Hypotensive effect of naloxone on high blood pressure induced by stress in the rat

A naloxone-reversible enhancement of systolic blood pressure (BP) was induced in rats by application of three different types of stressor, i.e. intense light and sound, cold and foot-shock. In the case of labile high BP provoked by short-term isolation, the opiate antagonist naloxone (1 mg/Kg, i.p.) was also found to reverse hypertension. Naltrexone (2.5 mg/Kg, i.p.) also diminished high BP readings of briefly isolated rats. Conversely, blockade of the opiate receptor with naloxone did not alter elevated BP in cases of established hypertension (spontaneously hypertensive rats, deoxycorticosterone (DOCA)-salt rats and long-term isolated rats). These data can be taken as an evidence of opioid involvement at the onset of high BP readings induced by stress. However, once hypertension becomes established, the opioid system appears to recover its silent features.     

Physiology of pepper fruit and the metabolism of antioxidants: chloroplasts,mitochondria and peroxisomes

Background and Aims Pepper (Capsicum annuum) contains high levels of antioxidants, such as vitamins A and C and flavonoids. However, information on the role of these beneficial compounds in the physiology of pepper fruit remains scarce. Recent studies have shown that antioxidants in ripe pepper fruit play a key role in responses to temperature changes, and the redox state at the time of harvest affects the nutritional value for human consumption. In this paper, the role of antioxidant metabolism of pepper fruit during ripening and in the response to low temperature is addressed, paying particular attention to ascorbate, NADPH and the superoxide dismutase enzymatic system. The participation of chloroplasts, mitochondria and peroxisomes in the ripening process is also investigated.Scope and Results Important changes occur at a subcellular level during ripening of pepper fruit. Chloroplasts turn into chromoplasts, with drastic conversion of their metabolism, and the role of the ascorbate–glutathione cycle is essential. In mitochondria from red fruits, higher ascorbate peroxidase (APX) and Mn-SOD activities are involved in avoiding the accumulation of reactive oxygen species in these organelles during ripening. Peroxisomes, whose antioxidant capacity at fruit ripening is substantially affected, display an atypical metabolic pattern during this physiological stage. In spite of these differences observed in the antioxidative metabolism of mitochondria and peroxisomes, proteomic analysis of these organelles, carried out by 2-D electrophoresis and MALDI-TOF/TOF and provided here for the first time, reveals no changes between the antioxidant metabolism from immature (green) and ripe (red) fruits.Conclusions Taken together, the results show that investigation of molecular and enzymatic antioxidants from cell compartments, especially chloroplasts, mitochondria and peroxisomes, is a useful tool to study the physiology of pepper fruit, particularly in the context of expanding their shelf-life after harvest and in maintaining their nutritional value.     

Design of an efficient fermentation process for the production of Metarhizium acridum blastospores

Using a sequential approach, we described efficient blastospore production in a stirred tank bioreactor (3?L capacity). We used the response surface methodology to optimise the media ingredients and fermentation parameters to obtain the maximum production of blastospores by a locally collected isolate of Metarhizium acridum (Ascomycota: Hypocreales). The results showed that a liquid culture medium supplemented with monopotassium phosphate (15.17?g/L), corn steep liquor (69.25?g/L), and casamino acids (80.68?g/L) in a stirred tank bioreactor under operating conditions constant at 635?rpm, a temperature of 26°C, and pH 3.3 produced 1.25?×?10⁸?blastospores (bls)/ml, with 93% viability after 120?h of fermentation. This bioreactor yield compares favourably with the yields obtained by shake flask production and confirms the suitability of the media and production parameters for the potential scale-up fermentation production of M. acridum.     

Structure-function relationship in cyclodextrin glycosyltransferase from Bacillus circulans DF 9R

Cyclodextrin glycosyltransferases (CGTases E.C.2.4.1.19) catalyze cyclomaltooligosaccharides (cyclodextrins) production, an important industrial process. We herein report structural features of Bacillus circulans DF 9R cyclodextrin glycosyltransferase including its sequence and several aspects of enzyme structure-function relationship. Protein ethoxyformylation, under our experimental conditions, indicated that only one out of the 13 enzyme histidines was modified leading to a drastic drop in cyclizing and hydrolytic activity. Besides, tryptic digestion of the ¹⁴C ethoxyformylated protein and studies of the peptide mixture showed that histidine 233 is the most reactive histidine residue. This is the first cyclodextrin glycosyltransferase with a known primary structure and a glutamine instead of glycine residue at position 179 in the highly conserved −6 subsite, shown to be involved in substrate binding. The presence of glycine at that position was considered as a requirement for such binding following the induced-fit mechanism already proposed. Moreover, the enzyme has all the features previously described for an α- or α/β-cyclodextrin producer.     

