Definition
Researchonthelawsoflifeactivitiessuchasmicrobialmorphology,physiologyandbiochemistry,geneticvariation,ecologicaldistributionandclassificationevolution,andapplythemtoindustrialfermentation,medicalhygiene,bioengineeringandenvironmentProtectionandotherpracticalfieldsofscience.
Subjects
Microbiologyisanimportantbasiccourseorprofessionalbasiccourserequiredforbiologymajorsincollegesanduniversities,anditisalsothetheoreticalandtechnicalbasisofmodernhigh-techbiotechnology.Geneticengineering,cellengineering,enzymeengineeringandfermentationengineeringareformedanddevelopedonthebasisofmicrobiologyprinciplesandtechnology;microbiologyisalsooneoftheimportantcornerstonesforthedevelopmentofbiologicalmajorsandmodernizationofagricultureandforestryinhigheragriculturalandforestrycolleges.Withthewidespreadapplicationofbiotechnology,microbiologywillhaveahugeimpactonmodernandfuturehumanproductionactivitiesandlives.
Historicalorigin
Experiencestage
Sinceancienttimes,humanshavebeenawareofthelifeactivitiesofmicroorganismsandtheireffectsindailylifeandproductionpractices.ThehistoryofChina'suseofmicroorganismsforwinemakingcanbetracedbacktotheLongshanCultureperiodmorethan4,000yearsago.Thesaucemakingtechnologywasinvented2600yearsago.Theword"wine"isengravedintheoracleboneinscriptionsoftheYinandShangera.IntheQiMinYaoShu(533~544)byJiaSixieoftheNorthernWeiDynasty,methodsofmakingkojifromgrains,makingwine,makingsauce,makingvinegar,andpicklingvegetablesarelisted.
InthestonecarvingsleftbehindinancientGreece,thereisarecordoftheoperationprocessofwinemaking.DuringtheSpringandAutumnandWarringStatesPeriod,Chinausedthefunctionofmicroorganismstodecomposeorganicmattertodecontaminatemanureandaccumulatemanure.The"BookofPanSheng"inthefirstcenturyADproposedasystemofripemanurefieldsandintercroppingofmelonsandadzukibeans.Inthe2ndcentury"ShenNong'sMateriaMedica",thereisarecordofwhitebasssilkwormcuringdiseases.Inthe"ZuoZhuan"ofthe6thcentury,thereisarecordofthetreatmentofdiarrheawithwheatqu.Inthe10thcentury"YiZongJinJian",thereisarecordaboutthemethodofvaccination.In1796,theBritishJennerinventedthevacciniavaccine,whichlaidthefoundationforthedevelopmentofimmunology.
Morphologicalstage
Inthe17thcentury,theDutchmanLeeuwenhoekusedahomemadesimplemicroscope(whichcanbemagnified160to260times)toobservetartar,rainwater,wellwaterandplantinfusionLater,itwasdiscoveredthatthereweremany"tinyanimals"inmotion,andusedtextandpicturestoscientificallyrecordthedifferentformsofbacteria(spherical,rod-shaped,spiral,etc.)thathumanssawtheearliest"tinyanimals".Soonafter,theItalianbotanistP.AmiKellyalsousedasimplemicroscopetoobservethemorphologyofthefungus.In1838,GermanzoologistC.G.Inthebook"CiliatesareRealOrganisms",Ehrenbergdividedtheclassofciliatesinto22families,including3familiesofbacteria(heregardedbacteriaasanimals),andcreatedabacteria(bacteria)oneword.In1854,GermanbotanistF.J.Cosidiscoveredthesporesofrod-shapedbacteria.Heattributedthebacteriatotheplantkingdomanddeterminedthetaxonomicstatusofbacteriainthenexthundredyears.
