简介:Anewμ3-Otriiron(Ⅲ)complex[Fe3O(OBz)6(CH3OH)3](NO3)(CH3OH)2(HOBZ=benzoicacid)hasbeensynthesized,itsstructurehasbeendeterminedandvariabletemperaturemagneticsusceptilityhasalsobeenmeasured.Inthemolecule,threeironatomsformedanequilateraltrianglewithu3-Oincenter.ThefittingtothemagneticsusceptibilityshowedthatanintramolecularantiferromagneticexchangeinteractionoccurredbetweenironatomswithJ=-25.51cm-1,andaweakerintermolecularantiferromagneticexchangeinteractionoccurredwithzJ’=-2.30cm-1.
简介:采用直接动力学的方法,对多通道反应体系Br+CH3S(O)CH3进行了理论研究.在BH&H-LYP/6-311G(2d,2p)水平下获得了优化几何构型、频率及最小能量路径(MEP),能量信息的进一步确认在MC-QCISD(单点)水平下完成.利用正则变分过渡态理论,结合小曲率隧道效应校正(CVT/SCT)方法计算了该反应的两个可行的反应通道在200K~2000K温度范围内的速率常数.在整个反应区间内,生成HBr的反应通道与生成CHa的反应通道存在着竞争,前者是主反应通道,后者是次反应通道.变分效应和小曲率隧道效应对反应速率常数的计算影响都很小.理论计算得到的两个反应通道的反应速率常数与实验值符合得很好.
简介:Thetitlecomplex[NH_3CH_2CH(NH_2)CH_3]_2[M(Ⅵ)O_2(OC_6H_4O)_2](M=Mo_(0.6)W_(0.4))wassynthesizedviaasimplesolution-phasechemicalroute.ThedeterminationofsinglecrystalX-raydiffractionrevealedthatthetitlecompoundiscrystallizedinamonoclinicsystemwithP2(1)/nspacegroup,a=1.0913(10)nm,b=1.0442(10)nm,c=1.8842(19)nm,α=90°,β=96.530(17)°,γ=90°,Z=4,andV=2.133(4)nm3.Themononuclearanionicunit[M(Ⅵ)O2(OC6H4O)2]2-displayschiralpseudo-octahedral[MO_6]coordinationgeometryandislinkedbychiralcationsviahydrogenbondandπ…πstackinginteraction.Thetransmissionelectronmicroscopyimagesshowthatthetitlecomplexiscomprisedofnano-particleswithdiametersrangingfrom20to50nm.TheNMRstudyshowsthe1Hdownfieldchemicalshiftsof[NH_3CHaHbCH(NH_2)CH_3]+cationsinthetitlecomplexwhenitismixedwithadenosine-triphosphate(ATP),andthechemicalshiftdifferencebetweenHaandHbisincreasedgreatly,andmostofthecatecholateligandsdissociatefromthecentralmetalatoms.TheDNAcleavageactivityexperimentrevealsthatDNAcleavagepromotedbythetitlecomplexislowerthanthatbyNa_2MoO_4whichpossessesantitumorpro-perty,buthigherthanthatbyNa_2WO_4.
简介:摘要随着对早期胚胎发育各阶段的深入探索,尤其是对合子基因组激活以及第一次细胞分化的研究,研究者发现早期胚胎表观遗传学遵循着严密的时空修饰机制。既往研究已确定H3K9me3和H3K27me3对基因组表达的抑制效应,明确它们在基因组中参与了许多重要的生物学事件,如染色质重编程、基因组印记、胚胎干细胞干性维持及体细胞克隆等,但其涉及的详细分子机制和作用机理仍不完全清晰。本文从发育生物学和表观遗传学方面,阐述早期胚胎组蛋白H3K9me3和H3K27me3研究进展,为了解胚胎发育的复杂机制以及进一步完善体外胚胎培养技术提供理论基础。
简介:Whodesigned(设计)thefirsthelicopter(直升机)?Who1themostfamouspicturesintheworld?Whoknewmoreaboutthehumanbodythanmost2?Thereisananswer3allthesequestions-LeonardodaVinci.Leonardomayhavebeenthegreatestgenius(天才)the4haseverknown.HelivedinItalyaroundtheyear1500,butmanyofhisinventionsseemmoderntoustoday.Forexample,oneofhisnotebookshasdrawingsofahelicopter.Ofcourse,hecouldn’t5ahelicopterwiththethingshehad.Butscientistssayhisideawouldhave6.ButLeonardowasn’tjustaninventor.Hewasoneofthegreatestartistsofhisday.Bythetimehewastwentyyearsold,hewascalledamaster(大师)painter,andashegotolderhebecame7morefamous.Sometimeshedrewahandintendifferentways8hewasreadytopaint.
简介:本文探讨(CH3Li)4中键的作用,通过计算,发现(CH3Li)4分子的面甲基结构比顶甲基结构要稳定;指出Li—Li间的成键作用相当强,约为Li2分子中键作用的40%左右,估计(CH3Li)4中的J7Li-6Li值约为1Hz。