三齿草藤(Vicia bungei Ohwi)凝集素糖组分的高效液相色谱分析

本文报道经亲和层析纯化的三齿草藤凝集素(VBL)的糖含量和糖组分的测定结果。经酚-硫酸法测得VBL的总糖含量为4.7％。应用高效液相色谱法对一系列已知标准单糖的定性定量分析条件进行了探索,选用乙腈-水-甲醇=60:30:5体系作流动相,YWG-NH_2作固定相,在高效液相色谱仪中测出VBL含有核糖和鼠李糖,二者摩尔数之比为9.4:1。     

Spores of microorganisms

6-Azauracil at a concentration of 1 μmole/ml inhibits by 50% the outgrowth of germinated spores of a strain ofBacillus cereus, concentration of 1.5 μmole/ml resulting in 100% inhibition. Two distinct maxima of sensitivity to 6-azauracil are observed during postgerminative development of spores. The first occurs during early stages of development (immediately after depolymerization period) and the second after about 60 min of cultivation (late stage of swelling). Uracil reverses the inhibition of the outgrowth of spores caused by 6-azauracil when added during 0–30 min of the spore development. The addition of uracil after 30 min of the germination does not bring about the reversion of the effect of 6-azauracil. An important role of pyrimidine pathway via orotidine 5′-phosphate in germinating spores was proved, suggesting a possible use of 6-azauracil in synchronization of the postgerminative development of spores.     

Study on the Optical Rotatory Dispersion of Di-Peptides and its Application to the Recognition of Di-Peptides from Higher Peptides and Amino Acids

During the cource of the investigation of ribotidation of purine and pyrimidine bases by Brevibacterium ammoniagenes ATCC 6872, it was found that a large amount of uridine 5′-monophosphate (UMP) was accumulated in the culture broth when the organism was incubated in a medium containing uracil or orotic acid. The yields of UMP were 83% (4.8 mg/ml) from uracil and 100% (4.3 mg/ml) from orotic acid when each substrate was added at the concentration of 2 mg/ml.

Addition of 6-azauracil or 5-hydroxyuracil to the culture of the organism during cultivation led to the accumulation of both orotidine 5′-monophosphate (OMP) and UMP. The accumulation of OMP seemed to be due to the inhibition of OMP decarboxylase (E. C. 4.1.1.23) by the ribotide formed from each base. The OMP accumulation was enhanced by the addition of orotic acid in addition to 6-azauracil. When 6-azauracil was added to the medium before inoculation, UMP was predominantly accumulated, and when it was added after one day incubation, OMP was predominantly accumulated. A largest accumulation (3.6 mg/ml) of OMP was obtained when 6-azauracil was added on the 1st day and orotic acid was added on the 3rd day.

UMP and OMP accumulated in the medium were isolated from the cultured broth and identified by usual methods.     

Inhibitory effect of 6-azauracil on purified rabbit liver 4-aminobutyrate aminotransferase

Among uracil derivatives investigated, 6-azauracil, 6-azathymine, and 5-iodouracil were found to be potent inhibitors of purified rabbit liver 4-aminobutyrate aminotransferase while 6-azauridine and 6-azauridine 5'-phosphate were not. The enzyme inhibited by 6-azauracil was reactivated by dialysis but not by addition of pyridoxal 5'-phosphate. 6-Azauracil acted as a non-competitive inhibitor with respect to beta-alanine as well as 2-oxoglutaric acid, and had a K1 of approximately 0.7 mM at pH 7.3. The kinetic data suggested that 2-oxoglutaric acid acted as an inhibitor as well as an amino acceptor for the enzyme; a catalytic site was associated with an apparent Km of 0.15 mM for 2-oxoglutaric acid and a low affinity site was associated with an I50 of approximately 5 mM for the 2-oxo acid. With inhibitory concentrations of 2-oxoglutaric acid as substrate the inhibitory effect of 6-azauracil was considerably diminished. From these findings, the inhibitory effect of 6-azauracil was revealed to be different from that of structural analogs of 4-aminobutyric acid showing that 6-azauracil is a new type of 4-aminobutyrate aminotransferase inhibitor.     

Accumulation of 6-Azauridine by Mutants of Brevibacterium ammoniagenes

From the inosine producing mutants of Brevibacterium ammoniagenes, KY 13761 was selected as a strain which produced 6-azauridine from 6-azauracil.