Physiologicalstage
Theresearchofmicrobiologyhasenteredthephysiologicalstagesincethe1860s.FrenchscientistL.Pasteur'sresearchonmicrobialphysiologylaidthefoundationformodernmicrobiology.Pasteur,achemist,setfootinmicroorganismstotreat"winedisease"and"silkwormdisease."Hearguedthatthebrewingofwineandvinegarandthecorruptionofsomesubstancesarefermentationprocessescausedbycertaintypesofmicroorganisms,notfermentationorcorruptionthatproducesmicroorganisms.Thefamousretortexperimenthasindisputablyconfirmedthis;hebelievesthatfermentationItistherespirationofmicroorganismsinanenvironmentwithoutair,andthedeteriorationofwineistheresultofthegrowthofharmfulmicroorganisms;hefurtherprovesthatdifferentmicroorganismshaveuniquemetabolicfunctions,whichrequiredifferentlivingconditionsandcausedifferenteffects;heAheatsterilizationmethodtopreventdeteriorationofwinewasproposed,whichwaslatercalledPasteursterilizationmethod.Usingthismethod,thenewlyproducedwineandbeercanbestoredforalongtime.Kochhasmadegreatcontributionstotheemergingmedicalmicrobiology.KochfirstarguedthatBacillusanthracisisthecausativebacteriumofanthracnose,andthenhediscoveredthecausativebacteriaoftuberculosisandcholera,andadvocatedtheuseofdisinfectionandsterilizationmethodstopreventthespreadofthesediseases;hisstudentsalsodiscovereddiphtheria,pneumonia,tetanus,andplague.Suchpathogenicbacterialedpeopletoattachgreatimportancetobacteriaatthattimeandinthefollowingdecades;hepioneeredthestainingmethodofbacteria,usingagarasasolidificationmediumtocultivatebacteriaandseparatesinglecoloniestoobtainpureculture;HestipulatedthemethodsandproceduresforidentifyingpathogenicbacteriaandputforwardthefamousKoch'slaw.In1860,theBritishsurgeonJ.Listerapplieddrugstosterilizeandcreatedasterilesurgicaloperationmethod.In1901,thefamousbacteriologistandzoologistИ.И.Mechnikovdiscoveredtheeffectofwhitebloodcellsonphagocytosisofbacteriaandcontributedtothedevelopmentofimmunology.
Russian-bornFrenchmicrobiologistC.H.Basedonthediscoveryofsulfurbacteriain1887andthediscoveryofnitrifyingbacteriain1890,Vinogradzdemonstratedthemicrobiologicalprocessofsulfidationandnitrificationinsoilandthechemicalenergyandnutritioncharacteristicsofthesebacteria.Hewasthefirsttodiscovertheanaerobicautogenousnitrogen-fixingbacteria,andusedtheprinciplesandmethodsofinorganicculturemedium,selectiveculturemediumandenrichmentculturetostudythelifeactivitiesofvariousphysiologicalgroupsofsoilbacteria,andrevealedthatsoilmicroorganismsparticipateinthetransformationofsoilmaterials.Thisrolehaslaidthecornerstoneforthedevelopmentofsoilmicrobiology.
In1892,RussianplantphysiologistД.И.Ivanovskydiscoveredthattobaccomosaicpathogensareorganismsthataresmallerthanbacteria,canpassthroughbacterialfilters,andcannotbedetectedbyopticalmicroscopes.Theyarecalledfilterviruses.From1915to1917,F.W.TwaterandF.H.DeHerrelobservedtheappearanceofplaquesonthebacterialcoloniesandthelysisphenomenonintheculturesolution,andfoundbacterialviruses-phages.Thediscoveryofviruseshasexpandedpeople'sconceptofbiologyfromcellulartonon-cellular.
Inthisstage,theestablishmentofmicrobialmanipulationtechnologyandresearchmethodsisauniquesymbolofthedevelopmentofmicrobiology.
