Structure and Hypotensive Effect of Flavonoid Glycosides in Kinkan (Fortunella japonica) Peelings

An attempt was made to isolate the hypotensive substances from a hot water extract of kinkan. Eight flavonoid glycosides were isolated by repeated chromatography and by gel filtration after extracting with n-butanol and treating with lead subacetate. Their structures were established to be 6,8-di-C-glucosylapigenin (1), 3,6-di-C-glucosylacacetin (2), 2″-O-α-l-rhamnosyl-4′-O-methyl-vitexin (3), 2″-O-α-l-rhamnosyl-4′-O-methylisovitexin (4), 2″-O-α-l-rhamnosylvitexin (5), 2″-O-α-l-rhamnosylorientin (6), 2″-O-α-l-rhamnosyl-4′-O-methylorientin (7) and ponicilin (8) by UV. MS, ¹-NMR and ¹³C-NMR spectroscopy, and by sugar analysis. Each component was intravenously injected in SHR-SP (0.5 ~ 1.0 mg/100 g of body weight), 1, 2, 5 and 6 were found to lower the rat blood pressure.

Among these compounds, 2, 3, 4, 6 and 7 were new flavone glycosides.     

Two Hydrolase Resistant Analogues of Diadenosine 5′,5″′-P,P-Triphosphate for Studies with FHIT,The Human Fragile Histidine Triad Protein¶

Abstract

The design and synthesis of analogues of diadenosine 5′,5″′-P,P-triphosphate that are resistant to pyrophosphate hydrolysis is described in relation to their rôle in signalling and tumorigenesis involving the Fhit protein, the human fragile histidine triad protein, which is a novel Ap3A binding/cleaving protein.

     

Chemical carcinogens in non-enzymatic cytosine deamination: 3-isocyanatoacrylonitrile

Uracil has long been known as the main product of nitrosative cytosine deamination in aqueous solution. Recent mechanistic studies of cytosinediazonium ion suggest that the cation formed by its dediazoniation can ring-open to N-protonated (Z,s-cis)-3-isocyanatoacrylonitrile 7. Stereochemical preferences are discussed of the 3-isocyanatoacrylonitriles (Z,s-cis)-10, (E,s-cis)-11, (Z,s-trans)-12, and (E,s-trans)-13. The electronic structures of 7 and 10–13 have been analyzed and a rationale is provided for the thermodynamic preference for (Z,s-cis)-10. It is shown that s-cis/s-trans-interconversion occurs via C−N rotation–inversion paths with barriers below 3 kcal mol⁻¹. The proton affinities of 3-isocyanatoacrylonitrile 10 and water are nearly identical and, thus, 3-isocyanatoacrylonitriles can and should be formed in aqueous media from 7 along with 3-aminoacrylonitriles 9. The results highlight the relevance of the chemistry of 3-isocyanatoacrylonitriles for the understanding of the chemical toxicology of nitrosation of the nucleobase cytosine. Electronic Supplementary Material Supplementary Material is available for this article at Dedicated to professor Dr. Paul von Ragué Schleyer on the occasion of his 75th birthday     

金霉素生物合成基因簇中调控基因ctcB的功能

【目的】研究金霉素产生菌中SARP家族转录调控基因ctc B的作用。【方法】利用大肠杆菌、链霉菌的属间接合转移和同源重组双交换的方法,构建ctc B基因缺失突变株。通过c DNA在相邻同转录方向的基因间隔进行PCR验证,确定金霉素生物合成基因簇中的转录单元。利用荧光定量RT-PCR方法进行突变株金霉素生物合成基因簇的转录水平检测。随后,生物信息学预测分析了金霉素生物合成基因簇内Ctc B与DNA的结合位点。【结果】获得了ctc B基因缺失的双交换突变株。发酵结果显示,该突变株失去产生金霉素与四环素的能力。金霉素生物合成基因簇内有6个共转录单元,其中4个共转录单元在ctc B基因缺失突变株中转录水平明显下降。软件分析预测到一致性较高的Ctc B结合重复序列。【结论】ctc B正调控金霉素生物合成结构基因ctc G-D、ctc H-K、ctc N-P、ctc W-T 4个转录单元和ctc Q,为进一步研究ctc B调控机制奠定了基础。     

Synthesis of 3-fluoro-6-S-(2-S-pyridyl) nucleosides as potential lead cytostatic agents

