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1.
During mouse oocyte maturation histones are deacetylated, and inhibiting this deacetylation leads to abnormal chromosome segregation and aneuploidy. RBBP7 is a component of several different complexes that contain histone deacetylases, and therefore could be implicated in histone deacetylation. We find that Rbbp7 is a dormant maternal mRNA that is recruited for translation during oocyte maturation to regulate the histone deacetylation. Importantly, we show that the maturation-associated decrease of histone acetylation is required for localization and function of the chromosomal passenger complex (CPC) during oocyte meiotic maturation. This finding can explain the phenotypes of oocytes where Rbbp7 is depleted by an siRNA/morpholino cocktail including severe chromosome misalignment, improper kinetochore–microtubule attachments, impaired SAC function, cytokinesis defects, and increased incidence of aneuploidy at metaphase II (Met II). These results implicate RBBP7 as a novel regulator of histone deacetylation during oocyte maturation and provide evidence that such deacetylation is required for proper chromosome segregation by regulating localized CPC function. 相似文献
2.
The non‐toxic compound N‐acetyl‐L‐phosphinothricin (N‐Ac‐L‐PPT) is used in a so‐called deacetylation system to induce male sterility in transgenic plants by tapetum specific deacetylation to the herbicide L‐phosphinothricin (L‐PPT). A procedure was developed to produce pure racemic and L‐isomeric N‐Ac‐PPT containing less than 30 ppm residual PPT. Experiments applied to wild type tobacco and PPT‐resistant tobacco showed that the maximal tolerated N‐Ac‐PPT concentration would be less than 45 mM of the L‐isomer. Otherwise unspecific deacetylation by several acylases, as well as by environmental conditions like higher temperatures or pHs beyond neutrality, increased the residual L‐PPT content to toxic concentrations. In contrast, N‐acetyl‐L‐phosphinothricyl‐alanyl‐alanine (N‐Ac‐L‐PPTT), a substance also occurring during the biosynthesis of phosphinothricyl‐alanyl‐alanine (PPTT) by some Streptomyces species, was tolerated up to 274 mM by wild type tobacco plants. However, the ArgE deacatylase from Escherichia coli originally used in the deacetylation system, as well as some other acylases, showed no activity towards N‐Ac‐L‐PPTT. 相似文献
3.
Abhijit N. Shirke Glenn L. Butterfoss Rakhi Saikia Aditya Basu Leonardo de Maria Allan Svendsen Richard A. Gross 《Biotechnology journal》2017,12(8)
Cutinases comprise a family of esterases with broad hydrolytic activity for chain and pendant ester groups. This work aimed to identify and improve an efficient cutinase for cellulose acetate (CA) deacetylation. The development of a mild method for CA fiber surface deacetylation will result in improved surface hydrophilicity and reactivity while, when combined with cellulases, a route to the full recycling of CA to acetate and glucose. In this study, the comparative CA deacetylation activity of four homologous wild‐type (wt) fungal cutinases from Aspergillus oryzae (AoC), Thiellavia terrestris (TtC), Fusarium solani (FsC), and Humicola insolens (HiC) was determined by analysis of CA deacetylation kinetics. wt‐HiC had the highest catalytic efficiency (≈32 [cm2 L‐1]‐1 h‐1). Comparison of wt‐cutinase catalytic constants revealed that differences in catalytic efficiency are primarily due to corresponding variations in corresponding substrate binding constants. Docking studies with model tetrameric substrates also revealed structural origins for differential substrate binding amongst these cutinases. Comparative docking studies of HiC point mutations led to the identification of two important rationales for engineering cutinases for CA deacetylation: (i) create a tight but not too closed binding groove, (ii) allow for hydrogen bonding in the extended region around the active site. Rationally designed HiC with amino acid substitutions I36S, predicted to hydrogen bond to CA, combined with F70A, predicted to remove steric constraints, showed a two‐fold improvement in catalytic efficiency. Continued cutinase optimization guided by a detailed understanding of structure‐activity relationships, as demonstrated here, will be an important tool to developing practical cutinases for commercial green chemistry technologies. 相似文献
4.