Biochemistrystage
Sincethe20thcentury,thepenetrationofbiochemistryandbiophysicsintomicrobiology,coupledwiththeinventionofelectronmicroscopeandtheapplicationofisotopetraceratoms,haspromotedmicroorganismsThedevelopmentoflearningtothestageofbiochemistry.In1897,theGermanscholarE.Bischnerdiscoveredthatthecell-freeextractofyeastcanfermentsugarliquidtoproduceethanollikeyeast,andthusunderstandtheenzymaticprocessofyeastalcoholfermentation,combiningmicrobiallifeactivitieswithenzymechemistry.G.Neubergetal.'sresearchonyeastphysiologyandtheanalysisofalcoholfermentationintermediateproducts,A.J.Kleivo’sresearchonmicrobialmetabolismandthecomparativebiochemicalresearchdirectionshepioneered,aswellasaseriesofbasicphysiologicalandmetabolicpathwaystudiesconductedbymanyotherpeopleusingEscherichiacoliasmaterials,haveclarifiedthelawsandregulationsofmetabolismoforganisms.Thebasicprincipleofcontrollingitsmetabolism,andexpandingtheuseofmicroorganismsonthebasisofcontrollingmicrobialmetabolism,developingenzymology,andpromotingthedevelopmentofbiochemistry.Sincethe1930s,peoplehaveusedmicroorganismsfortheindustrialproductionofethanol,acetone,butanol,glycerol,variousorganicacids,aminoacids,proteins,oils,etc.
In1929,A.FlemingdiscoveredthatPenicilliumcaninhibitthegrowthofStaphylococcus,revealedtheantagonisticrelationshipbetweenmicroorganismsanddiscoveredpenicillin.In1949,S.AWaxmandiscoveredstreptomycinbasedonthedataaccumulatedinhisyearsofstudyingsoilmicroorganisms.Sincethen,moreandmorenewantibioticshavebeendiscovered.Inadditiontomedicaluse,theseantibioticsarealsousedtocontrolanimalandplantdiseasesandfoodpreservation.
MolecularBiology
In1941,G.W.BiddleandE.L.TatumusedX-raysandultravioletraystoirradiateAlternaria,causingittomutateandobtainauxotrophs.Theirresearchonauxotrophscannotonlyfurtherunderstandtheroleandnatureofgenes,butalsolaythefoundationformoleculargenetics.In1944,O.T.Averyconfirmedforthefirsttimethatdeoxyribonucleicacid(DNA)isthesubstancethatcausesthegenetictransformationofpneumococcalcapsuleformation.In1953,J.D.WatsonandF.H.C.CrickproposedthedoublehelixstructuremodelofDNAmoleculesandthetheoryofhalf-reservednucleicacidreplication.H.Frankel-Conradandothersprovedthatribonucleicacid(RNA)isacarrierofgeneticinformationthroughtobaccomosaicvirusrecombinationexperiments,whichplayedanimportantroleinlayingthefoundationofmolecularbiology.Later,hediscoveredthemechanismoftransferribonucleicacid(tRNA),thetheoryofgenetripletcodes,themicrostructureofviruses,theprocessofinfectionandproliferation,andthemechanismofbiologicalnitrogenfixation,andotherimportanttheoriesinmicrobiology,demonstratingthebroadapplicationprospectsofmicrobiology..In1957,A.KornbergandotherssuccessfullycarriedouttheinvitrocombinationandmanipulationofDNA.Theresearchofprokaryoticmicrobialgenerecombinationhasmadecontinuousprogress.Insulinhasbeenfermentedwithgene-transferredEscherichiacoli,andinterferonhasalsobeenproducedbybacteria.Theresearchofmodernmicrobiologywillcontinuetodeepentothemolecularlevelanddeveloptothedepthandbreadthofproduction.Branches
Microbiologyhasexperiencedmorethanacenturyofdevelopment,andalargenumberofbrancheshavebeendifferentiated.Accordingtoincompletestatistics(1990),therehavebeenasmanyas181subjects.Accordingtoitsnature,itcanbesimplysummarizedintothefollowing6categories:
⑴Accordingtothepurposeofstudyingthebasiclawsoflifeactivitiesofmicroorganisms,thegeneralsubjectiscalledGeneralMicrobiology,anditisdividedintosubjects.Suchasmicrobialtaxonomy,microbialphysiology,microbialgenetics,microbialecologyandmolecularmicrobiology.