The conditions for the conversion were examined and the intermitent feeding of 6-azauracil was found effective for the accumulation.

In order to increase the accumulation, prototrophic revertants were induced from KY 13761 and KY 13021 was selected. By intermitent feeding of 6-azauracil of a final concentration of 6 mg per ml, a maximal accumulation, 12.4 mg/ml, of 6-azauridine was obtained with KY 13021.     

Growth inhibition of tobacco tissue cultures with 6-azauracil, 6-azauridine and maleic hydrazide

Tissue cultures of Nicotiana tabacum, Nicotiana suaveolens and Nicotiana suaveolens × Nicotiana langsdorffii were cultured in the presence of the growth inhibitors maleic hydrazide and 6-azauracil as well as 6-azauridine. Inhibition of growth was complete at 10⁻⁴ molar concentrations in all 3 genotypes of cells. The inhibition due to 6-azauracil could be completely relieved with uridine and partially relieved with uracil. The effect with maleic hydrazide was irreversible, a fact which indicates a different mechanism or level of inhibition. This study supports the concept that derivatives of 6-azauracil inhibit the synthesis of uridine derivatives required for ribose nucleic acid synthesis and growth.     

Characterization of D-ribose biosynthesis in Bacillus subtilis JY200 deficient in transketolase gene

D-Ribose is a functional five-carbon sugar, which has been used for the commercial production of riboflavin. Mechanisms of d-ribose biosynthesis from xylose were investigated in the genetically engineered Bacillus subtilis JY200 with a deficiency in transketolase. A transketolase gene (tkt) disruption cassette in plasmid pUNKC was introduced into the chromosomal tkt gene in the wild type B. subtilis 168. Analysis of culture broth by thin layer chromatography confirmed that the disruption of tkt allowed B. subtilis JY200 to produce d-ribose. In a batch culture of B. subtilis JY200, a loss of cell viability was observed after glucose depletion. Fed-batch cultivation by feeding 400 gl(-1) glucose solution as a co-substrate was carried out to supply energy to xylose metabolism and to maintain cell viability throughout cultivation. Fed-batch cultivation of B. subtilis JY200 in a complex medium containing 11 gl(-1) xylose and 5 gl(-1) glucose initially gave the best result of 10.1 gl(-1)D-ribose concentration, 0.24 gg(-1)D-ribose yield and 0.29 gl(-1)h(-1) productivity, corresponding to 40-, 5- and 12-fold increases compared with those in the batch culture. A kinetic study of D-ribose production in fed-batch cultivations of B. subtilis JY200 suggested that xylose uptake might be critical to maximize D-ribose biosynthesis from xylose.     

pH值对D-核糖发酵的影响及补料发酵的研究

研究了不同 pH值对D 核糖产量的影响。发酵初期pH自然下降时有利于菌体生长 ,菌体生长对数期较长 ,菌体质量浓度最高可达 15 .3g/L ;发酵中后期 pH值控制在 7.0时有利于D 核糖的持续合成 ,同时对D -核糖的流加补料发酵进行了初步研究 ,最终使菌体质量浓度最高达到 2 0 .1g/L ,D 核糖产量达到了 6 2 .5g/L。     

Inhibitory effect of glycation on catalytic activity of alanine aminotransferase

Non-enzymatic glycation is a common post-translational modification of tissue and plasma proteins which can impair their functions in living organisms. In this study, the authors have demonstrated for the first time an inhibitory effect of in vitro glycation on the catalytic activity of alanine aminotransferase (ALT, EC 2.6.1.2), a pyridoxal phosphate enzyme with several lysine residues in the molecule. The porcine heart enzyme was incubated with 50 mmol/l D-fructose, D-glucose, D,L-glyceraldehyde, or D-ribose in 0.1 mol/l phosphate buffer (pH 7.4) at 25°C for up to 20 days. The strongest glycation effect was shown by D,L-glyceraldehyde, which caused complete enzyme inhibition within 6 days. After 20 days of incubation, the ALT activity in samples with D-fructose and D-ribose was less than 7% of the initial enzyme activity. A statistically significant effect of D-glucose on the enzymatic activity of ALT was not found. Incubation of ALT with D-fructose, D,L-glyceraldehyde and D-ribose minimized its catalytic activity both in the glycated and non-glycated fractions of the samples. Markedly higher activity was found in the glycated fraction with glucose. The inhibitory effect of glycation of ALT with D-fructose and D-ribose was found to be more intensive in the presence of L-alanine and weaker in the presence of 2-oxoglutarate. The findings suggest that glycation of the e-amino group of Lys313 as a crucial part of the catalytic site of ALT may contribute to ALT inactivation in the presence of glycating sugars. Nevertheless, glycation of lysine residues outside the active center of ALT seems to be primary.     

