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。     

Synthesis, characterization, and antibacterial and anticancer screening of {M2+–Co3+–M2+} and {Co3+–M2+} (M?is?Zn, Cd, Hg) heterometallic complexes

The cobalt(III) complexes Et₄N[Co(L¹)₂] and [Co(L²)₃] [H₂L¹ is 2,6-bis(N-(2-pyridyl)carbamoyl)pyridine and HL² is 2-(N-(2-pyridyl)carbamoyl)pyridine] were used as the building blocks for preparing a series of {M²⁺?CCo³⁺?CM²⁺} (where M?is?Zn, Cd, or Hg) and {Co³⁺?CM²⁺} (where M?is?Zn or Cd) heterometallic complexes. All heterometallic complexes were characterized using a host of spectroscopic methods (IR, NMR, and UV/vis spectroscopy and mass spectrometry), elemental analysis, and conductivity measurements. One of the representative compounds, {Hg²⁺?CCo³⁺?CHg²⁺}, was characterized crystallographically, and it was revealed that two Hg(II) ions are coordinated within the clefts created by the building block Et₄N[Co(L¹)₂]. The results of screening for anticancer activity against the human brain tumor U87 cell line and antibacterial activity against a range of resistant (Pseudomonas aeruginosa and Proteus vulgaris) as well as standard (Staphylococcus aureus SA 96, P. aeruginosa MTCC 1688, Klebsiella planticola MTCC 2272, and Escherichia coli T7) bacterial strains indicate promising activities. Notably, the observed activity was found to vary with the type of building block and the secondary metal ion present in the heterometallic complex. Treatment-induced cell death [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, MTT and macrocolony assay), growth inhibition, cytogenetic damage, cell cycle delay, and apoptosis were studied as the parameters for cellular response.     

Relation between electron exchange and nuclear vibrations in the H 2 + +H 2 + → H 3 + +p exothermic ion-molecular reaction

The effective cross section for the H ₂ ⁺ +H ₂ ⁺ → H ₃ ⁺ +p reaction in the energy range 5.7–11.5 eV is measured by the split beam method. The maximum of the cross section at an energy of ～8 eV is related to the production of the H ₄ ⁺⁺ compound system. The reaction threshold W _thr≈5 eV provides evidence in favor of the classical model of the H ₂ ⁺ ion with the charge fixed on one of the nuclei throughout the collision event.     

Ca2+和钙调素对H2O2诱导的玉米幼苗耐热性的调控

外源H2O2预处理提高了玉米幼苗内源H2O2的含量和钙调素(CaM)活性,缓解了高温处理过程中CaM活性的下降,增加了玉米幼苗在高温胁迫下的存活率.H2O2诱导的玉米幼苗耐热性的形成可被外源Ca2 处理所加强,被Ca2 螯合剂EGTA、质膜Ca2 通道阻塞剂La3 、胞内Ca2 通道阻断剂RR(钌红),以及CaM抑制剂CPZ(氯丙嗪)和TFP(三氟拉嗪)所抑制,表明Ca2 和CaM参与了H2O2诱导的玉米幼苗耐热性形成的调控.     

[Zn(phen)(O,N,O)(H2O)] and [Zn(phen)(O,N)(H2O)] with O,N,O?is?2,6-dipicolinate and N,O?is?l-threoninate: synthesis, characterization, and biomedical properties

Two ternary Zn(II) complexes, with 1,10-phenanthroline (phen) as the main ligand and a carboxylate-containing ligand [dipicolinate (dipico) or L-threoninate (L-Thr)] as the subsidiary ligand, were prepared and characterized by elemental analysis, Fourier transform IR, UV, and fluorescence spectroscopy, X-ray diffraction, molar conductivity, and electrospray ionization mass spectrometry. X-ray structure analysis shows that both [Zn(phen)(dipico)(H(2)O)]·H(2)O (1) and [Zn(phen)(L-Thr)(H(2)O)Cl]·2H(2)O (2) have octahedral geometry about the Zn(II) atom. Both complexes can inhibit topoisomerase I, and have better anticancer activity than cisplatin against nasopharyngeal cancer cell lines, HK1 and HONE-1, with concentrations causing 50?% inhibition of cell proliferation (IC(50)) in the low micromolar range. Complex 2 has the highest therapeutic index for HK1. Both Zn(II) complexes can induce cell death by apoptosis. Changing the subsidiary ligand in the Zn(II) complexes affects the UV-fluorescence spectral properties of the coordinated phen ligand, the binding affinity for some DNA sequences, nucleobase sequence-selective binding, the phase at which cell cycle progression was arrested for treated cancer cells, and their therapeutic index.     

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.     