⑵Accordingtothemicrobialresearchobjects,suchasbacteriology,mycology(mycology),virology,prokaryoticbiology,autotrophicbacteriabiologyandanaerobicbacteriabiology,etc.
⑶Accordingtotheecologicalenvironmentwherethemicroorganismsarelocated,suchassoilmicrobiology,microecology,marinemicrobiology,environmentalmicrobiology,watermicrobiologyandcosmicmicrobiology.
⑷Accordingtothefieldofmicrobiology,itisdividedintogeneraldisciplinescalledAppliedMicrobiology,sub-disciplinessuchasindustrialmicrobiology,agriculturalmicrobiology,medicalmicrobiology,medicinalmicrobiology,DiagnosticMicrobiology,Antibiotics,FoodMicrobiology,etc.
⑸Accordingtotheintersectionandintegrationofdisciplines,suchaschemicalmicrobiology,analyticalmicrobiology,microbialbioengineering,microbialchemicaltaxonomy,microbialnumericaltaxonomy,microbialgeochemistryandmicrobialinformatics,etc.
⑹Accordingtoexperimentalmethodsandtechniques,suchasexperimentalmicrobiology,microbiologicalresearchmethods,etc.
Species
Overview
Themeaningofmicroorganisms:non-taxonomicnouns,derivedfromtheFrenchword"Microbe".Itisageneraltermforsmall,single-celledormulti-celledcellswithsimpleindividualstructure,andevenlowerorganismswithnocellstructure.
Type:Thegroupofmicroorganismsisverycomplex,including:viruseswithoutcellstructure,viroids,virus-like,etc.,
Prokaryotes,actinomycetes,rickettsiaeYeastsandmoldsbelongingtoeukaryotes,single-celledalgae,protozoa,etc.
Two-worldsystem
Animalia:Ithasnocellwall,canmove,anddoesnotperformphotosynthesis.
Plantaeoftheplantkingdom:hasacellwall,doesnotmove,andcancarryoutphotosynthesis.
ThreeRealms:Protista:(EHHaeckel,proposedin1866)
FiveRealmsSystem
ProkaryoteMonera:bacteria,actinomycetes,etc.
Protista:Algae,protozoa,slimemold,etc.
Fungi:Yeast,mold
Animalia:
Plantae:
TheFiveRealmsSystemisbasedonthelevelofcellstructuredifferentiationandthetissuetypesrelatedtothethreemainnutritionalmethodsofphotosynthesis,absorptionandfeeding.Sixrealms:plusthevirusrealm.
ThreeRealms(Domains)System
AfterWoesecomparedthe16SrRNAsequencesofmorethan60strainsofbacteriawiththeoligonucleotidesequencecataloginganalysismethod,hewassurprisedtofindthattherewerenomethanogenicbacteriaatall.Thosesequencesthatarecharacteristicofbacteria,soproposedthethirdformoflife-archaebacteria(archaebacteria).Subsequently,heperformed16SrRNA(18SrRNA)sequenceanalysisandcomparisonofalargenumberofstrains,includingsomeeukaryotes,andfoundthatextremehalophilesandextremeacidophilicbacteriaarealsothesameasmethanogenicbacteria,withdifferentandothercharacteristics.Bacteriaarealsodifferentfromthesequencefeaturesoftheirnuclearorganisms,andtheyhavemanycommonsequencefeatures.Soitwasproposedtodivideorganismsintothreekingdoms(Kingdom)(laterrenamedasthreedomains):Archaea,EubacteriaandEukaryotes.In1990,inordertoavoidseeingarchaeaasatypeofbacteria,herenamedthethreerealms(domains):Bacteria,ArchaeaandEukarya,andconstructedThephylogenetictreeofthethreerealms(domains).
