简介：近年来,随着现代化经济建设水平的不断提高,制药企业发展速度日益加快,制药企业生产车间的规范化管理也不断提上日程.技术水平与管理方法的创新在一定程度上促进了制药生产车间的科学化管理,6S管理在制药生产车间的广泛应用,使制药生产车间的管理更细化,最大限度的提高了制药生产车间工作人员的工作效率,增强了员工的工作积极性.本文就6S管理的基本内容进行阐述,并对6S管理在制药生产车间的应用展开详细论述.

简介：目的：构建40S核糖体蛋白S6的原核表达载体,表达并纯化S6蛋白,将其作为底物用于S6激酶（S6K）的体外活性测定。方法：采用RT-PCR方法从人胚肾细胞HEK293中获取S6cDNA,将扩增产物克隆至大肠杆菌表达载体中,进行酶切及测序鉴定;IPTG诱导GST-S6融合蛋白在大肠杆菌中表达,用谷胱甘肽亲和层析纯化GST-S6,免疫沉淀法检测该蛋白是否可作为底物用于S6K的体外激酶活性测定。结果：酶切及测序鉴定表明构建了S6原核表达载体,并表达及纯化出GST-S6融合蛋白,相对分子质量为55×103。该蛋白可用于S6K的体外激酶活性测定,特异性强。结论：S6蛋白的克隆、表达与纯化成功,可用于S6K的体外激酶活性测定,为研究S6K的功能奠定了基础。

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简介：TaijiquanisamartialartofthehighestorderisculturallyetchedintheChineseheritageandentrenchedinwushupulpfictionandkungfumovies.Thereinliestheenigma.Thegentleslow-motionpracticecannotbemoreremotefromthespeedandpowerofcombat.AndaddingtothemystiqueisthepropositionthatTaijiquan'skungfuprowessisnotdrawnfromthephysicalstrengthofthemusculaturebutfromsome"innerstrength"orNeijin.ThissacredbeliefwasdesecratedwhenafighterthrashedaselfproclaimedTaijiquangrandmasterignominiouslyin10secondsinanopenmatch.Taijiquanwasthenderidedasaboguscombatart.TheincidentshakesthefoundationofTaijiquanandputsintoquestionsmanyofitstoutedclaims,whichchallengesthescientificquestoftheart.ThepaperconfrontstheissuedirectlybystudyingthemanifestationofNeijinintheframeworkofsciencetoprovideascientificbasisfortheart.Ittranscribestheyin-yangmetaphysicsthatregulatesTaijiquantrainingintermsofthealignmentofmuscleactionstobalanceandtounifymomentum,whichdevelopsthecorestrengthofNeijinandtheunderlyinglife-forceQienergy.Fromthisflowsthekungfumarvels,whichlieinthelivelinessandagilityofNeijin'sresponseandintheforceensuingthatisoftherightvectorvalues,allessentialinthefluidityofcombatapplication.ThemartialaspectofTaijiquanprovidesaconcreterepresentationofNeijin,whichgivesanexperientialinsightintothemultifacetedconceptofQi,andinturnapathwaytotheexplorationofQiinphysiologyandthusinQienergymedicine.

简介：ThisisthespecialissuedevotedtobioinformaticsresearchinSingapore.BioinformaticsresearchinSingaporestartedlargelyin1996whentheBioinformaticsCenter,NationalUniversityofSingapore,wasformed.Withthegovernment'seffortstoturnSingaporeintoapowerhouseofbiomedicalresearch,theGenomeInstituteofSingaporeandtheBioinformaticsInstituteofSingaporehavebeenestablishedsince2000.Recently,abioinformaticsresearchcenterwasalsoformedintheNanyangTechnologicalUniversity.Currently,therearealargenumberofbioinformaticsresearchteamsineachoftheseinstitutions.

