H2O2介导的H2S产生参与干旱诱导的拟南芥气孔关闭

以野生型拟南芥(Arabidopsis thaliana)及其突变体(atrbohD、atrbohF、atrbohD/F、atl-cdes、atd-cdes)和过表达株系(OEL-CDes、OED-CDes)为材料,利用药理学实验,结合分光光度法和激光共聚焦显微技术,探讨硫化氢(hydrogen sulfide,H2S)在干旱诱导的拟南芥气孔关闭中的作用及其与过氧化氢(hydrogen peroxide,H2O2)的关系.结果表明,H2S清除剂次牛磺酸(hypotaurine,HT)及合成抑制剂氨氧基乙酸(aminooxy acetic acid,AOA)、羟胺(hydroxylamine,NH2OH)和丙酮酸钾(potasium pyruvate,C3H3KO3)+氨水(ammonia,NH3)均可不同程度抑制干旱诱导的气孔关闭;干旱对OEL-CDes和OED-CDes植株气孔关闭的诱导作用明显,而atl-cdes和atd-cdes叶片气孔对干旱胁迫反应的敏感性下降;干旱胁迫能明显增加拟南芥保卫细胞中H2O2水平及叶片中H2S含量,提高D-/L-半胱氨酸脱巯基酶活性及基因表达量,而对突变体atrbohD、atrbohF和atrbohD/F没有显著影响.清除H2O2可减弱干旱胁迫对H2S含量和D-/L-半胱氨酸脱巯基酶活性的诱导效应.研究结果表明H2S位于H2O2下游参与干旱诱导拟南芥气孔关闭的信号转导过程.     

Quantitative and time-course analysis of microbial degradation of 1H,1H,2H,2H,8H,8H–perfluorododecanol in activated sludge

A methylene group in the fluorinated carbon backbone of 1H,1H,2H,2H,8H,8H–perfluorododecanol (degradable telomer fluoroalcohol, DTFA) renders the molecule cleavable by microbial degradation into two fluorinated carboxylic acids. Several biodegradation products of DTFA are known, but their rates of conversion and fates in the environment have not been determined. We used liquid chromatography coupled with tandem mass spectrometry (LC/MS/MS) to quantitatively investigate DTFA biodegradation by the microbial community in activated sludge in polyethylene terephthalate (PET) flasks, which we also determined here showed least adsorption of DTFA. A reduction in DTFA concentration in the medium was accompanied by rapid increases in the concentrations of 2H,2H,8H,8H–perfluorododecanoic acid (2H,2H,8H,8H–PFDoA), 2H,8H,8H-2-perfluorododecenoic acid (2H,8H,8H-2-PFUDoA), and 2H,2H,8H-7-perfluorododecenoic acid and 2H,2H,8H-8-perfluorododecenoic acid (2H,2H,8H-7-PFUDoA/2H,2H,8H-8-PFUDoA), which were in turn followed by an increase in 6H,6H–perfluorodecanoic acid (6H,6H–PFDeA) concentration, and decreases in 2H,2H,8H,8H–PFDoA, 2H,8H,8H-2-PFUDoA, and 2H,2H,8H-7-PFUDoA/2H,2H,8H-8-PFUDoA concentrations. Accumulation of perfluorobutanoic acid (PFBA), a presumed end product of DTFA degradation, was also detected. Our quantitative and time-course study of the concentrations of these compounds reveals main routes of DTFA biodegradation, and the presence of new biodegradation pathways.

     