Features
1.Smallsizeandlargespecificsurfacearea
Thesizeofmicroorganismsismeasuredinμm,butthespecificsurfacearea(surfacearea/volume)islarge,whichmusthaveahugenutrientabsorption,metabolicwasteexcretionandenvironmentalinformationacceptance.Thisfeatureisalsothekeytothedifferencebetweenmicroorganismsandalllargeorganisms.
Example:Lactobacillus:120,000;Eggs:1.5;People(200pounds):0.3
2.Highabsorptionandfasttransformation
Thischaracteristicprovidesasufficientmaterialbasisforhigh-speedgrowthandreproductionandtheproductionofalargenumberofmetabolites.
Forexample:3gramsofhamstersconsumefoodequaltotheirbodyweighteveryday;1gramofflashgreenhummingbirdconsumestwicetheirbodyweighteveryday;Escherichiacoliconsumes2000timesthebodyweightofsugarperhour;fermentedlactoseThebacteriacandecomposelactose1,000to10,000timesitsownweightwithin1hourtoproducelacticacid;1kilogramofyeastcellscanfermentthousandsofkilogramsofsugarinonedaytoproducealcohol
3.Prosperousgrowthandfastreproduction
Extremelyhighgrowthandreproductionspeed,suchasE.colisplitsevery20-30minutes.Ifitdoesnotstopdividing,thebacterialcountof2.2×10^43willincreasein48hours,nutrientconsumption,metabolicaccumulation,Limitgrowthrate.Thisfeaturecanconvertalargenumberofsubstratesintousefulproductsinashorttime,shorteningthescientificresearchcycle.Therearealsodownsides,suchasdiseaseandfoodmildew.Forexample:Escherichiacoli(E.coli)cellscandivideevery12.5-20minutesunderoptimalgrowthconditions;inliquidmedium,theconcentrationofbacterialcellsisgenerally108-109cells/ml;Brevibacteriumglutamicum:Shakebottleseed→50tonsfermenter:thenumberofcellscanincrease3.2billiontimesin52hours.Usingthisfeatureofmicroorganismscanrealizeshort-periodandhigh-efficiencyproductioninthefermentationindustry.Forexample,whenproducingfreshyeast,itcanbeharvestedonceinalmost12hours,anditcanbeharvestedhundredsoftimesayear.
Tablethegenerationtimeanddailyproliferationrateofseveralmicroorganisms
Microorganismname | Generationtime | Numberofsplitsperday | Temperature | EveryDailyproliferationrate |
lacticacidbacteria | 38points | 38 | 25 | 2.7×1011 |
E.coli | 18points | 80 | 37 | 1.2×1024 |
Rhizobium | 110points | 13 | 25 | 8.2×103 |
Bacillussubtilis | 31points | 46 | 30 | 7.0×1013 |
Photosyntheticbacteria | 144points | 10 | 30 | 1.0×103 |
Saccharomycescerevisiae | 120points | 12 | 30 | 4.1×103 |
Chlorella | 7hours | 3.4 | 25 | 10.6 |
Nostocalga* | 23hours | 1.04 | 25 | 2.1 |
Diatom | 17hours | 1.4 | 20 | 2.64 |
Paramecium | 10.4hours | 2.3 | 26 | 4.92 |
*istheoldnameofthegenusCandida(Nostoc),whichisthesameprokaryoteasthebacteria.