The 3-deoxy-3-fluoro-6-S-(2-S-pyridyl)-6-thio-β-d-glucopyranosyl nucleoside analogs 7 were prepared via two facile synthetic routes. Their precursors, 3-fluoro-6-thio-glucopyranosyl nucleosides 5a-e, were obtained by the sequence of deacetylation of 3-deoxy-3-fluoro-β-d-glucopyranosyl nucleosides 2a-e, selective tosylation of the primary OH of 3 and finally treatment with potassium thioacetate. The desired thiolpyridine protected analogs 7a-c,f,g were obtained by the sequence of deacetylation of 5a-c followed by thiopyridinylation and/or condensation of the corresponding heterocyclic bases with the newly synthesized peracetylated 6-S-(2-S-pyridyl) sugar precursor 13, which was obtained via a novel synthetic route from glycosyl donor 12. None of the compounds 6 and 7 showed antiviral activity, but the 5-fluorouracil derivative 7c and particularly the uracil derivative 7b were endowed with an interesting and selective cytostatic action against a variety of murine and human tumor cell cultures.     

Regioselective deglycosylation of onion quercetin glucosides by <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Bioconversion of quercetin glucosides using four generally recognized as safe (GRAS) organisms (Aspergillus oryzae, Bacillus subtilis, Lactobacillus plantarum, and Saccharomyces cerevisiae) was evaluated by measuring changes in the levels of quercetin compounds of onion. Of the four organisms, S. cerevisiae increased the content of quercetin-3-O-β-d-glucoside (III; isoquercitrin) and quercetin (IV), whereas decreasing quercetin-3,4′-O-β-d-glucoside (I) and quercetin-4′-O-β-d-glucoside (II). Also, S. cerevisiae converted authentic compound I to III, and II to IV, respectively. These results suggest that S. cerevisiae can be used to increase the levels of isoquercitrin (III), the most bioavailable quercetin compound in onion.     

Three Antinematodal Diterpenes from Euphorbia kansui

Three compounds, 20-O-acetyl-[3-O-(2′E,4′Z)-decadienoyl]-ingenol (1), 20-O-acetyl-[5-O-(2′E,4′Z)-decadienoyl]-ingenol (2) and 3-O-(2′E,4′Z)-decadienoylingenol (3), were isolated from Euphorbia kansui under the bioassay-guided method. Each compound showed the same antinematodal activity against the nematode, Bursaphelenchus xylophilus, at a minimum effective dose (MED) of 5 μg/cotton ball.     

Design and Synthesis of LNA-Based Mercaptoacetamido-Linked Nucleoside Dimers

Three LNA-based mercaptoacetamido-linked nonionic nucleoside dimers T^L-S-T, T-S-T^L , and T^L-S-T^L have been synthesized by HOBT and HBTU catalyzed condensation of silyl-protected 2-S-(thymidin-5?′-yl)mercaptoacetic acid or 2-S-(2?′-O,4?′-C-methylenethymidin-5?′-yl)mercaptoacetic acid with 3?′-amino-3?′-deoxy-5?′-O-DMT-2?′-O,4?′-C-methylenethymidine or with 3?′-amino-3?′-deoxy-5?′-O-DMT-β-thymidine followed by desilylation of the protected dimers. The 3?′-O-phosphoramidite derivative of one of the nucleoside dimers was successfully prepared by condensation with [P(-Cl)(-OCH₂CH₂CN)-N(iPr)₂}] in DCM in the presence of N,N-diisopropylethylamine (DIPEA), which is a building block for the preparation of mercaptoacetamido-linked oligonucleotides of therapeutic applications.     

Efficient Synthesis of a New L-Shaped Dimer of Naphthalene,and Its Analogs

Efficient syntheses of 14H-dinaphtho[1,8-bc:1′,8′-fg]oxocin-14-one (2), 14H-dinaphtho[1,8-bc:1′,2′-f]oxepin-14-one (3), and 2,2′(2H,2′H)-spirobi[naphtho[1,8-bc]furan] (9) are described. The putative structure of 2 has been reported previously, but the synthetic route was not reproducible. 7H-Dibenzo[c,h]xanthen-7-one (4), a known compound, was obtained by a different method. Possible reaction mechanism are proposed.     

Response of Alkaline Phosphatases in the Cyanobacterium Anabaena sp. FACHB 709 to Inorganic Phosphate Starvation

Alkaline phosphatases (APases) play a crucial role in phosphorus (P) metabolism and regulation, but their physiological functions largely remain unclear in cyanobacteria. Here, we identified four putative APase genes, designated as phoA-709, phoD1-709, phoD2-709, and phoS-709, in the cyanobacterium Anabaena sp. FACHB 709, and investigated their response to inorganic phosphate (P_i) starvation. With the exception of phoD2-709, three other APase genes were expressed at a constant and relative low level in P_i-replete medium, whereas the expression of all four APase genes was elevated in response to P_i starvation but phoA-709 significantly. However, disruption of phoA-709 did not affect the total APase activity but caused the expressional up-regulation of phoD1-709 and phoS-709 under P_i-sufficient and P_i-limiting conditions. These suggest that, the four APases of Anabaena sp. FACHB 709 are involved in P metabolism and regulation, and PhoA-709 is the main, yet dispensable, APase.     