H2O2介导的H2S产生参与干旱诱导的拟南芥气孔关闭

以野生型拟南芥(Arabidopsis thaliana)及其突变体(atrbohD、atrbohF、atrbohD/F、atl-cdes、atd-cdes)和过表达株系(OEL-CDes、OED-CDes)为材料, 利用药理学实验, 结合分光光度法和激光共聚焦显微技术, 探讨硫化氢(hydrogen sulfide, H₂S)在干旱诱导的拟南芥气孔关闭中的作用及其与过氧化氢(hydrogen peroxide, H₂O₂)的关系。结果表明, H₂S清除剂次牛磺酸(hypotaurine, HT)及合成抑制剂氨氧基乙酸(aminooxy acetic acid, AOA)、羟胺(hydroxylamine, NH₂OH)和丙酮酸钾(potasium pyruvate, C₃H₃KO₃)+氨水(ammonia, NH₃)均可不同程度抑制干旱诱导的气孔关闭; 干旱对OEL-CDes和OED-CDes植株气孔关闭的诱导作用明显, 而atl-cdes和atd-cdes叶片气孔对干旱胁迫反应的敏感性下降; 干旱胁迫能明显增加拟南芥保卫细胞中H₂O₂水平及叶片中H₂S含量, 提高D-/L-半胱氨酸脱巯基酶活性及基因表达量, 而对突变体atrbohD、atrbohF和atrbohD/F没有显著影响。清除H₂O₂可减弱干旱胁迫对H₂S含量和D-/L-半胱氨酸脱巯基酶活性的诱导效应。研究 结果表明H₂S位于H₂O₂下游参与干旱诱导拟南芥气孔关闭的信号转导过程。     

Ca2+位于H2O2上游参与H2S诱导的拟南芥气孔关闭过程

以拟南芥为材料,利用药理学实验,结合分光光度法和激光共聚焦显微技术,研究了Ca2+在硫化氢(H2S)诱导拟南芥气孔关闭过程中的作用及其与过氧化氢(H2O2)的关系。结果表明： H2S诱导气孔关闭, Ca2+螯合剂EGTA和质膜Ca2+通道阻断剂硝苯地平(Nif)能不同程度抑制H2S诱导的气孔关闭,而内质网钙泵阻断剂毒胡萝卜素(Thaps)对H2S的作用无显著影响。由此推测, Ca2+参与调节H2S诱导的拟南芥气孔关闭过程,且胞质中Ca2+来源于胞外Ca2+的内流。另外, H2S诱导拟南芥叶片NADPH氧化酶基因AtRBOHD和AtRBOHF以及细胞壁过氧化物酶基因AtPRX34表达增强,促进叶片和保卫细胞中H2O2积累, EGTA对此起抑制作用,而外源CaCl2处理上调AtRBOHD、AtRBOHF和AtPRX34的表达。表明Ca2+可能位于H2O2上游参与H2S诱导的拟南芥气孔关闭过程。     

H2-A polymorphism contributes to H2-Eβ-mediated protection in collagen-induced arthritis

 Collagen-induced arthritis (CIA) is an animal model of auto-immune inflammatory polyarthritis which has features similar to rheumatoid arthritis (RA). Much like RA, susceptibility to mouse CIA is influenced by the major histocompatibility complex (MHC) and is restricted to the H2 haplotypes q and r. In previous experiments, we have found that the introduction of an H2-Eb ^d transgene in H2-A^q CIA-susceptible mice was able to protect these mice against disease development. More recently, we have proposed that the polymorphism of the first domain of the Eβ molecule modulates this protection, and that the presentation of a peptide from the third hypervariable region of the Eβ chain by the H2-A^q molecule plays an important role in this mechanism. In the present report, we investigated whether the H2-E-mediated protection is H2-A^q-specific and whether the source of collagen has any influence. While the source of collagen had no effect on the protection, our results showed that the H2-E molecule failed to protect B10.RIII (H2^r) mice against CIA. Further, the H2 haplotype r exerted a negative effect on the Eβ^d-mediated protection in H2-A^q-restricted disease. Our results provide additional proof that self-MHC-derived peptides, such as Eβ peptides, may play an important role in the T-cell repertoire education and/or modulation of the T-cell response in the periphery. Received: 29 May 1996 / Revised: 26 June 1996     

植物中的H2O2信号及其功能

H2O2是植物细胞的信号分子,是细胞正常代谢的产物,生物和非生物胁迫促使植物细胞产生H2O2,通过H2O2信号应答胁迫.H2O2信号调控一系列重要的植物生理生化过程,如系统获得抗性(SAR)和高度敏感抗性(HR)、细胞衰老与程序化细胞死亡(PCD)、气孔关闭、根的向地性、根的生长和不定根形成、细胞壁的发育、柱头与花粉的发育及相互关系等.Ca2+流动和可逆蛋白磷酸化作用是H2O2下游信号,通过MAPK级联作用于转录因子,最终调控基因的表达.H2O2调控多种基因的表达,包括编码抗氧化酶基因、调控程序化细胞死亡相关蛋白基因、生物与非生物胁迫应答蛋白基因等.     

