Nitrogen source effects on the denitrifying anaerobic methane oxidation culture and anaerobic ammonium oxidation bacteria enrichment process

The co-culture system of denitrifying anaerobic methane oxidation (DAMO) and anaerobic ammonium oxidation (Anammox) has a potential application in wastewater treatment plant. This study explored the effects of permutation and combination of nitrate, nitrite, and ammonium on the culture enrichment from freshwater sediments. The co-existence of NO₃ ⁻, NO₂ ⁻, and NH₄ ⁺ shortened the enrichment time from 75 to 30 days and achieved a total nitrogen removal rate of 106.5 mg/L/day on day 132. Even though ammonium addition led to Anammox bacteria increase and a higher nitrogen removal rate, DAMO bacteria still dominated in different reactors with the highest proportion of 64.7% and the maximum abundance was 3.07 ± 0.25 × 10⁸ copies/L (increased by five orders of magnitude) in the nitrite reactor. DAMO bacteria showed greater diversity in the nitrate reactor, and one was similar to M. oxyfera; DAMO bacteria in the nitrite reactor were relatively unified and similar to M. sinica. Interestingly, no DAMO archaea were found in the nitrate reactor. This study will improve the understanding of the impact of nitrogen source on DAMO and Anammox co-culture enrichment.

     

过氧亚硝酸阴离子通过鸟苷酸环化酶途径抑制钠电流影响海马神经元兴奋性

过氧亚硝酸阴离子（ONOO-）是一种性质活泼的自由基,可引起强的氧化性损伤,介导了一氧化氮（NO）的大部分毒性作用．应用全细胞膜片钳技术,探讨ONOO-对脑片海马神经元电压门控钠通道电流（INa）和神经元兴奋性的影响．结果表明,ONOO-供体SIN-1（10,500,2000μmol／L）可浓度依赖性抑制INa电流峰值．SIN-1与ONOO-清除剂尿酸共处理,并不影响INa．500μmol／L的SIN-1可使INa的I-V曲线上移,并可抑制其失活后恢复过程,但对INa的激活和失活过程无影响．SIN-1还可抑制动作电位发放频率和幅值．脑片预处理腺苷酸环化酶（adenylate cyclase,AC）抑制剂MDL-12,330A（25μmol／L）和NEM（50μmol／L）对SIN-1的作用无影响．然而,预处理鸟苷酸环化酶（CG）抑制剂ODQ可抑制SIN-1对INa的作用．以上结果提示,ONOO-通过cGMP-INa-AP信号级联系统作用于海马神经元,与PKA和蛋白巯基亚硝化途径无关,这可能是ONOO-神经毒性的机制之一．     

2-BFI attenuates experimental autoimmune encephalomyelitis-induced spinal cord injury with enhanced B-CK, CaATPase, but reduced calpain activity

The lack of disease-modifying pharmacological agents for effective treatment of multiple sclerosis (MS) still represents a large and urgent unmet medical need. Our previous studies showed that ligands to type 2 imidazoline receptors (I₂R) were effective in protecting spinal cord injury caused by experimental autoimmune encephalomyelitis (EAE), a mouse model of MS. In this study, we further examined the protective property of a very selective ligand of I₂R, 2-(2-benzofuranyl) 2-imidazoline (2-BFI) against EAE. Importantly, a mechanism of 2-BFI-mediated protection was investigated which possibly involves an I₂R binding protein, brain-creatine kinase (B-CK), as well as CaATPase and calpain. The enzymatic activity of B-CK and CaATPase was significantly reduced in EAE injured spinal cord. Reduction of B-CK activity in EAE spinal cord may lead to energy reduction and dysfunction in cellular calcium homeostasis. Increased intracellular calcium evokes elevation of calpain activity occurring in EAE spinal cord which causes further tissue damage. Indeed, EAE injured spinal cord showed significant reduction in CaATPase and increase calpain activities. Remarkably, spinal cord tissue from mice treated daily with 2-BFI during the progression of EAE significantly restored B-CK and CaATPase enzymatic activities and showed no induction in calpain activity. Moreover, EAE spinal cord from 2-BFI treated mice also demonstrated better preservation of myelin; reduced axonal injury, as evidenced by the lower level of β-APP expression, and above all, highly improved neurobehavioral scores (p < 0.01; n = 10). These findings suggest that 2-BFI can be further developed as a therapeutic drug for MS treatment.     

锂的神经保护作用机制研究进展

锂元素发现于1817年,20世纪中期作为镇定剂应用于临床。新近几十年的动物和临床实验表明,锂可以用于治疗急性脑损伤（缺血等）和慢性神经退行性疾病（阿尔采末病、帕金森病、Tau蛋白病变、亨廷顿病等）。随着细胞和分子生物学的发展,研究发现锂通过作用于GSK-3、Wnt、Akt和神经递质来发挥神经保护作用。     

Rabdosinate调节生长素极性运输蛋白PIN1、PIN3和PIN4抑制拟南芥幼苗根生长

利用3种拟南芥生长素极性运输外运载体突变体及4种转基因株系研究了二萜rabdosinate抑制拟南芥幼苗主根及侧根生长的作用机制。结果显示,60~80 μmol·L^-1的rabdosinate显著抑制野生型拟南芥幼苗主根生长及侧根形成,而对突变体pin1、pin2和pin3主根未显示明显的抑制效应,对侧根的抑制减弱;发现rabdosinate （60~80 μmol·L^-1）引起生长素报告株系根尖DR5活性升高,并增加融合蛋白PIN1-GFP丰度以及减少PIN3-GFP和PIN4-GFP的丰度。推断rabdosinate可通过增加PIN1丰度促进了根部生长素向顶运输,而减少PIN3丰度降低根尖部生长素的横向转运,引起了生长素在根尖部的累积及生长素浓度梯度的改变,进而抑制幼苗主根生长及侧根发育。     

刺五加果肉化学成分的研究(Ⅱ)

应用多种色谱技术进行分离纯化,从刺五加果肉水提取物中分离得到12个化合物,经理化性质和波谱分析鉴定其结构分别为:(-)-3,4-二香草基四氢呋喃(1)、桧脂素(2)、5α,8α-桥二氧麦角甾-6,22-双烯-3-醇(3)、刺五加苷A(4)、刺五加苷B(5)、尿嘧啶(6)、2-呋喃甲酸(7)、琥珀酸(8)、Phthalic acid bis-(2-ethyl-hex-yl)ester(9)、硬脂酸甘油酯(10)、正二十四烷酸(11)和正三十八烷(12)。其中化合物1、3、6、7、8和9为首次从本植物中分得。