4.Strongadaptabilityandeasymutation
Extremelyflexibleandadaptable,withamazingadaptabilitytoextremeenvironments,andgeneticmaterialiseasytomutate.Moreimportantly,therearemanytypesofphysiologicalmetabolismandmetabolitesofmicroorganisms.Example:Microbeshavebeenfoundinsedimentaryrocksof10,000metersdeepsea,85kilometersabovethesky,128metersand427metersbelowtheformation.Thenumberofmicroorganisms,accordingto1972:
Type | Lowerlimit | Tendencyspecies | Highlimit |
VirusandLiKeSubstructure | 1217 | 1217 | 1217 |
Mycoplasma | 42 | 42 | 42 |
BacteriaandActinomycetes | >1000 | 1500 | 1500 |
Cyanobacteria | 1227 | 1500 | 1500 |
Algae | 15051 | 23100 | 23100 |
Fungus | 37175 | 47300 | 68939 |
Protozoa | 24068 | 24068 | 30000 |
Total | 79780 | 98727 | 127298 |
5.Widedistributionandmanytypes
Widedistributionareaandwidedistributionenvironment.Therearemanytypesofphysiologicalmetabolism,andtherearemanykindsofmetabolites.Moreimportantly,therearemanytypesofphysiologicalmetabolismandmetabolitesofmicroorganisms.Microorganismscanbefoundinanyenvironmentwhereotherorganismslive,andtherearealsomicroorganismsinextremeenvironmentswhereotherorganismscannotsurvive.
Forexample:Penicilliumchrysogenum(Penicilliumchrysogenum)produced20unitsofpenicillinpermilliliteroffermentationbrothin1943.Formorethan40years,throughtheunremittingeffortsofmicrobialgeneticbreedingworkersaroundtheworld,Thevariabilityofthebacteria'syieldhasgraduallyaccumulated,coupledwiththeimprovementoffermentationconditions,thefermentationlevelofadvancedcountriesintheworldhasexceeded50,000unitspermilliliter,orevencloseto100,000units.Thevariationofthequantitativetraitsofmicroorganismsandtheextentthatthebreedingcanincreasetheyieldisabsolutelyimpossibleintheworkofanimalandplantbreeding.Becauseofthis,almostallmicrobialfermentationfactoriesattachgreatimportancetostrainselectionandbreeding.
⒍Itiseasytomutateandproducemutations
Thesmallmicrobesandthelargespecificsurfaceareamakethemicrobeseasilyaffectedbyenvironmentalconditions.Certainnutritionalfactorschange,individualmicrobesconsciouslyandforcedtoproducegeneticstructuralchanges,resultinginvariants.Accordingtostatistics,theprobabilityofindividualmicrobialvariationisoneinamillionundernaturalconditions.Becausemicroorganismsarepronetoproducemutants,peopletakeadvantageofthecharacteristicsofmicroorganismstocarryoutmicrobialmutagenesis,andthenscreenformicroorganismstrainswithcertainpurposecharacteristics,suchasincreasedyield,auxotrophs,andsoon.
Role
1.Roleinmaterialcirculationinnature
2.Airandwaterpurification,sewagetreatment
3.Industrialandagriculturalproduction:bacteria,metabolites,metabolicactivities
4.Contributionstolifesciences
Researchdirections
Microbiologydisciplines:Chinaisoneofthecountrieswiththerichestmicrobialresourcesintheworld.Researchonmicrobialresourcesreflectsthelevelofbasicmicrobiologyresearch,isthebasisfornationalinvestigations,resourceprotection,developmentandsustainableuse,andisthebasisforbiodiversityresearchandendangeredspeciesprotection.Italsoincludesmicrobialmolecularbiologyandbiotechnology.Thefoundationofthevariousbranchesofmicrobiology.Researchinthisfieldwillacceleratetheinvestigation,collection,andsystematicclassificationofmicrobiologicalresources,expandthecollectionofmicrobialstrainsandspecimens,andestablishamicrobialspeciesresourcebankinChina,makingitthelargestmicrobialstraincollectioncenterinAsiaandthelargestinAsiaHerbariumofFungi.Insystematicclassificationstudies,newmethods,newtechnologies,andnewideasaregenerallyintroduced,andbiologicaldiversity,systemevolution,andmicrobialecologyresearcharecarriedouttoprovidematerialsforlarge-scalescreeningoffunctionalsubstances.Amongthem,extremophilesandmicroorganismsthatareharmfulorbeneficialtocropsTheresearchhasgraduallybecomethecurrenthotresearchfield.