Deacetylation biocatalysis and elicitation by immobilized Penicillium canescens in Astragalus membranaceus hairy root cultures: towards the enhanced and sustainable production of astragaloside IV
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Qing‐Yan Gai Jiao Jiao Meng Luo Wei Wang Li‐Ping Yao Yu‐Jie Fu 《Plant biotechnology journal》2017,15(3):297-305
A novel biotechnology approach by combining deacetylation biocatalysis with elicitation of immobilized Penicillium canescens (IPC) in Astragalus membranaceus hairy root cultures (AMHRCs) was proposed for the elevated production of astragaloside IV (AG IV). The highest AG IV accumulation was achieved in 36‐day‐old AMHRCs co‐cultured with IPC for 60 h, which resulted in the enhanced production of AG IV by 14.59‐fold in comparison with that in control (0.193 ± 0.007 mg/g DW). Meanwhile, AG IV precursors were almost transformed to AG IV by IPC deacetylation. Moreover, expression of genes involved in AG IV biosynthetic pathway was significantly up‐regulated in response to IPC elicitation. Also, FTIR and SEM showed that cell wall lignification was enhanced following IPC treatment and root surface was likely to be IPC deacetylation site. Overall, dual roles of IPC (biocatalyst and elicitor) offered an effective and sustainable way for the mass production of AG IV in AMHRCs. 相似文献
5.
Investigating chitin deacetylation and chitosan hydrolysis during vegetative growth in Magnaporthe oryzae
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Chitin deacetylation results in the formation of chitosan, a polymer of β1,4‐linked glucosamine. Chitosan is known to have important functions in the cell walls of a number of fungal species, but its role during hyphal growth has not yet been investigated. In this study, we have characterized the role of chitin deacetylation during vegetative hyphal growth in the filamentous phytopathogen Magnaporthe oryzae. We found that chitosan localizes to the septa and lateral cell walls of vegetative hyphae and identified 2 chitin deacetylases expressed during vegetative growth—CDA1 and CDA4. Deletion strains and fluorescent protein fusions demonstrated that CDA1 is necessary for chitin deacetylation in the septa and lateral cell walls of mature hyphae in colony interiors, whereas CDA4 deacetylates chitin in the hyphae at colony margins. However, although the Δcda1 strain was more resistant to cell wall hydrolysis, growth and pathogenic development were otherwise unaffected in the deletion strains. The role of chitosan hydrolysis was also investigated. A single gene encoding a putative chitosanase (CSN) was discovered in M. oryzae and found to be expressed during vegetative growth. However, chitosan localization, vegetative growth, and pathogenic development were unaffected in a CSN deletion strain, rendering the role of this enzyme unclear. 相似文献
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Control of the heparosan <Emphasis Type="Italic">N</Emphasis>-deacetylation leads to an improved bioengineered heparin 总被引:2,自引:0,他引:2
Wang Z Yang B Zhang Z Ly M Takieddin M Mousa S Liu J Dordick JS Linhardt RJ 《Applied microbiology and biotechnology》2011,91(1):91-99
The production of the anticoagulant drug heparin from non-animal sources has a number of advantages over the current commercial
production of heparin. These advantages include better source material availability, improved quality control, and reduced
concerns about animal virus or prion impurities. A bioengineered heparin would have to be chemically and biologically equivalent
to be substituted for animal-sourced heparin as a pharmaceutical. In an effort to produce bioengineered heparin that more
closely resembles pharmaceutical heparin, we have investigated a key step in the process involving the N-deacetylation of heparosan. The extent of N-deacetylation directly affects the N-acetyl/N-sulfo ratio in bioengineered heparin and also impacts its molecular weight. Previous studies have demonstrated that the presence
and quantity of N-acetylglucosamine in the nascent glycosaminoglycan chain, serving as the substrate for the subsequent enzymatic modifications
(C5 epimerization and O-sulfonation), can impact the action of these enzymes and, thus, the content and distribution of iduronic acid and O-sulfo groups. In this study, we control the N-deacetylation of heparosan to produce a bioengineered heparin with an N-acetyl/N-sulfo ratio and molecular weight that is similar to animal-sourced pharmaceutical heparin. The structural composition and
anticoagulant activity of the resultant bioengineered heparin was extensively characterized and compared to pharmaceutical
heparin obtained from porcine intestinal mucosa. 相似文献
8.