简介：Monitoring.We,ecologists,hearthewordnearlyeveryday.Fromthemostunexpectedcornersthiswordspringsout,muchusedandabused.Oneonehand,itisoftenusedbymypeerstojustifytheirwork,theirprojectoreventheirexistenceasscientists.Theyclaimtodousefulwork,becausetheymonitorsomephenomenonoranother.This,goesthear-

简介：Themodulationandcontrolofgecko'sfootmovementswerestudiedelectrophysiologicallyinordertodesignthemotorcontrolsystemofagecko-mimicrobot.Inthisstudy(1)theanatomyoftheperipheralnervescontrollingthegecko'sfootmovementswasdetermined;(2)therelationshipbetweenthelimbnervesofthegeckoanditsfootmotorpatternswasstudied;(3)theafferentimpulsesofthenervesevokedbyrubbingthegecko'stoesandpalmwererecorded;(4)copyingthenaturalpatternsofmovementofthegecko'sfoot(abduction,adduction,flexion,andrevolution)anditslimbnervemodulationandcontrolmechanism,thenerveswerestimulatedundercomputercontrol,andtheresultsrecordedbyCCD.Resultssuggestthatgecko'sfootmovementscanbesuccessfullycontrolledbyartificialelectricalsignals.

简介：Thesandfishisalizardhavingtheremarkableabilitytomoveindesertsandinaswimming-likefashion.Themostout-standingadaptationstothismodeoflifearethelowfrictionbehaviourandtheextensiveabrasionresistanceofthesandfishskinagainstsand,outperformingevensteel.Weinvestigatedthetopography,thecompositionandthemechanicalpropertiesofsandfishscales.Theseconsistofglycosylatedkeratinswithhighamountofsulphurbutnohardinorganicmaterial,suchassilicatesorlime.Remarkably,atomicforcemicroscopyshowsanalmostcompleteabsenceofattractiveforcesbetweenthescalesurfaceandasilicontip,suggestingthatthisisresponsiblefortheunusualtribologicalproperties.Theunusualglycosylationofthekeratinswasfoundtobeabsolutelynecessaryforthedescribedphenomenon.Thescalesweredissolvedandreconstitutedonapolymersurfaceresultinginpropertiessimilartotheoriginalscale.Thus,weprovideapathwaytowardsexploitationofthereconstitutedscalematerialforfutureengineeringapplications.

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简介：China'sFreeARTProgramwasinitiatedin2002asanemergencyresponsetosaveandimprovethelivesofAIDSpatientslivingmainlyinimpoverishedruralregionsofcentralChina.WithlittleexperienceinHIV/AIDStreatmentandcareandresourcelimitations,China'seffortstoprovidewidespreadaccesstofreeantiretroviraltherapyhasbeenaprocessfraughtwithdifficulty.However,theFreeARTProgramisprogressingfromanemergencyresponsetoastandardizedtreatmentandcaresystem.Thedevelopmentofnationalguidelines,trainingprograms,alaboratorysupportnetwork,anationalpatientdatabase,programsforspecialpopulationssuchaschildrenandpatientslivingwithcoinfections,andoperationalresearchhasimprovedthescopeandqualityofthefreetreatmentprogram.AsofJune30,2005,atotalof19,456patientsin28provinces,autonomousregions,andspecialmunicipalitieshadreceivedfreeART.ChallengesstemmingfromthenatureofChina'shealthsystemandpatientpopulationpersist,butwithstronggovernmentsupportandadiversesetofresources,Chinahasthecapacitytoovercomethesechallengesandtoprovidenationwideaccesstohighqualitytreatmentandcare.

简介：Naturalcomposites,formedthroughbiomineralization,havehighlyorderedstructureswhichhavebeenaptlyexploredforfunctionalapplications.Thoughtheroleoforganicphaseshasbeenwellunderstoodinbiomineralization,notenoughattentionhasbeenpaidtotheroleofbio-membraneswhichareoftenfoundencapsulatingthechamberinwhichmineralizationoccurs.Wehaveusedthenaturalproteinandsemi-permeablemembraneofchickeneggstogrowdifferentmaterialssuchasceramics,semi-metalsandmetalstounderstandtheroleofbio-membranesinbiomineralization.Weherereportthesuccessfulbiomimeticsynthesisofcalcite,cadmiumsulphide,andsilverhavinghomogeneousmorphologies.Wehavefoundthatthemembraneoperateslikeatunedgateway,playingasignificantroleincontrollingthemorphologyoftheinorganiccrystalsformedduringbiomineralization.

