain Fatty Acids Acylated Coumarin Glycoside Esters with Lipase as Catalyst

A series of novel coumarin glycoside esters（1-9） was synthesized through the acylation reaction of 4-methylcoumarin-7-O-β-D-glucoside（11） with different long chain fatty acids catalyzed by lipase in organic medium. The acylation occurred regioselectively at the 6＇-OH of glycosyl moiety. The enzymatic synthesis was optimized to achieve 54%-70% yield using immobilized lipase（Novozym 435, 10 mg/mL） as catalyst and acetone and pyri- dine（9：1, volume ratio, water content〈1%） as solvent with an acyl donor/coumarin glycoside molar ratio of 10：1 at a temperature of 40--50 ℃ for 96 h. All the synthesized compounds were confirmed.

Case Report: Carnitine Palmitoyl Transferase II (CPT II) Deficiency

Carnitine Palmitoyl Transferase II (CPTII) is a very important enzyme that helps with the oxidation of long-chain fatty acid to produce energy. Deficiency in CPTII will lead to energy deficiency in the case of fasting and the accumulation of the long chain fatty in the body. There are three types of CPT II deficiency, the myopathic form, the severe infantile hepatocardiomuscular form and the lethal neonatal form. They are all inherited as an autosomal recessive. Diagnosis of the CPTII are 1) tandem mass spectrometry (MS/MS) in adult form and 2) CPTII polymorphism (F352C), which is linked to reducing the activity of CPTII in infantile form [1]. Glucose is the primary management and medium-chain fatty acid is an alternative due to the bypass of the CPTII enzyme in the pathway. For the prevention of CPTII deficiency are to avoid long chain fatty acid (C12-fatty acid), fasting, prolonged exercise, known triggers, and certain medications such as anti-epileptics and general anesthesia. During the rhabdomyolysis and myoglobinuria attack, it is very important to maintain hydration to avoid acute renal failure. If, however, renal failure occurs, dialysis is recommended. We present a case of a 27-year-old African American woman with the significant past medical history of CPT II deficiency leading to recurrent rhabdomyolysis and myoglobinuria. Together with all the research studies from diagnosis to treatment of CPTII deficiency will help in clinical management of patients. And this case report will add to the existing case reports of patients who have CPTII deficiency in terms of how we diagnose, how we treat, and how we prevent symptoms from re-occurring.

Correlation between the different chain lengths of free fatty acid oxidation and abili .ty of trophoblastic invasion

Background Preeclampsia （PE） is associated with abnormal fatty acid beta-oxidation （FAO）, especially metabolic disorders of long-chain fatty acid oxidation. The role of FAO dysfunction in inadequate invasion is unclear. The aim of this study was to explore the influence of various lengths fatty acids oxidation on invasiveness of trophoblasts. Methods Primary human trophoblast cells and HTR8/SVneo cells were treated with fatty acids of various lengths. Morphological changes, lipid deposition and ultrastructure changes of trophoblast cells were detected. Cells invasiveness was determined by transwell insert. CPT1, CPT2 and long-chain 3-hydroxyacyI-CoA dehydrogenase （LCHAD） protein expression were analyzed. The correlation between intracellular lipid droplets deposition and cells invasiveness was evaluated. Results Cells treated with long-chain fatty acids showed significant increased lipid droplets deposition, severe mitochondrial damage, decreased CPT2 and LCHAD protein expression （P 〈0.05） but no significant difference in CPT1 protein expression （P 〉0.05）. Invasiveness of the trophoblast cells of the LC-FFA group significantly decreased （P 〈0.05）. Intracellular lipid droplets deposition was negatively correlated with invasivenss （R=-0.745, P 〈0.05）. Conclusion Trophoblast cells after stimulation with long chain fatty acids exist fatty acid oxidation disorders, and reduce the ability of trophoblastic invasion.

Nutritional modulation of the inflammatory response in inflammatory bowel disease-From the molecular to the integrative to the clinical

Nutrient deficiencies are common in patients with inflammatory bowel disease （IBD）. Both total parenteral and enteral nutrition provide important supportive therapy for IBD patients, but in adults these are not useful for primary therapy. Dietary intervention with omega-3 polyunsaturated fatty acids contained in fish oil may be useful for the care of IBD patients, and recent studies have slyessed the role of PPAR on NFKB activity on the potential beneficial effect of dietary lipids on intestinal function.