Dynamics of the amino acid composition of the medium during cultivation of isolated liver and kidney by the controlled perfusion method]

The dynamics of the medium amino acid composition was studied during a 6-hour perfusion of dog kidney and liver by a mixture of autogenic plasma and medium 199 (a ratio of 2 : 3). In comparison to the initial level the amount of histidine during 6-hour cultivation of the kidney was found to increase 2.2 times, that of glutamic acid--1.7 times, and of alanine and lysine--1.6 times. At the same time the amount of arginine, serine and asparagic acid became 3.3 times and of glutamine and threonine--2.5 times lower. With the liver perfusion the level of glutaminic acid became 2.9 times, of alanine--2.3 times, of cystine--2 times and of glycine--1.5 times higher. With the liver perfusion the level of arginine decreased so rapidly that none was found in the medium after a 2-hour perfusion. The described method of amino acid analysis during the cultivation of the organs could serve as means for elaborating and correcting the culture media.     

Increased beta-aminoisobutyric acid in rat liver with 6-azauracil and its enantiomer

When 6-azauracil was subcutaneously injected, beta-aminoisobutyric acid and beta-alanine contents were increased 22 and 61-fold, respectively, in rat liver. Incorporation of [methyl-14C]thymine into beta-aminoisobutyric acid was increased to 42-fold by 6-azauracil treatment. The absolute configuration of this amino acid was proved to be the (R)-form by means of a gas-chromatographic technique. 6-Azauracil inhibited beta-alanine-pyruvate aminotransferase activity with an I50 of approx. 2.5 mM.     

6-azauracil-resistant variants of cultured plant cells lack uracil phosphoribosyltransferase activity

6-Azauracil-resistant variants of Haplopappus gracilis (Nutt.) Gray and Datura innoxia Mill. lack activity of uracil phosphoribosyltransferase, a pyrimidine salvage enzyme that catalyzes the conversion of uracil and 6-azauracil to uridine-5′-monophosphate and 6-azauridine-5′-monophosphate, respectively. Resistant cells are competent to take up uracil from their growth medium but do not convert it into a form that can be used for macromolecular synthesis. In extracts from resistant cells, orotate monophosphate decarboxylase, a target enzyme of 6-azauridine monophosphate, is fully sensitive to the phosphorylated analog. These results strongly suggest that uracil phosphoribosyltransferase is the major pathway of pyrimidine salvage in cells of these species and that loss of this enzyme activity confers on the variants resistance to 6-azauracil.     

Daily Supplementation of D-ribose Shows No Therapeutic Benefits in the MHC-I Transgenic Mouse Model of Inflammatory Myositis

Background

Current treatments for idiopathic inflammatory myopathies (collectively called myositis) focus on the suppression of an autoimmune inflammatory response within the skeletal muscle. However, it has been observed that there is a poor correlation between the successful suppression of muscle inflammation and an improvement in muscle function. Some evidence in the literature suggests that metabolic abnormalities in the skeletal muscle underlie the weakness that continues despite successful immunosuppression. We have previously shown that decreased expression of a purine nucleotide cycle enzyme, adenosine monophosphate deaminase (AMPD1), leads to muscle weakness in a mouse model of myositis and may provide a mechanistic basis for muscle weakness. One of the downstream metabolites of this pathway, D-ribose, has been reported to alleviate symptoms of myalgia in patients with a congenital loss of AMPD1. Therefore, we hypothesized that supplementing exogenous D-ribose would improve muscle function in the mouse model of myositis. We treated normal and myositis mice with daily doses of D-ribose (4 mg/kg) over a 6-week time period and assessed its effects using a battery of behavioral, functional, histological and molecular measures.

Results

Treatment with D-ribose was found to have no statistically significant effects on body weight, grip strength, open field behavioral activity, maximal and specific forces of EDL, soleus muscles, or histological features. Histological and gene expression analysis indicated that muscle tissues remained inflamed despite treatment. Gene expression analysis also suggested that low levels of the ribokinase enzyme in the skeletal muscle might prevent skeletal muscle tissue from effectively utilizing D-ribose.

