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71.
Protein and protein-lipid interactions, with and within specific areas in the cell membrane, are critical in order to modulate the cell signaling events required to maintain cell functions and viability. Biological bilayers are complex, dynamic platforms, and thus in vivo observations usually need to be preceded by studies on model systems that simplify and discriminate the different factors involved in lipid-protein interactions. Fluorescence microscopy studies using giant unilamellar vesicles (GUVs) as membrane model systems provide a unique methodology to quantify protein binding, interaction, and lipid solubilization in artificial bilayers. The large size of lipid domains obtainable on GUVs, together with fluorescence microscopy techniques, provides the possibility to localize and quantify molecular interactions. Fluorescence Correlation Spectroscopy (FCS) can be performed using the GUV model to extract information on mobility and concentration. Two-photon Laurdan Generalized Polarization (GP) reports on local changes in membrane water content (related to membrane fluidity) due to protein binding or lipid removal from a given lipid domain. In this review, we summarize the experimental microscopy methods used to study the interaction of human apolipoprotein A-I (apoA-I) in lipid-free and lipid-bound conformations with bilayers and natural membranes. Results described here help us to understand cholesterol homeostasis and offer a methodological design suited to different biological systems. 相似文献
72.
Fui Chin Chong Beng Ti Tey Zanariah Mohd Dom Kok Hing Cheong Budiatman Satiawihardja Mohd Nordin Ibrahim Russly Abdul Rahman Dayang Radiah Awang Biak Tau Chuan Ling 《Biotechnology and Bioprocess Engineering》2007,12(3):250-256
Rice bran lipase (RBL) was delipidated to enhance its stability in organic solvent and its esterification activity at elevated
temperature. The esterification activity of delipidated RBL increased as temperature was increased from 45 to 65°C. The esterification
activity of delipidated RBL at 65°C was about 14 times greater than that of the non-delipidated RBL. As temperature was further
increased to 75°C, the non-delipidated RBL lost all esterification activity, whereas the delipidated RBL retained approximately
48% of its esterilication activity. The delipidated RBL maintained a relative esterification activity greater than 80% after
16 h of incubation in hexane, whereas the non-delipidated RBL maintained a relative esterification activity of only 50%. A
method for production of acylglycerol using delipidated RBL to esterify palm oil fatty acid distillate (PFAD) with glycerol
in hexane was successfully developed. The effects of reaction temperatures and type of water removal agents (silica gel and
molecular sieve) on the degree of esterification were also examined. A 4 h reaction at 65°C, catalyzed by delipidated RBL
and using silica gel as the water removal agent resulted in 53.8% esterification. Thin layer chromatography analysis suggested
that the esterified product was primarily comprised of mono-and di-acylglycerols. 相似文献
73.
以甘油二烷基甘油四醚(glycerol dialkyl glycerol tetraethers,GDGTs)为主的跨膜醚脂化合物是古菌和部分细菌细胞膜的重要组成成分。作为分子化石,GDGTs化合物对环境变化响应敏感,以其为基础的有机地球化学指标在定量重建海洋与陆地的古环境研究中发挥出独特的优势。然而,GDGTs指标在广泛应用的同时也不断出现适用性和准确性问题。其关键原因在于GDGTs的生物合成和生理机制研究相对匮乏,难以为指标提供分子生物学与生理学基础。近年来,在多学科的交叉融合下,古菌类异戊二烯GDGTs的生物合成研究取得了令人瞩目的进展。这些成果为脂类生物标志物的地学应用及生物源的确定提供了可靠的生物学基础和新的研究思路。本文综述了古菌类异戊二烯GDGTs的生物合成过程,提出了细菌支链GDGTs生物合成途径的假说,讨论了GDGTs生理过程的生物地球化学意义,并初步展望了GDGTs研究领域未来重要的发展方向。 相似文献
74.
75.
Glycerol‐3‐phosphate metabolism plays a role in stress response in the red alga Pyropia haitanensis
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Xiao‐Juan Lai Rui Yang Qi‐Jun Luo Juan‐Juan Chen Hai‐Min Chen Xiao‐Jun Yan 《Journal of phycology》2015,51(2):321-331
Glycerol‐3‐phosphate (G3P) has been suggested as a novel regulator of plant defense signaling, however, its role in algal resistance remains largely unknown. The glycerol kinase (also designated as NHO1) and NAD‐dependent G3P dehydrogenase (GPDH) are two key enzymes involved in the G3P biosynthesis. In our study, we cloned the full‐length cDNA of NHO1 (NHO1Ph) and GPDH (GPDHPh) from the red alga Pyropia haitanensis (denoted as NHO1Ph and GPDHPh) and examined their expression level under flagellin peptide 22 (flg22) stimulation or heat stress. We also measured the level of G3P and floridoside (a downstream product of G3P in P. haitanensis) under flg22 stimulation or heat stress. Both NHO1Ph and GPDHPh shared high sequence identity and structural conservation with their orthologs from different species, especially from red algae. Phylogenetic analysis showed that NHO1s and GPDHs from red algae were closely related to those from animals. Under flg22 stimulation or heat stress, the expression levels of NHO1Ph and GPDHPh were up‐regulated, G3P levels increased, and the contents of floridoside decreased. But the floridoside level increased in the recovery period after heat stress. Taken together, we found that G3P metabolism was associated with the flg22‐induced defense response and heat stress response in P. haitanensis, indicating the general conservation of defense response in angiosperms and algae. Furthermore, floridoside might also participate in the stress resistance of P. haitanensis. 相似文献
76.