简介：通过对20世纪80年代以来具有代表性的华北夏谷区审(鉴)定的20个主栽谷子品种进行SSR标记多态性分析,研究了华北地区育成谷子品种的遗传多样性。49对引物在20个谷子品种中扩增出具有多态性的条带,共检测出142个等位变异,平均每个位点检测出的等位变异数为2.96个。标记位点多态性信息含量(PIC)变幅为0.0904~0.6896,平均为0.4168。20份材料间的遗传距离变幅为0.0173~0.9000,聚类分析将其分成3个类群,其中谷丰1号自成一类,表明谷丰1号的遗传距离较其他品种大。不同年代谷子品种间遗传距离分析结果显示,各年代品种之间的平均遗传距离由大到小依次是1980s>1990s>2000s>2010s,表明随着年代的递进育成品种的遗传差异减小,亲缘关系增近。

简介：Thecorona-likespikesorpeplomersonthesurfaceofthevirionunderelectronicmicroscopearethemoststrikingfeaturesofcoronaviruses.TheS(spike)proteinisthelargeststructuralprotein,with1,255aminoacids,intheviralgenome.Itsstructurecanbedividedintothreeregions:alongN-terminalregionintheexte-rior,acharacteristictransmembrane(TM)region,andashortC-terminusintheinteriorofavirion.WedetectedfifteensubstitutionsofnucleotidesbycomparisonswiththeseventeenpublishedSARS-CoVgenomesequences,eight(53.3%)ofwhicharenon-synonymousmutationsleadingtoaminoacidalternationswithpredictedphysiochemicalchanges.ThepossibleantigenicdeterminantsoftheSproteinarepredicted,andtheresultisconfirmedbyELISA(enzyme-linkedimmunosorbentassay)withsynthesizedpeptides.AnotherprofoundfindingisthatthreedisulfidebondsaredefinedattheC-terminuswiththeN-terminusoftheE(envelope)pro-tein,basedonthetypicalsequenceandpositions,thusestablishingthestructuralconnectionwiththesetwoimportantstructuralproteins,ifconfirmed.Phyloge-neticanalysisrevealsseveralconservedregionsthatmightbepotentdrugtargets.

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简介：《BIO—ITWorld》的执行总编辑JohnRusse在《介绍2008》一文中，对未来一或两年内系统生物学领域中的热点做了如下预测。

简介：简要介绍了人白细胞介素6(hIL-6)的一级结构和高级结构;通过对hIL-6突变体的研究,发现hIL-6分子上存在2个活性位点(位点Ⅰ和位点Ⅱ),其中位点Ⅰ识别hIL-6受体(hIL-6R)的分子量为80×10~3的配基结合亚单位,位点Ⅱ与gp130结合参与信号转导,这使得合理设计hIL-6拮抗剂成为可能。

简介：【目的】谷斑皮蠹是一种重要的检疫性害虫,在新疆周边多个国家分布,口岸检疫人员多次从进境货物中截获谷斑皮蠹,该虫对新疆的农业生产极具威胁。【方法】以谷斑皮蠹的16SrDNA基因为靶序列,用昆虫通用引物对4种供试皮蠹进行PCR扩增,将扩增产物进行克隆和测序,用生物软件设计检测谷斑皮蠹的特异性引物与探针。【结果】设计的特异性引物（TG-SNP-F/TG-SNP-R）及所建立的常规PCR方法能有效检测出谷斑皮蠹,其扩增产物的片段大小为250bp,灵敏度为3ng·μL^-1设计的特异性引物（TG-F/TG-R）和探针（TG-probe）,以及所建立的实时荧光PCR方法,对谷斑皮蠹的检测特异性强,灵敏度达0.8fg·μL^-1【结论】建立的常规PCR方法和实时荧光PCR检测方法能够对谷斑皮蠹进行准确鉴定,为口岸检疫人员检测进境货物中携带的谷斑皮蠹提供技术支持。