Themajorresearchdirectionsofmicrobiologyinclude:fungiandlichenology,microbialresources,taxonomy,systematics,diversity,populationgeneticsandevolution,molecularmechanismofcooperativemetabolism,environmentalmicrobiology,industrialmicrobiology,systemsBiotechnology,microbialphysiology,microbialphysiology,microbialmetabolism,microbialecology,microbialbiochemicalengineering,molecularvirology,molecularimmunology.
Specificapplication
Modernclinicalmicrobiologyisacross-disciplinethatcombinesclinicalmedicine,basicmedicineandpreventivemedicine.Itisalsooneoftheimportantandmaturespecialtiesinlaboratorymedicine..Thisemergingdisciplinerequiresmicrobiologistsandlaboratorytechnicianstoworktogether.Therearefourspecifictasks:(1)Makerapidandaccurateinspectionreportsonmicrobialspecimenstomeetclinicalneedsinatimelymanner;(2)conductrelevantantimicrobialdrugresistanceVarioustrialsondrugproperties,acceptconsultationsontherationalapplicationofantibacterialdrugs;(3)Closelyintegrateclinicalpractice,discuss,researchanddealwithissuesrelatedtoinfectiousdiseaseswithclinicians;(4)participateinthemanagementandrationalapplicationofantibacterialdrugsHospitalinfectionmonitoring,controlandmanagement.Thisrequiresclinicalmicrobiologiststonotonlycompletelaboratorywork,butalsocompleterelatedclinicalwork,andbecomestaffandconsultantsforinfectioncontrolandclinicalapplicationofantibacterialdrugs.
Pathogenicdiagnosis
1.Ensurethereliabilityofclinicalspecimens:Properspecimencollectionisthemostimportantstepinthediagnosisofinfectiousdiseases.Cliniciansarerequiredtocorrectlycollectclinicalspecimensthatcanrepresentthesiteofinfection,andwidelyuseprotectiveswabs,qualifiedcontainers,andtransportmediatopreventthemicrobesinthespecimensfromdyingduetotoxicsubstances.
2.Comprehensiveunderstandingofthenormalfloraofthebody:Understandingthenormalfloraofthehumanbodyisanecessaryprerequisiteforbacterialtesting.Itisnecessarytounderstandtheconcept,distributionandtypesofnormalflora,conditionalpathogensandendogenousinfections,dysbacteriosisanddualityIntheconceptofinfection,neithershouldthebacteriaisolatedfromallspecimensberegardedaspathogenicbacteria,norcantheendogenousinfectioncausedbynormalcolonizingbacteriabeeasilyletgo.
3.Threesetsandonecombination:Qualitative,quantitativeandlocalizationanalysisshouldbedoneduringseparationandidentification,andcombinedwiththeconditionofthedisease.Itisrequiredtodeterminetheinspectionprocedure,selecttheculturemediumandtheappropriateidentificationtestaccordingtothespecificconditionsoftheclinicalandspecimens.Itisnecessarytodeterminewhethertheisolatedbacteriaarepathogenicbacteria,conditionalpathogenicbacteria,ornon-pathogenicbacteria(qualitative).Atthesametime,theremustbearoughestimateofthenumberofbacteria,andsemi-quantitativeandquantitativecultureshouldbecarriedoutifnecessary.Thesignificanceofthebacteriaisolatedinthehumanbodypartshouldbejudgedbyreferringtothequalitativeandquantitativeanalysisofthemicroorganism;ifthebacteriaareisolatedinthesterilepart(suchasblood,cerebrospinalfluid),nomatterwhatkindofmicroorganismandthequantity,itisimportantMeaning(positioninganalysis).Whenperformingthe"threedeterminations"analysis,wemustcombinetheconditionandobservewhetheritisconsistentwiththecondition.