Diversity of endophytic bacterial populations and their interaction with Xylella fastidiosa in citrus plants

Citrus variegated chlorosis (CVC) is caused by Xylella fastidiosa, a phytopathogenic bacterium that can infect all Citrus sinensis cultivars. The endophytic bacterial communities of healthy, resistant, and CVC-affected citrus plants were studied by using cultivation as well as cultivation-independent techniques. The endophytic communities were assessed in surface-disinfected citrus branches by plating and denaturing gradient gel electrophoresis (DGGE). Dominant isolates were characterized by fatty-acid methyl ester analysis as Bacillus pumilus, Curtobacterium flaccumfaciens, Enterobacter cloacae, Methylobacterium spp. (including Methylobacterium extorquens, M. fujisawaense, M. mesophilicum, M. radiotolerans, and M. zatmanii), Nocardia sp., Pantoea agglomerans, and Xanthomonas campestris. We observed a relationship between CVC symptoms and the frequency of isolation of species of Methylobacterium, the genus that we most frequently isolated from symptomatic plants. In contrast, we isolated C. flaccumfaciens significantly more frequently from asymptomatic plants than from those with symptoms of CVC while P. agglomerans was frequently isolated from tangerine (Citrus reticulata) and sweet-orange (C. sinensis) plants, irrespective of whether the plants were symptomatic or asymptomatic or showed symptoms of CVC. DGGE analysis of 16S rRNA gene fragments amplified from total plant DNA resulted in several bands that matched those from the bacterial isolates, indicating that DGGE profiles can be used to detect some endophytic bacteria of citrus plants. However, some bands had no match with any isolate, suggesting the occurrence of other, nonculturable or as yet uncultured, endophytic bacteria. A specific band with a high G+C ratio was observed only in asymptomatic plants. The higher frequency of C. flaccumfaciens in asymptomatic plants suggests a role for this organism in the resistance of plants to CVC.     

重组L-门冬酰胺酶工程菌的表达和PEG的化学修饰

目的提高重组L-门冬酰胺酶(rL-ASP)工程菌的表达量,分离纯化rL-ASP并对之进行PEG化学修饰。方法将带有编码rL-ASP的基因的质粒(pKA)导入不同的宿主菌中,挑出高表达菌株,同时优化发酵培养基,分离纯化获得的高纯度rL-ASP再用PEG进行化学修饰,SDS-PAGE检测修饰效果。结果在pH7.0的条件下,宿主菌为JMl09的工程菌pKA/JMl09酶活力最高,三角瓶振摇培养的酶活力可达216×103IU/L;发酵罐发酵培养,酶活力达312×103IU/L。纯化后的rL-ASP比活力为220IU/mg,rL-ASP经过PEG化学修饰生成rL-ASP-PEG,分子量发生改变。结论改变目标蛋白表达的宿主菌和优化发酵工艺,提高了rL-ASP的表达量,纯化的rL-ASP经过PEG化学修饰后分子量增大。     

尿道致病性大肠杆菌U17株rstA缺失株降低对小鼠的致病性

【目的】探究双组份系统RstA/RstB中效应基因rstA对尿道致病性大肠杆菌毒力的影响。【方法】利用λRed重组系统构建UPEC U17 rstA缺失株U17ΔrstA,并构建相应的回复株,通过体内外试验评价rstA基因缺失对UPEC毒力的影响。【结果】生长曲线的测定结果显示,在LB普通培养基中,缺失株生长速度与野生株相似,但在LB贫铁培养基中,缺失株生长速度较野生株相比明显下降;体外环境应激试验结果显示,缺失株在强酸、强碱、高渗透压、尿素、氧化应激等环境压力下的生存能力与野生株相似;菌株生物被膜检测结果显示,缺失株的生物被膜形成能力与野生株相当;荧光定量PCR检测结果显示,rstA基因在贫铁环境下的表达水平较正常条件下显著上调,暗示贫铁环境可能是rstA发挥效应的刺激信号。6周龄BALB/c小鼠尿道感染试验结果显示,rstA缺失株在尿液、膀胱、肾脏中的带菌量显著低于野生株,而回复株毒力恢复至野生株水平,表明rstA缺失能显著降低UPECU17的毒力。【结论】rstA与尿道致病性大肠杆菌的致病性相关,为潜在的毒力因子。     

Biocathode microbial fuel cell for efficient electricity recovery from dairy manure

Microbial fuel cells (MFCs) represent a new biological method for generating electricity directly from biodegradable compounds. Efficiency of MFCs using manure as substrate is generally low. This study proposed a new design by incorporating biocathodes into a three-chamber MFC, which yielded maximum power densities much higher than those reported in literature. The new design placed cylindrical anode chamber for easy stirring and two symmetrical cathodic chambers with reduced anode-cathode distance. The biocathodes were applied to reduce charge transfer resistance. Additionally, biocathode microbial community was cultured to enrich favorable microorganisms. With external loading of 100 Ω, the power densities for new biocathode MFC using 2, 4, 6, 8 and 10% total solids diary manure reached 7.85±1.0 W m(-3), 7.84±1.20 W m(-3), 8.15±0.20 W m(-3), 7.60±0.97 W m(-3) and 5.63±0.97 W m(-3), respectively. The pH drop as a result of manure hydrolysis limited the power output. To provide detailed information of the microbial community in the biocathode MFC, the 454-pyrosequencing technique was adopted. The Firmicutes, γ-, β-, α- and δ-Proteobacteria, Bacteroidetes and Actinobacteria were the major groups on the anode, while γ-, β-, and α-Proteobacteria, Bacteroidetes and Actinobacteria were the predominant groups on the cathode.