Conclusions

Treatment with daily oral doses of D-ribose showed no significant effect on either disease progression or muscle function in the mouse model of myositis.     

Effect of some pyrimidine analogues on flowering of long-day and short-day plants

6-azauracil (AU) and 2-thiouracil (TU) were applied to the short-day plants Pharbitis Nil and Chenopodium rubrum and to the long-day plants Hyoscyamus niger, Lolium temulentum and Triticum aestivum cv. Chlumecká 12 at different times before, during or at the end of floral induction. In wheat the effect of 5-bromouracil, 5-iodouracil and 2-thio-6-azauracil was also tested.With the exception of bromouracil, which slightly stimulated flowering in wheat, all analogues either strongly inhibited or completely blocked flowering when applied in appropriate concentrations a short time prior to induction or at its beginning. Treatments given a longer time before induction or after its termination was less effective. Inhibition of flowering was always associated with damage to the vegetative growth. The effect of TU was reversed by uracil and that of AU by uridine, if these compounds were applied simultaneously with the analogue at a concentration exceeding at least 5 times that of the analogue. Reversal also applied to vegetative growth. Simultaneous application of gibberellin and analogues did not remove the inhibition.     

Synthesis of Racemic 5-Substituted 1-(2,3-Dihydroxypropyl)-6-azauracils and Their Isosteric Isomers

Abstract

Acyclic nucleoside analogues of antiviral DHPA and HPMPA have been prepared. Coupling of silylated 6-azauracils with benzyl glycidyl ether and stannic chloride followed by the deprotection with boron trichloride gave 1-(2,3-dihydroxypropyl)-6-azauracils (3) in good overall yields. Reaction of silylated 6-azauracil and epichlorohydrin with or without catalytic stannic chloride afforded 1-(2-chloro-3-hydroxypropyl)-6-azauracil (4a) and 1-(3-chloro-2-hydroxypropyl)-6-azauracil (6a) respectively. Coupling of silylated 6-azaisocytosine under the same reaction conditions provided 1-(2,3-dihydroxypropyl)-6-azaisocytosine (9) and 1-(2-chloro-3-hydroxypropyl)-6-azaisocytosine (10) respectively. None of the compounds exhibited significant antiviral activity against herpes simplex viruses.     

黑木耳代用料栽培关键技术研究

针对目前黑木耳代用料栽培中存在的问题,结合吉林省东部地区资源及气候特点,系统地对黑木耳栽培技术进行研究。结果表明:黑木耳最适培养料装量为800g;在接种时间为3月10日、置于相同培养条件下,最适栽培时间为4月下旬至5月初;菌丝体培养最适温度20～25℃,初期略高;最适水分条件为采用间歇式供水,干湿交替;最适光照条件为全日光。     

D-ribose induces cellular protein glycation and impairs mouse spatial cognition

Background

D-Ribose, an important reducing monosaccharide, is highly active in the glycation of proteins, and results in the rapid production of advanced glycation end products (AGEs) in vitro. However, whether D-ribose participates in glycation and leads to production of AGEs in vivo still requires investigation.

Methodology/Principal Findings

Here we treated cultured cells and mice with D-ribose and D-glucose to compare ribosylation and glucosylation for production of AGEs. Treatment with D-ribose decreased cell viability and induced more AGE accumulation in cells. C57BL/6J mice intraperitoneally injected with D-ribose for 30 days showed high blood levels of glycated proteins and AGEs. Administration of high doses D-ribose also accelerated AGE formation in the mouse brain and induced impairment of spatial learning and memory ability according to the performance in Morris water maze test.

Conclusions/Significance

These data demonstrate that D-ribose but not D-glucose reacts rapidly with proteins and produces significant amounts of AGEs in both cultured cells and the mouse brain, leading to accumulation of AGEs which may impair mouse spatial cognition.     

化学诱变法选育D-核糖高产菌株工艺研究

研究了以硫酸二乙酯(DES)为诱变剂,诱变生产D-核糖的转酮醇酶缺陷型枯草芽孢杆菌HG02,考察了不同诱变剂用量对菌体致死率及其生产能力的影响。得出了以DES诱变该菌株的致死率曲线及最佳的诱变条件:诱变剂用量0.8%,诱变时间15min。该诱变条件下对大量的突变株进行筛选,得到D-核糖高产菌HG03,其D核糖产量较出发菌株提高81.69%。达到5.1g/100mL。