C2H2型锌指蛋白的研究进展

锌指基因家族是人体中最大的基因家族,它参与细胞分化、胚胎发育,并与许多疾病的发生相关．根据半胱氨酸(c)和组氨酸(H)的数目和位置可将锌指蛋白分为c2H2、c2Hc2、c2c2 CHCC2C2、C2C2C2C2等亚类．c2H2型锌指是最普遍的类型,它们作为重要的转录调控因子参与许多的生理过程．c2H2型锌指蛋白包含的锌指数目从1个到30多个不等．依据锌指的数量以及在蛋白中的分布情况,大多数c2H2型锌指蛋白属于下列3类之一：1)含3个c：H：锌指的蛋白(tC2H2);2)含多个锌指的c2H2型锌指结构蛋白(mac2H2);3)锌指成对间隔排列的c2H2型锌指蛋白(spC2H2)、一些c2H2型锌指蛋白能识别并结合特异性RNA或DNA片段．另一些则只能与RNA结合．通常锌指蛋白含锌指数目越多。它选择结合的能力就越强．     

H2S可能作为H2O2的下游信号介导茉莉酸诱导的蚕豆气孔关闭

以蚕豆（Vicia faba）为材料,利用激光共聚焦显微技术和分光光度技术,结合药理学实验,探讨硫化氢（hydrogen sulphide,H2S）和过氧化氢（hydrogen peroxide,H2O2）在茉莉酸（jasmonic acid,JA）调控气孔运动信号转导中的作用。结果表明,H2S合成抑制剂氨氧基乙酸（aminooxy acetic acid,AOA）、羟胺（hydroxylamine,NH2OH）、丙酮酸钾（potasium py-ruvate,C3H3KO3）和氨水（ammonia,NH3）,H2O2清除剂抗坏血酸（ascorbic acid,AsA）,合成抑制剂水杨羟肟酸（salicylhydroxamic acid,SHAM）、二苯基碘（diphenylene iodonium,DPI）均可逆转JA诱导的气孔关闭效应。JA能够明显提高蚕豆叶片及保卫细胞中的H2O2水平、H2S含量和L-/D-半胱氨酸脱巯基酶活性;H2S合成抑制剂可抑制JA引起的叶片H2S含量的增加;而H2O2清除剂则可减弱JA对H2S含量变化和L-/D-半胱氨酸脱巯基酶活性的诱导效应。以上结果表明H2S和H2O2均参与了JA诱导的蚕豆气孔关闭,且H2S（主要由L-/D-半胱氨酸脱巯基酶合成）可能作为H2O2的下游组分参与调控这一信号转导过程。     

H2O2对水稻Rubisco稳定性的影响

H2 O2 浓度低于 2 0mmol·L-1时 ,Rubisco分子稳定 ;高于 2 0mmol·L-1则Rubisco的大亚基之间发生交联 ,全酶发生聚沉。H2 O2 处理后 ,Rubisco表面巯基数目减少 ,对两种蛋白水解酶尤其是胰蛋白酶的敏感性增强 ,大亚基水解明显增加。H2 O2 处理只会增加Rubisco大亚基的水解程度 ,不会造成新的水解位点     

利用病毒从水中分离出H2

麻省理工学院材料化学家安琪拉·贝尔彻领导的团队模拟植物利用太阳光分离水,对一个病毒进行了基因改造,同时将其作为生物支架,将一些纳米组件搭建在一起,最终把H2O分离成了氢原子和氧原子。这一研究成果在将水变成氢燃料的漫漫征程中迈出了关键一步。     