DNA methylation and histone acetylation are major epigenetic modifications in gene silencing. In our previous research, we found that the methylated oligonucleotide (SurKex) complementary to a region of promoter of survivin could induce DNA methylation in a site-specific manner leading to survivin silencing. Here, we further studied the role of histone acetylation in survivin silencing and the relationship between histone acetylation and DNA methylation.First we observed the levels of histone H4 and H4K16 acetylation that were decreased after SurKex treatment by using the chromatin immunoprecipitation (ChIP) assay. Next, we investigated the roles of histone acetylation and DNA methylation in survivin silencing after blockade of histone deacetylation with Trichostatin A (TSA). We assessed survivin mRNA expression by RT-PCR, measured survivin promoter methylation by bisulfite sequencing and examined the level of histone acetylation by the ChIP assay. The results showed that histone deacetylation blocked by TSA reversed the effects of SurKex on inhibiting the expression of survivin mRNA, inducing a site-specific methylation on survivin promoter and decreasing the level of histone acetylation. Finally, we examined the role of histone acetylation in the expression of DNA methyltransferase 1 (DNMT1) mRNA. The results showed that histone deacetylation blocked by TSA reversed the increasing effect of histone deacetylation on the expression of survivin mRNA. This study suggests that histone deacetylation guides SurKex-induced DNA methylation in survivin silencing possibly through increasing the expression of DNMT1 mRNA. 相似文献
9.
Effect of Chitosan, Chitin and some Aminosugars on Growth of Various Soilborne Phytopathogenic Fungi 总被引:2,自引:0,他引:2
The effect of bleached chitin, 66% and 91% deacetylated chitosan, respectively, as well as some aminosugars on in vitro radial growth of several phytopathogenic oomycetes and deuteromycets was studied In contrast to chitin, chitosan was inhibitory to the fungi The antifungal activity depended on the degree of deacetylation, the particle diameter of the polymer, the growth medium and the pH. Likewise, deacetylation of the monomers different media varied, indicating a possible counteraction by the carbohydrate sources. 相似文献
10.
Yu Feng Jiahui Wu Lei Chen Chen Luo Xu Shen Kaixian Chen Hualiang Jiang Dongxiang Liu 《Analytical biochemistry》2009,395(2):205-210
Sirtuins are nicotinamide adenine dinucleotide (NAD+)-dependent deacetylases that catalyze the deacetylation of proteins such as histones and p53. A sensitive and convenient fluorometric assay for evaluating the SIRT1 enzymatic activity was developed here. Specifically, the remaining NAD+ after the deacetylation was determined by converting NAD+ to a highly fluorescent cyclized α-adduct compound. By this assay, we found that nicotinamide, Cu2+, and Zn2+ antagonize the activity of SIRT1. Resveratrol stimulates the enzymatic activity specifically with 7-amino-4-methylcoumarin (AMC)-labeled acetylated peptide. Epigallocatechin galate (EGCG) inhibits SIRT1 activity with both AMC-labeled and unlabeled peptide. However, a combination of vitamin C with EGCG can reverse the inhibition of EGCG with the unlabeled peptide or stimulate the deacetylation of AMC-labeled peptide by SIRT1. The assay does not require any isotopic material and thus is biologically safe. It can be adapted to a 96-well microplate for high-throughput screening. Notably, the acetylated peptides with or without fluorescent labels may be used in the assay, which facilitates the substrate specificity study of SIRT1 activators or inhibitors in vitro. 相似文献
11.