α-Hydroxyphosphonate Oligonucleotides: A Promising DNA Type?

Abstract

The synthesis of monomers ( S )-1, ( R )-1 and 2 derived from (5′ S )-, (5′ R )-2′-deoxythymidine-5′-C-phosphonic acids and 2′,5′-dideoxythymidine-5′-C-phosphonic acids was elaborated. The protection of the 5′-hydroxyl by the methoxycarbonyl group was a key step of the synthesis. Prepared monomers were used for the solid-phase assembly of several types oligothymidylate 15-mers ( S )-3, ( S )-4, ( S )-5, ( R )-4 and ( R )-5 containing the chiral 3′-O-P-CH(OH)-5″ internucleotide linkage. Their hybridization properties with dA₁₅ and rA₁₅ were studied as well as their resistance against nuclease cleavage.     

Effect of Neuroprotective Flavonoids of Agrimonia eupatoria on Glutamate-Induced Oxidative Injury to HT22 Hippocampal Cells

A methanolic extract of Agrimonia eupatoria (Rosaceae) significantly attenuated glutamate-induced oxidative stress in HT22 hippocampal cells. A new flavonoid, characterized as kaempferol 3-O-β-D-(2″-O-acetyl-6″-(E)-p-coumaroyl)-glucopyranoside (2″-acetyl-tiliroside (1), was isolated from the methanolic extract of A. eupatoria stems together with nine known flavonoids. Compounds 4, 7, 8 and 9 all showed a neuroprotective effect on glutamate-induced toxicity in HT22 cells.     

Synthesis of Methylene-Bridged Analogues of Nicotinamide Riboside,Nicotinamide Mononucleotide and Nicotinamide Adenine Dinucleotide

Abstract

5-O-tert-Butyldimethylsilyl-1,2-O-isopropylidene-3(R)-(nicotinamid-2-ylmethyl)-α-D-ribofuranose (11a) and ?3(R)-(nicotinamid-6-ylmethyl)-α-D-ribofuranose (11b) were prepared by condensation of 5-O-tert-butyldimethylsilyl-1,2-O-isopropylidene-α-D-erythro-3-pentulofuranose (10) with lithiated (LDA) 2-methylnicotinamide and 6-methylnicotinamide, respectively, and then deprotected to give 1,2-O-isopropylidene-3-(R)-(nicotinamid-2-ylmethyl)-α-D-ribofuranose(12a) and 1,2-O-isopropylidene-3(R)-(nicotinamid-6-ylmethyl)-α-D-ribofuranose (12b). Benzoylation as well as phosphorylation of compounds 12 afforded the corresponding 5-O-benzoate (13b) and 5-O-monophosphates (14a and 14b). Treatment of 13b with CF₃COOH/H₂O caused 1,2-de-O-isopropylidenation with simultaneous cyclization to the corresponding methylene-bridged cyclic nucleoside - 3′,6-methylene-1-(5-O-benzoyl-β-D-ribofuranose)-3-carboxamidopyridinium trifluoro-acetate (8b) - restricted to the “anti” conformation. In a similar manner compounds 14a and 14b were converted into conformationally restricted 2,3′-methylene-1-(β-D-ribofuranose)-3-carboxamidopyridinium-5′-monophosphate (9a - “syn”) and 3′,6-methylene-1-(β-D-ribofuranose)-3-carboxamido -pyridinium-5′monophosphate (9b - “anti”) respectively. Coupling of derivatives 12a and 12b with the adenosine 5′-methylenediphosphonate (16) afforded the corresponding dinucleotides 17. Upon acidic 1,2-de-O-isopropylidenation of 17b, the conformationally restricted P¹-[6,3′-methylene-1-(β-D-ribofuranos-5-yl)-3-carboxamidopyridinium]-P²-(adenosin-5′-yl)methylenediphosphonate 18b -“anti” was formed. Compound 18b was found to be unstable. Upon addition of water 18b was converted into the anomeric mixture of acyclic dinucleotides, i. e. P¹-[3(R)-nicotinamid-6-ylmethyl-D-ribofuranos-5-yl]-P²-(adenosin-5′-yl)-methylenediphosphonate (19b). In a similar manner, treatment of 17a with CF₃COOH/H₂O and HPLC purification afforded the corresponding dinucleotide 19a.