基于组蛋白甲基化信息的H2A.Z和H2A核小体识别

组蛋白H2A的变体H2A.Z在基因的表达过程中发挥着重要的作用。根据H2A.Z和H2A核小体中组蛋白甲基化修饰方式的不同,作者应用多样性增量二次判别方法(increment of diversity with quadratic discriminant,IDQD)成功地对H2A.Z和H2A核小体进行了识别,说明了以组蛋白甲基化信息作为特征参数的IDQD模型对H2A.Z和H2A核小体识别的有效性。通过计算DNA序列的柔性,发现H2A.Z核小体对应的DNA序列的平均柔性比常规H2A核小体对应的DNA序列的平均柔性弱。     

固氮酶催化的放H2反应

以不同来源的纯化固氮酶定量地研究了在不同pN2(N2分压)条件下,催化N2还原和H2释放的反应．并对两者之间的关系进行了动力学分析,得出了固氮酶催化N2还原和H2释放反应的化学计量式： N2+(8+8Km(N2)[pN2])(H+=e-)→2NH3+(1+4Km(N2)[pN2])H2从而提出了双位点放H2的模式。并合理地解释了在正常条件下。每还原1摩尔N2总是放出大于1摩尔H2,和H2是N2还原反应的竞争性抑制剂,而N2却是放H2反应的非竞争性抑制剂等难以理解的问题。     

Dexmedetomidine alleviates H2O2-induced oxidative stress and cell necroptosis through activating of α2-adrenoceptor in H9C2 cells

Molecular Biology Reports - Oxidative stress induced necroptosis is important in myocardial ischemia/reperfusion injury. Dexmedetomidine (Dex), an α2-adrenoceptor (α2-AR) agonist, has...     

ERK1／2信号通路对黄芪苷Ⅳ抗H2O2诱导H9c2细胞氧化损伤的作用

目的：研究黄芪苷Ⅳ（AST）是否通过细胞外信号调节激酶1／2（ERK1／2）通路发挥对H2O2诱导的H9c2细胞氧化损伤的保护作用。方法：用200μmoL／L的H2O2处理细胞6h,采用MTT法检测细胞存活率,建立H2O2诱导的H9c2细胞氧化损伤模型;比色法测定细胞培养液中乳酸脱氢酶（LDH）活性、总超氧化物歧化酶（T—SOD）和锰超氧化物歧化酶（Mn—SOD）活力以及丙二醛（MDA）含量;Western blot检测H9c2细胞ERK1／2蛋白的磷酸化水平。结果：在H2O2浓度为200μmol／L作用6h条件下,细胞存活率降低程度适中,实验结果重复性好,确定后续实验采用200μmol／L H2O2作用6h建立模型。与H2O2组比较,10mg／L及20mg／L AST均显著提高细胞存活率（P〈0．01）,使细胞培养液中LDH活性显著降低（P〈0．01）,T—SOD及Mn—SOD活力显著提高（P〈0．01）,MDA含量显著降低（P〈0．01）。10mg/L及20mg/L AST均显著增加H2O2损伤的H9c2细胞p—ERK1／2蛋白的表达（P〈0．01）,当用PD98059（ERK1／2的抑制剂）预处理后,AST的作用则被取消。结论：黄芪苷Ⅳ可以通过ERK1／2通路发挥对H2O2诱导的H9c2细胞氧化损伤的保护作用。     

H2O2诱导Neuro—2a细胞死亡机理的研究

Reactive oxygen species (ROS), such as H2O2, can be produced by enzymes involved in electron leakage of respiration chain in mitochondria, and by neurochemical enzymes such as monoamine oxidase in neural cells. ROS are toxic to cells, and can result in cell death. ROS also play an important role in some diseases, especially in neurodegenerative diseases by yet unknown mechanisms. In the current research, the N-2a neuroblastoma cell was treated with H2O2, and the morphological changes of cell death were characterized. Our results show that N-2a cell death is different from classical apoptosis, but belongs type II nerve cell programmed death, which shows condensed chromatin within intact nuclear envelope and no apoptotic body. The chromatin DNA of dead cells shows no internucleosomal cleavage, as well as no requirement for caspase-3, 1 activity. However, the H2O2-induced N-2a cell death can be inhibited by Bcl-XL. It can be concluded that type II nerve cell death is the result of cell toxicity mediated by ROS. The results pave the way for further research of type II nerve cell death.     