Ca2+参与H2O2促进盐碱混合胁迫下燕麦种子的萌发和成苗

盐碱胁迫是制约作物高产优质的重要因素,Ca²⁺和H₂O₂作为信号分子参与作物逆境响应调节。为了解Ca²⁺是否参与H₂O₂对盐碱胁迫下植物种子萌发和成苗的调控,以燕麦（Avena nude）为试验材料,采用隶属函数分析方法,研究了胞外游离Ca²⁺螯合剂EGTA、质膜Ca²⁺通道阻断剂LaCl₃和液泡膜Ca²⁺释放抑制剂钌红（RR）与H₂O₂共处理对盐碱混合（NaCl：Na₂SO₄：NaHCO₃：Na₂CO₃=12：8：9：1）胁迫下种子萌发和成苗的影响。结果表明,25~200 mmol·L^-1盐碱混合胁迫显著抑制燕麦的种子萌发和成苗,抑制程度随浓度提高而增强;0.001~2 mmol·L^-1 H₂O₂能够促进燕麦种子的萌发和成苗,且0.5 mmol·L^-1 H₂O₂可以显著缓解75 mmol·L^-1盐碱混合胁迫对燕麦种子萌发和成苗的抑制作用;而EGTA、LaCl₃和RR均能消减H₂O₂对盐碱混合胁迫下燕麦种子萌发和成苗的促进作用。表明Ca²⁺参与H₂O₂促进盐碱混合胁迫下燕麦种子萌发和成苗的信号转导过程。     

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     

How relevant are S=O and P=O Double Bonds for the Description of the Acid Molecules H2SO3, H2SO4, and H3PO4, respectively?

The acid molecules H₂SO₃, H₂SO₄, and H₃PO₄ are usually drawn using "Lewis structures" which exhibit the octet extension by 3d-orbitals on sulfur and phosphorus, respectively. Thus, S=O and P=O double bonds are assumed to be formed. The natural d-orbital occupancies on S and P, however, were calculated to be as low as 0.1 e, and therefore, an octet extension can hardly be expected. After the natural bond orbitals (NBO) search procedure was forced to attempt to form different Lewis structures of bonds and lone pairs, we defined the optimal Lewis structure, if a dominant structure exists at all, by the maximum electronic charge in Lewis orbitals. Indeed, sulfur obeys the octet rule in the optimal zwitterionic Lewis structures and does not form S=O double bonds. No dominant resonance structure could be found for H₃PO₄ where polarized PO ?-bond and zwitterionic PO bond structures exhibit similar weights.     

A novel vanadium(V) homocitrate complex: synthesis,structure, and biological relevance of [K2(H2O)5][(VO2)2(R,S-homocitrate)2]·H2O

Initial investigations into the possible roles of homocitric acid in the biosynthesis and function of the active site cofactor of nitrogenase resulted in the isolation and characterization of the dinuclear vanadium(V) species [K₂(H₂O)₅][(VO₂)₂(R,S-C₇H₈O₇)₂]·H₂O ( 1). Complex 1 represents the first synthetic structurally characterized transition metal homocitrate complex and may represent an early mobilized precursor in the biosynthesis of VFeco. Compound 1 was characterized by a variety of physical methods, including X-ray crystallography. Crystal data: space group P?* (#2), with a?=?10.292 (3)?Å, b?=?16.663 (3)?Å, c?=?8.343 (1)?Å, α?=?95.93 (1)°, β?=?105.74 (2)°, γ?=?90.86 (2)°, V?=?1386 (1)?ų, and Z?=?2. The homocitrate ligand is coordinated to the vanadium(V) atoms in a bidentate fashion via the deprotonated bridging hydroxyl group and a carboxylate donor. This unique coordination mode accurately mimics the coordination of homocitrate to the cofactor of nitrogenase.     

HPGMR不育花药能量代谢,H2O2的积累与雄性不育的关系

HPGMR农垦58s不育花药在单核早期、单核晚期、二核及三核期的COD、ATP酶活性普遍低于可育花药,少2～5条COD同工酶带,各发育时期的ATP含量也较低,并有H_2O_2的积累。     

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.     

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。     

外源H2O2对水稻幼苗抗寒性的调节作用

在常温下用不同浓度的外源H2O2(0～20 mmol·L-1)预处理水稻幼苗,再进行12 h 6℃低温胁迫,根据幼苗相对含水量和质膜相对透性筛选最佳外源H2O2处理浓度,并分析最佳外源H2O2浓度下幼苗的渗透调节物质和活性氧相关指标的变化.结果表明:(1)0～8 mmol·L-1 H2O2预处理可以增加水稻幼苗的相对含水量,降低其质膜相对透性,并以4 mmol·L-1 H2O2的效果最佳.(2)低温胁迫后,与对照组相比,4 mmol·L-1外源H2O2预处理降低了水稻幼苗萎蔫程度,并使其总呼吸速率、交替途径容量都有增加,同时还抑制了丙二醛的含量,增加了可溶性糖、可溶性蛋白质和脯氨酸的含量.(3)外源H2O2预处理对水稻幼苗的内源H2O2含量以及O(-)/(·)2产生速率没有显著影响.研究发现,外源H2O2可以通过提高呼吸速率、降低脂质过氧化程度、增加碳氮代谢来有效增强水稻幼苗的抗寒性,它可能以一种独立于内源活性氧系统之外的方式发挥作用.     

H2O2对棕色固氮菌钼铁蛋白的损伤

棕色固氮菌固氮酶钼铁蛋白经Ｈ２Ｏ２作用后,钼铁蛋白的Ｍｏ和Ｆｅ原子含量,乙炔还原少在性,摩尔消光系数和α－螺旋度地匀显著降低,蛋白质肽链也许发生部分断一。本和纱中存在过氧化物酶。可避免Ｈ２Ｏ２对钼铁蛋白的损伤作用,表明Ｈ２Ｏ２对钼欠蛋白的金属原子簇和蛋白质结构均有明显的损伤作用,而过氧化物酶可保护固氮酶不受Ｈ２Ｏ２的破坏。