Total Replacement of Fish Oil with Vegetable Oils in the Diet of Juvenile Jade Perch Scortum barcoo Reared in Recirculating Aquaculture Systems

To determine the replacement of fish oil with vegetable oils in the diet of juvenile Jade perch Scortum barcoo, four feeds with each a different oil （fish, sunflower, linseed and a mixture of 75% canola and 25% linseed oil）, were fed to Jade perch reared in recirculating aquaculture systems （RAS）. The trial lasted for 10 weeks and the fatty acid （FA） profile of both feed and fish muscle tissue were examined. There was no difference in growth, feed conversion rate （FCR） and mortality. The fish grew from 10 g to 110 g with a FCR of 1.25 and 0 mortality. The FA profile of the fish muscle tissue reflected the FA profile of the feed. The flesh of the fish that were fed the linseed oil diet, were extremely high in omega-3 （n-3） polyunsaturated FA （n-3 PUFA） with 3.75% of wet weight. This is one of the highest concentrations of n-3 PUFA ever recorded in fish flesh. In a finishing feeding test, the remaining vegetable oil fed fish were fed the fish oil diet for another two weeks immediately after the 10 weeks trial, to check for a possible recovery of n-3 highly unsaturated fatty acids （HUFA）. The wash out rate of FA towards n-3 HUFA in the muscle tissue was about 25% over this two weeks period.

Two putative fatty acid synthetic genes of BgFas3 and BgElo1 are responsible for respiratory waterproofing in Blattella germanica

Water retention is critical for physiological homeostasis and survival in terrestrial insects. While deposition of hydrocarbons on insect cuticles as a key measure for water conservation has been extensively investigated, we know little about other mechanisms for preventing water loss in insects. Here, we report two fatty acid synthetic genes that are independent of hydrocarbon production but crucial for water retention in the German cockroach Blattella germanica (L.). First, an integument enriched fatty acid elongase gene (BgElo1) was identified as a critical gene for desiccation resistance in B. germanica;however, knockdown of BgElo1 surprisingly failed to cause a decline in cuticular lipids. In addition, RNA interference (RNAi)-knockdown of an upstream fatty acid synthase gene (BgFas3) showed a similar phenotype, and transmission electron microscopy analysis revealed that BgFas3- or BgElo1-RNAi did not affect cuticle architecture. Bodyweight loss test showed that repression of BgFas3 and BgElo1 significantly increased the weight loss rate, but the difference disappeared when the respiration was closed by freeze killing the cockroaches. A water immersion test was performed, and we found that BgFas3- and BgElo1-RNAi made it difficult for cockroaches to recover from drowning, which was supported by the upregulation of hypoxia-related genes after a 10-h recovery from drowning. Moreover, a dyeing assay with water-soluble Eosin Y showed that this was caused by the entry of water into the respiratory system. Our research suggests that BgFas3 and BgElo1 are required for both inward and outward waterproofing of the respiratory system. This study benefits the understanding of water retention mechanisms in insects.

Identification of KCS gene family and functional analysis of FAE-like genes from Malania oleifera

KCS(3-ketoacyl-CoA synthase)is the key enzyme catalyzing the first step of very long chain fatty acid(VLCFA)biosynthesis.Studies showed that different KCSs possessed different substrate preference.Malania oleifera are abundance of VLCFAs in its mature seeds,especially the nervonic acid,which is essential for human health.In this study,we identified and characterized 18 KCS genes in M.oleifera genome.Phylogenetic analysis showed that these KCS genes were classified into four subfamilies,including two FAE-like,six KCS-like,eight FDH-like and two CER6.We concentrated on the functional role of two FAE-like genes,Maole003085.T1 and Maole004215.T1 which encoded predicted amino acid residues of 516 and 518 in protein,respectively.Multiple sequence alignment showed that their two proteins contained the known and conserved active sites among FAE-like subfamily.Upon heterologous expression in wild type yeast(Saccharomyces cerevisiae)INVSc1,we found that Maole004215.T1 could produce four new fatty acids including C22:0/C22:1 and C24:0/C24:1,but Maole003085.T1 only produced C22:1.Besides,upon heterologous expression in mutant yeast BY4741-△elo3,we found the Maole003085.T1 could produce C24:0 and C26:0,while the Maole004215.T1 could catalyze the formation of fatty acids C24:0,C26:0 and C28:0.These results showed Maole003085.T1 and Maole004215.T1 had fatty acid elongation activity in yeast,and possessed different substrate preference in the production of different VLCFAs.Interestingly,we found Maole004215.T1 could produce nervonic acid in yeast,which provides molecular basis on the genetic improvement and genic engineering for producing nervonic acid resources by using biotechnological methods.