Host-guest Interactions in Intercalates Zr(HPO4)2·2C2H5OH and VOPO4·2C2H5OH

Molecular mechanics simulations using Cerius² modelling environment combined with vibrational spectroscopy (IR and Raman) have been used to study the host-guest interactions in zirconium and vanadyl phosphate intercalated with ethanole. The strategy of investigation is based on the comparison of vibrational spectra for the host compound, intercalate and guest species. This comparison confirmed the rigidity of VOPO₄- and Zr(HPO₄)₂-layers during the intercalation and provided us with the basis for the strategy of modelling. Molecular mechanics simulations revealed the structure of intercalates and enabled to analyse the host-guest interaction energy and bonding geometry. The bilayer arrangement of ethanole molecules in the interlayer space with two differently bonded ethanole molecules has been found in both intercalates. The average interaction energy ethanole-layer for two differently bonded ethanole molecules is : 127.5 and 135.7 kcal·mol^-1 in Zr(HPO₄)₂·2C₂H₅OH, respectively 94.0 and 104.4 kcal·mol^-1 in VOPO₄·2C₂H₅OH. The Coulombic contribution to the ethanole-layer interaction energy is predominant in all cases, but the hydrogen bonding contribution is much higher in Zr(HPO₄)₂·2C₂H₅OH than in VOPO₄·2C₂H₅OH. Present results of modelling enabled the interpretation of vibrational spectra and explanation of small changes in positions and shapes of spectral bands, in infrared and Raman spectra, proceeding from the host structure to intercalates.     

N2(C2H2−C2H4) fixation in two species of Ceanothus seedlings in second year postfire chaparral

Nitrogen fixation in excised root nodules of 2-year-old, postfireCeanothus tomentosus andC. leucodermis seedlings was measured over an 8-month period using the acetylene reduction method. High levels of NO₃–N and NH₄–N present in postfire soils were limited to the upper 10 cm and did not inhibit nodulation in these deeper-rooting seedlings. Decreases in acetylene reduction activity occurred with decreased soil moisture and increased soil temperature. Nitrogen gains from these two Ceanothus shrub seedlings totalled 1.6 kg N ha^–1 yr^–1.     

外源H2O2对小麦幼苗耐盐性的调节作用

以高原448小麦品种为材料,分别测定了4个处理(Hoagland营养液、Hoagland营养液 150 mmol/LNaCl、Hoagland营养液 150 mmol/L NaCl 10μmol/L H2O2和Hoagland营养液 10μmol/L H2O2)的小麦幼苗在第2、4、6、8天叶片叶绿素、丙二醛、可溶性糖和还原性谷胱甘肽含量.结果显示:外源H2O2提高了NaCl胁迫下4个时段小麦幼苗的叶绿素含量(8.27%、32.57%、10.19%、4.86%)及还原性谷胱甘肽含量(3.09%、23.97%、5.85%、2.11%),显著提高了可溶性糖含量(14.58%、8.43%、16.68%、5.8%,P<0.05),而显著降低了其丙二醛含量(17.53%、14.04%、4.75%、8.47%,P<0.05).外源H2O2(10μmol/L)使NaCl胁迫下叶绿素含量和还原性谷胱甘肽含量峰值提前,同时推迟了丙二醛峰值出现的时间.研究表明,外源H2O2通过提高叶片叶绿素、可溶性糖和还原性谷胱甘肽含量以有效地增强小麦幼苗的耐盐性.     

水分胁迫下苹果叶片的H2O2代谢

轻度水分胁迫下苹果叶片Pr迅速升高，CAT活性变化不大，NaHSO3处理能显著低叶内H2O2含量，表明光呼吸的加强促进了H2O2产生可能是叶内H2O2大量积累的主要原因；中度水分胁迫下叶片AsA含量的下降和ehler反应的增强都非常明显；DDTC和AsA处理都能有效降低叶内H2O2积累。但MV处理的作用不大，说明叶片H2O2主要来源于Mehler反应AsA降解造成叶片对H2O2清除能力的下降是其积累的根本原因；严重水分胁迫时，NaHSO3和DDTC都不能有效地减轻叶内H2O2积累，光呼吸和Mehler反应都可能不是H2O2的主要来源。