H. Yamanaka T. Fukui T. Kawamoto A. Tanaka 《Applied microbiology and biotechnology》1996,45(1-2):51-55
We constructed an efficient system for preparing optically active 3-trimethylsilylalanine (TMS-Ala) by kinetic resolution
with acylase I (aminoacylase; N-acylamino-acid amidohydrolase, EC 3.5.1.14). Racemic TMS-Ala was chemically synthesized and acetylated. Enantioselective
deacetylation of N-acetyl-DL-TMS-Ala with acylase I from porcine kidney or from Aspergillus melleus was then attempted. Both enzymes could catalyze the deacetylation of N-acetyl-DL-TMS-Ala, and the porcine enzyme was found to have much higher activity than the enzyme from A. melleus. The optimum pH of the porcine-acylase-catalyzed reaction was 7.5, and the addition of 0.5 mM Co2+ accelerated the reaction. Optically pure L-TMS-Ala (>99% enantiomeric excess, ee) was obtained in 72% yield under the optimized conditions. Furthermore, highly optically
pure D-TMS-Ala (96% ee) could also be obtained in 76% yield by chemically hydrolyzing the residual substrate.
Received: 6 June 1995/Received revision: 3 July 1995/Accepted: 19 July 1995 相似文献
12.
The ability of 58 yeasts and yeast-like organisms representing 44 genera to deacetylate 1,6-anhydro-2,3,4-tri-0-acetyl-β-d-glucopyranose was investigated.Aureobasidium pullulans strains can perform this deacetylation selectively.A. pullulans CCY 27-1-11 and 27-1-14 release preferentially the acetyl group in position C(4), whereas the subspeciesA. pullulans CCY 27-1-14a (with no pigmentation) preferentially releases the acetyl group in position C(2).A. pullulans cells catalyzing the selective deacetylation of 1,6-anhydro-2,3,4-tri-O-acetyl-β-D-glucopyranose were permeabilized and immobilized
on a matrix of polyethyleneimine cross-linked with 2-chloromethyloxirane. 相似文献
13.
Luis E. Iglesias María A. Zinni Mariana Gallo Adolfo M. Iribarren 《Biotechnology letters》2000,22(5):361-365
Lipase-catalysed alcoholysis and hydrolysis of 2',3',5'-tri-O-acetyluridine (1a) and 2',3',5'-tri-O-acetyl-2'-C-methyluridine (1b) were studied. Conditions for full and regioselective deacetylation of 1aand 1b are shown in the present work. New compound 2',3'-di-O-acetyl-2'-C-methyluridine (3b) was prepared by regioselective lipase-catalysed deacetylation. 相似文献
14.
Histone Deacetylase Inhibition Impairs Normal Intestinal Cell Proliferation and Promotes Specific Gene Expression
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Alireza Roostaee Amel Guezguez Marco Beauséjour Aline Simoneau Pierre H. Vachon Emile Levy Jean‐François Beaulieu 《Journal of cellular biochemistry》2015,116(11):2695-2708
Mechanisms that maintain proliferation and delay cell differentiation in the intestinal crypt are not yet fully understood. We have previously shown the implication of histone methylation in the regulation of enterocytic differentiation. In this study, we investigated the role of histone deacetylation as an important epigenetic mechanism that controls proliferation and differentiation of intestinal cells using the histone deacetylase inhibitor suberanilohydroxamic acid (SAHA) on the proliferation and differentiation of human and mouse intestinal cells. Treatment of newly confluent Caco‐2/15 cells with SAHA resulted in growth arrest, increased histone acetylation and up‐regulation of the expression of intestine‐specific genes such as those encoding sucrase‐isomaltase, villin and the ion exchanger SLC26A3. Although SAHA has been recently used in clinical trials for cancer treatment, its effect on normal intestinal cells has not been documented. Analyses of small and large intestines of mice treated with SAHA revealed a repression of crypt cell proliferation and a higher expression of sucrase‐isomaltase in both segments compared to control mice. Expression of SLC26A3 was also significantly up‐regulated in the colons of mice after SAHA administration. Finally, SAHA was also found to strongly inhibit normal human intestinal crypt cell proliferation in vitro. These results demonstrate the important implication of epigenetic mechanisms such as histone acetylation/deacetylation in the regulation of normal intestinal cell fate and proliferation. J. Cell. Biochem. 116: 2695–2708, 2015. © 2015 The Authors. Journal of Cellular Biochemistry published by Wiley Periodicals, Inc. 相似文献
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16.