     

Synthesis and Antimicrobial Activity of Chiral cis-Cycloheximide Isomers

Such (+)- and (?)-cis-cycloheximide isomers as isocyclohcximide (1a, 1b), α-epiisocycloheximide (2a, 2b) and neocycloheximide (3a, 3b) were synthesized by aldol condensation of (?)-(2R, 4R)- and (+)-(2S, 4S)-cis-2,4-dimethyl-1-cyclohexanone (5a, 5b). obtained by microbial resolution, with 4-(2-oxoethyl)-2,6-piperidinedione (7). The absolute configuration of the (?)-cis-ketone 5a was confirmed by chemical correlation with natural (2S, 4S, 6S, αR)-cycloheximide (4). The newly synthesized isomer, (?)-α-epiisocycloheximide (2b), showed strong antimicrobial activity against S. cerevisiae andP. oryzae close to that of natural cycloheximide (4).     

Synthesis of Annonaceous Acetogenins from Muricatacin

Synthetic studies of annonaceous acetogenins starting from (?)-muricatacin (1a) or (+)-muricatacin are described, involving (?)-muricatacin (1a), mono-THF acetogenin, solamin (2), reticulatacin (3), (15R, 16R, 19S, 20S)-cis-solamin (4a) and (15S, 16S, 19R, 20R)-cis-solamin (4b), non-adjacent bis-THF acetogenin, 4-deoxygigantecin (5), and epoxide-bearing acetogenin, (15S, 16R, 19S, 20R)-diepomuricanin (6a).     

利用CRISPRi挖掘大肠杆菌生物合成D-泛酸的关键基因

【目的】D-泛酸(D-pantothenic acid,DPA)是一种重要的功能化合物,被广泛应用于医疗保健、化妆品、动物食品和饲料等领域,具有良好的市场前景及应用。本研究以实验室保藏的大肠杆菌菌株DPAP10为底盘菌株,利用CRISPR干扰(clustered regularly interspaced palindromic repeats interference,CRISPRi)技术,筛选影响工程菌株DPA生物合成的内源性基因靶点。【方法】构建了p Target和pd Cas9的双质粒CRISPRi系统,可以实现对基因单个或组合表达抑制,摇瓶发酵检测基因抑制对DPA合成的影响;通过实时荧光定量聚合酶链式反应(real-time fluorescence quantitative polymerase chain reaction,RT-q PCR)检测了基因抑制后的转录水平;通过高效液相色谱(high performance liquid chromatography,HPLC)检测了中间代谢物分析代谢通路变化。【结果】成功从126个靶基因中筛选得到5个显著影响DPA合成的关键...     

Synthesis of novel selenium containing sulfa drugs and their antibacterial activities

Synthesis of 3-[4-(N-substituted sulfamoyl)phenyl]-3,4-dihydro-4-oxo-7,9-dimethylpyri-do[3′,2′:4,5]selenolo[3,2-d]pyrimidines,7-[4-(N-substituted sulfamoyl)phenyl]-7,8-dihydro-8-oxo-3,4-diphenylpyrimido[4′,5′:4,5]selenolo [2,3-c]pyridazines and 1-[4-(N-substituted sulfamoyl)phenyl]-1,11-dihydro 11-oxo-4-methylpyrimido[4′,5′:4,5]selenolo[2,3-b]quinolines is reported. 4-Amino-N-pyrimidine-2-ylbenzene sulfonamide (a), 4-amino-N-(2,6-dimethylpyrimidin-4-yl)benzene sulfonamide (b), N-[(4-aminophenyl)sulfonyl] acetamide (c) with N-ethoxymethyleneamino of selenolo pyridine, selenolo pyridazine and selenolo quinoline derivatives respectively were obtained starting from 1-amino-N ⁴-substituted sulfanilamides. Spectroscopic data (IR, ¹H NMR, ¹³C NMR and Mass spectral) confirmed the structure of the newly synthesized compounds. Substituted pyrimidines, pyridazines and quinolines were screened for antibacterial activity against gram-positive and gram-negative bacteria. Selenolo derivative of N-[(4-aminophenyl)sulfonyl] acetamide (substitutent of sulfacetamide c) showed strong bactericidal effect against all the tested organisms. Selenolo[3,2-d]pyrimidin (substitutent a) showed a good bactericidal effect against Serratia marcescens, Staphylococcus aureus and Escherichia coli. Compounds selenolo[2,3-c]pyridazine (substitutent b), selenolo[2,3-b]quinoline(substitutents c)) exhibited a moderate bactericidal effect against Serratia marcescens. None of the synthesized seleno pyridazines has a considerable antimicrobial activity against the tested organisms. The minimum inhibitory concentration (MIC) of the most active compound-3-[4-(N-acetyl sulfamoyl)phenyl]-3,4-dihydro-4-oxo-7,9-dimethylpyrido[3′,2′:4,5]selenolo [3,2-d]pyrimidine was 10 mg ml⁻¹.     