Conversion of Australian Food Composition Data from AUSNUT1999 to 2007 in the Clinical Trial Context

An Australian food composition database, AUSNUT1999, does not include long chain omega-3 polyunsaturated fatty acid （LC omega-3 PUFA） data. Measurement of the fatty acid content of diets initially analysed using AUSNUT1999 requires conversion to AUSNUT2007, an updated database inclusive of LC omega-3 PUFA. The aim of this study was to convert clinical trial dietary data from AUSNUT1999 to AUSNUT2007 and measure LC omega-3 PUFA intake. Clinical trial diet history （DH） data was converted from AUSNUTI999 to 2007 using a staged approach. Macronutrient intake from AUSNUTI999 and 2007 were calculated and compared via paired t-tests and Wilcoxon Signed Ranks tests. Mean dietary LC omega-3 PUFA intake and the percentage contribution of food groups to total LC omega-3 PUFA were then calculated. DHs were collected at baseline （n = 118）, three months （n = 86）, and 12 months （n = 64）. The accuracy of the conversion process improved with time, with no significant difference between most macronutrients at 12 months. Mean LC n-3 PUFA intake was 441.87 mg at baseline, 521.07 mg at 3 months, and 442.40 mg at 12 months, and was predominantly provided by fish and seafood, followed by meat products. This study allowed for the measurement of LC omega-3 intake, which was previously impossible using the AUSNUT 1999 database.

HOS3, an ELO-Like Gene, Inhibits Effects of ABA and Implicates a S-1-P/Ceramide Control System for Abiotic Stress Responses in Arabidopsis thaliana

A hyper-osmotically sensitive mutant of Arabidopsis thaliana, designated hos3-1 （high expression of osmotically responsive genes）, was identified based on its hyper-luminescence of RD29A：LUC promoter fusion plants upon treatment with NaCI and ABA. These responses implicate the disrupted gene as a direct or indirect negative regulator of the RD29A stress-responsive pathway. By sequencing the flanking regions of the T-DNA borders, it was determined that the disrupted gene is at locus At4g36830, annotated as encoding a putative protein with high homology to CIG30 （ELO2/FEN1）. CIG30 has been implicated in synthesis of very long chain fatty acids （VLCFA）, which are essential precursors for sphingolipids and ceramides. Altered stress responses characteristic of ABA-hypersensitivity, including reduced root growth inhibition and reduced germination with ABA treatment and reduced water loss from leaves, were exhibited by allelic hos3-1 and hos3-2 mutants. The hos3-2 mutant is partially suppressed in its transcript abundance and is inherited as a recessive trait. Further, the HOS30RF under the control of the 35SCaMV promoter restored wild-type NaCI- and ABA-root growth sensitivity as well as RD29A：LUC luminescence in mutant plants. We also show here that the HOS3 wild-type gene functionally complements the sensitivity of elo2 and elo3 yeast mutants to monensin. Furthermore, both hos3-1 and hos3-2 alleles shared increased sensitivity to the herbicide Metolachlor, which inhibits acyl chain elongation in synthesis of VLCFA, and HOS3 functionally complemented both elo2 and elo3 and restored levels of VLCFA. Together, these data establish that HOS3 inhibits ABA-mediated stress responses and implicate the VLCFA pathway and products as control points for several aspects of abiotic stress signaling and responses. The results also provide support for a role of ceramide in the control of stomatal behavior.

Genome-scale analysis of the cotton KCS gene family revealed a binary mode of action for gibberellin A regulated fiber growth

Production of b-ketoacyl-Co A, which is catalyzed by 3-ketoacyl-CoA synthase（KCS）, is the first step in very long chain fatty acid（VLCFA） biosynthesis. Here we identified 58 KCS genes from Gossypium hirsutum, 31 from G. arboreum and 33 from G. raimondii by searching the assembled cotton genomes. The gene family was divided into the plant-specific FAE1-type and the more general ELO-type. KCS transcripts were widely expressed and 32 of them showed distinct subgenome-specific expressions in one or more cotton tissues/organs studied. Six Gh KCS genes rescued the lethality of elo2Δelo3Δ yeast double mutant,indicating that this gene family possesses diversified functions.Most KCS genes with GA-responsive elements（GAREs） in the promoters were significantly upregulated by gibberellin A_3（GA）.Exogenous GA_3 not only promoted fiber length, but also increased the thickness of cell walls significantly. GAREs present also in the promoters of several cellulose synthase（CesA） genes required for cell wall biosynthesis and they were all induced significantly by GA_3. Because GA treatment resulted in longer cotton fibers with thicker cell walls and higher dry weight per unit cell length, we suggest that it may regulate fiber elongation upstream of the VLCFA-ethylene pathway and also in the downstream steps towards cell wall synthesis.