Pelletier A Lemire I Sygusch J Chornet E Overend RP 《Biotechnology and bioengineering》1990,36(3):310-315
Chitosan, the deacetylated derivative of chitin, was until recently produced by hydrolysis in 50% (w/v) NaOH. Application of thermo-mechano-chemical technology to chitin deacetylation was evaluated as an alternative method of chitosan production. This process consists of a cascade reactor unit operating under reduced alkaline conditions of 10% (w/v) NaOH. Prior mercerization of chitin at 4 degrees C for 24 h was required for high deacetylation yields. Sudden decompression of the aqueous alkaline suspension of mercerized chitin resulted in near complete deacetylation of chitin. Reactor residence time was 90 s at 230 degrees C prior to decompression. The chitosan produced was characterized by elemental analysis, (13)C-NMR and enzymatic depolymerization. Enzymatic determination of the degree of acetylation of chitin/chitosan mixtures was also investigated. Relative chitinase and/or chitosanase digestibilities were shown to be strongly dependent on chitin deacetylation. Based on enzymatic digestibilities, the alkaline aqueous high shear process does not appear to produce significant secondary products. Correlation of chitosanase digestibility with percentage of deacetylation provides a simple biological assay to study chitosan composition. 相似文献
17.
Summary Two previously purified esterases of Trichoderma reesei were used to study the deacetylation of polymeric, oligomeric and dimeric acetylated xylan fragments. For the first time nearly complete enzymatic deacetylation of polymeric xylan with purified acetyl xylan esterase was demonstrated, resulting in precipitation of the remaining polymer structure. The esterases had very different substrate specifities, one having a preference for high molecular weight substrates and the other showing high activity only towards acetyl xylobiose. The latter enzyme was also regioselective, cleaving off the acetyl substituent only from the C-3 position of the xylopyranose ring. The highest xylose yield from acetylated xylan was obtained by the synergistic action of xylanase, \-xylosidase and acetyl xylan esterase.
Offprint requests to: M. Sundberg 相似文献
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Zentz F Bédouet L Almeida MJ Milet C Lopez E Giraud M 《Marine biotechnology (New York, N.Y.)》2001,3(1):36-44
This study was performed to characterize and quantify chitosan by simple physicochemical methods (infrared spectroscopy and
potentiometric measurements). These procedures were validated with well-characterized chitosan before being used to investigate
chitosan in nacre of the abalone Haliotis tuberculata and of the giant oyster Pinctada maxima. Potentiometric study revealed a chitosan extract from the nacre of H. tuberculata with a degree of deacetylation of around 88% and an intrinsic pK of 6.5. According to infrared and potentiometric data, a
low yield (η) of extraction was calculated (η= 0.064%). For experiments performed on the nacre of P. maxima, and in spite of more stringent deacetylation conditions, results suggested that a chitin-protein complex (η= 0.053%) was
isolated rather than chitosan.
Received February 16, 2000; accepted July 4, 2000. 相似文献
20.
Dae Ryoung Park Jeong Seok Kim Chang Keun Kim 《Journal of Exercise Nutrition & Biochemistry》2014,18(1):1-7