Chemoenzymatic resolution of racemic Wieland–Miescher and Hajos–Parrish ketones

Enantiospecific microbial reduction of bicyclic ketones was described. Racemic Wieland–Miescher (1) and Hajos–Parrish (2) ketones were used as substrates. In a 4-h biotransformation of Hajos–Parrish ketone (2) using the strain of Didymosphaeria igniaria an optically pure ketone (R)-2 was obtained, whereas the (S)-2 ketone underwent reduction to (4aS,5S)-4 alcohol with 100% of enantiomeric excess and with over 60% of diastereoisomeric excess. Jones oxidation of the alcohol obtained in the biotransformation gave an optically pure ketone (S)-2. Enzymatic system of Coryneum betulinum reduced the (R)-2 ketone to (4aR,5S)-4 alcohol with a high enantiomerical purity in a 6-day reaction. Wieland-Miescher (1) ketone was transformed by these microorganisms in an analogous way, but the reaction times were longer.     

Enantiotopically Selective Oxidation of 1,5-Diols with Gluconobacters Preparation of (S)-Mevalonolactone

(±)-(2Z,4E)-α-Ionylideneacetic acid (2) was enantioselectively oxidized to (?)-(l′S)-(2Z,4E)-4′-hydroxy-α-ionylideneacetic acid (3), (+)-(1′R)-(2Z,4E)-4′-oxo-α-ionylideneacetic acid (4) and (+)-abscisic acid (ABA) (1) by Cercospora cruenta IFO 6164, which can produce (+)-ABA and (+)-4′-oxo-α-acid 4. This metabolism was confirmed by the incorporation of radioactivity from (±)-(2-¹⁴C)-(2Z,4E)-α-acid 2 into three metabolites. (?)-4′-Hydroxy-α-acid 3 was a diastereoisomeric mixture consisting of major 1′,4′-trance-4′-hydroxy-α-acid 3a and minor 1′,4′-cis-4′-hydroxy-α-acid 3b. These structures, 3a and 3b, were confirmed by ¹³C-NMR and ¹H-NMR analysis. Also, the enantioselectivity of the microbial oxidation was reexamined by using optically pure α-acid (+)-2 and (?)-2, as the substrates.     

柯拉斯那沉香的生物活性成分研究

为了解柯拉斯那(Aquilaria crassna)的化学成分,从其所产沉香中分离得到10个化合物,经波谱分析分别鉴定为:6,8-羟基-2-(2-苯乙基)色酮(1),6,8-二羟基-2-[2-(4-甲氧基苯)乙基]色酮(2),rel-(1a R,2R,3R,7b S)-1a,2,3,7b-tetrahydro-2,3-dihydroxy-5-(2-phenylethyl)-7H-oxireno[f][1]benzopyran-7-one(3),rel-(1a R,2R,3R,7b S)-1a,2,3,7b-tetrahydro-2,3-dihydroxy-[2-(4-methoxyphenyl)-ethyl]-7H-oxireno[f][1]benzopyran-7-one(4),rel-(1a R,2R,3R,7b S)-1a,2,3,7b-tetrahydro-2,3-dihydroxy-5-[2-(3-hydroxy-4-methoxyphenyl)-ethyl]-7H-oxireno[f][1]benzopyran-7-one(5),oxidoagarochromone B(6),oxidoagarochromone C(7),(5S,6R,7S,8R)-2-[2-(3′-hydroxy-4′-methoxyphenyl)ethyl]-5,6,7,8-tetrahydroxy-5,6,7,8-tetrahydrochromone(8),6,7-cis-dihydroxy-2-(2-phenylethyl)-5,6,7,8-tetrahydrochromone(9),N-trans-feruloyltyramine(10)。化合物3~5和8~10为首次从柯拉斯那沉香中分离得到。化合物1,3,6,7,9和10对乙酰胆碱酯酶具有一定的抑制活性,化合物4对人慢性髓原白血病细胞株K-562和人胃癌细胞株SGC-7901均具有较小的抑制作用,化合物1和3对人肝癌细胞株BEL-7402也有抑制活性。