77.
Pretreatment of lignocellulosic residues like water hyacinth (WH) and wheat straw (WS) using crude glycerol (CG) and ionic liquids (IL) pretreatment was evaluated and compared with conventional dilute acid pretreatment (DAT) in terms of enzymatic hydrolysis yield and fermentation yield of pretreated samples. In the case of WS, 1-butyl-3-methylimidazolium acetate pretreatment was found to be the best method. The hydrolysis yields of glucose and total reducing sugars were 2.1 and 3.3 times respectively higher by IL pretreatment than DAT, while it was 1.4 and 1.9 times respectively higher with CG pretreatment. For WH sample, CG pretreatment was as effective as DAT and more effective than IL pretreatment regarding hydrolysis yield. The fermentation inhibition was not noticeable with both types of pretreatment methods and feedstocks. Besides, CG pretreatment was found as effective as pure glycerol pretreatment for both feedstocks. This opens up an attractive economic route for the utilization of CG. 相似文献
78.
Ustilago maydis is known to produce glycolipid-type biosurfactants. Here, we show that U. maydis is able to efficiently convert biodiesel-derived crude glycerol to glycolipids. We have optimized the medium composition and environmental factors for bioconversion of crude glycerol to glycolipids. The synthetic medium (MinCG) contains 50 g L−1 crude glycerol and 20.3 mg L−1 ammonium citrate as the carbon and nitrogen sources, respectively. The supplementation of trace amount of amino acids, Group-B vitamins and precursors of glycolipids, mannose and erythritol, also improved the final yield. At pH 4.0 and 30 °C, 32.1 g L−1 total glycolipids was produced in a 8.2-day fed-batch bioprocess. Methanol at 2% or above severely inhibited cell growth and production of glycolipids. Our results suggest that U. maydis is an excellent host for the bioconversion of crude glycerol to value-added products. 相似文献
79.
Wang MM 《The international journal of biochemistry & cell biology》2011,43(11):1550-1562
Originally discovered nearly a century ago, the Notch signaling pathway is critical for virtually all developmental programs and modulates an astounding variety of pathogenic processes. The DSL (Delta, Serrate, LAG-2 family) proteins have long been considered canonical activators of the core Notch pathway. More recently, a wide and expanding network of non-canonical extracellular factors has also been shown to modulate Notch signaling, conferring newly appreciated complexity to this evolutionarily conserved signal transduction system. Here, I review current concepts in Notch signaling, with a focus on work from the last decade elucidating novel extracellular proteins that up- or down-regulate signal potency. 相似文献
80.
Gidda SK Shockey JM Falcone M Kim PK Rothstein SJ Andrews DW Dyer JM Mullen RT 《Traffic (Copenhagen, Denmark)》2011,12(4):452-472
The endoplasmic reticulum (ER) is a dynamic organelle that consists of numerous regions or 'subdomains' that have discrete morphological features and functional properties. Although it is generally accepted that these subdomains differ in their protein and perhaps lipid compositions, a clear understanding of how they are assembled and maintained has not been well established. We previously demonstrated that two diacylglycerol acyltransferase enzymes (DGAT1 and DGAT2) from tung tree (Vernicia fordii) were located in different subdomains of ER, but the mechanisms responsible for protein targeting to these subdomains were not elucidated. Here we extend these studies by describing two glycerol-3-phosphate acyltransferase-like (GPAT) enzymes from tung tree, GPAT8 and GPAT9, that both colocalize with DGAT2 in the same ER subdomains. Measurement of protein-protein interactions using the split-ubiquitin assay revealed that GPAT8 interacts with itself, GPAT9 and DGAT2, but not with DGAT1. Furthermore, mutational analysis of GPAT8 revealed that the protein's first predicted hydrophobic region, which contains an amphipathic helix-like motif, is required for interaction with DGAT2 and for DGAT2-dependent colocalization in ER subdomains. Taken together, these results suggest that the regulation and organization of ER subdomains is mediated at least in part by higher-ordered, hydrophobic-domain-dependent homo- and hetero-oligomeric protein-protein interactions. 相似文献