4.Providefastandaccuratepathogenicdiagnosis:Whencliniciansprovidepatientswithclinicaldiagnosisinformationandappropriateclinicalspecimens,andobtainepidemiologicaldataasmuchaspossible,conductmicrobiologicalexaminationsandantimicrobialdrugsusceptibilitytests,requiringtimely,Comprehensivelyanalyzethetestresults,provideclinicallyaccuratepathogenicdiagnosis,sothatthepatientcanbetreatedappropriately.Althoughtheisolationandidentificationofmicroorganismsisstillregardedasthegoldstandardforpathogenicdetection,thetraditionalbacteriologicalidentificationmethodbasedonthe"growthoflivingbacteria"isslowandcannotadapttoclinicalneeds.Itisrequiredtobebasedondirectinspectionofspecimens.,Suchasmorphology,staining,antigendetectionandnucleicaciddetection(nucleicacidhybridization,PCRand16SrRNAanalysis),detectionofpathogenicgenes(pathogenicislands,virulenceislands)anddrugresistancegenes.Trytomakeaquickdiagnosisasmuchaspossible.
5.Timelyreporting:Inordertoeffectivelytransformlaboratorydataintoclinicallyusefulinformation,pathogenicmicroorganismdiagnosisreportsshouldimplementathree-stagereportingsystem,thatis,whenasmearorculturepositiveresultappears,whenasensitivetestresultcomesout,andafterthefinalresultcomesoutReportinatimelymanner.
6.Strengthenqualitycontrolandincreaseinspectionitems:Theclinicalmicrobiologyroommuststrengthenqualitycontroltoensuretheinspectionqualityofvariousspecimens,provideareliablebasisfortheclinic,andmeetthevariousinspectionitemsrequiredbytheclinic.Thecurrentclinicalmicrobiologyroomshouldaddtestitemsbasedontheactualsituationoftheunit.Someitemsthattheclinicalrequirementspayattentiontoare:1)bacteriologicalscreeningandsemi-quantitativeculturemethodsofrespiratoryspecimens;2)detectionofatypicalpathogensoftherespiratorytract,includingchlamydiaandmycoplasmaAndLegionella;3)non-tuberculousmycobacteriacultureanddrugsusceptibility;4)detectionofspecialpathogensinimmunosuppressedororgantransplantpatients,suchascytomegalovirus,pneumocystiscarinii,etc.;5)pathogensofantibiotic-relateddiarrhea(MainlythedetectionofClostridiumdifficile);6)therapiddetectionanddrugsensitivitytestofinvasivefungi.
Participateinclinicalconsultation
(1)Obtainclinicalinformationandmaketimelyandaccuratemicrobiologicalreports
ClinicalinfectiousdiseasesManypathogensareofteninvolved,andnosingletestcandetectallpotentialpathogens.Therefore,clinicalinformationisanimportantreferenceforselectingtestmethods.Theclinicianshouldwritedownthespeculativediagnosisofthepatientwhenissuingthelaboratorytestform,sothatthelaboratorystaffcanchooseareasonabletestprocedureandtestmethodbasedonthis,andcanguidetheclinictocollectappropriatespecimenscorrectly;whenthelaboratorybeginstohaveexperimentalresults,Cliniciansmustbenotifiedintimesothattheycanre-evaluatethediagnosisandtreatmentplan.
(2)Interpretationandconsultationofdifficultmicrobialreports
Manyinfectiousdiseases,especiallyhospitalinfections,havealargepathogenicspectrumanddrugsensitivityspectrum.Variety.Inthepast,raremicroorganismsfrequentlyappearedontheinspectionreport,andthemethodofdrugsusceptibilitytest,thetestedspecies,andtheinterpretationoftheresultshavealsochangedalot.Itisoftendifficultforclinicianstocorrectlyunderstandanduseclinicalmicrobiologicalexaminationdata.Inthefaceofthissituation,theclinicalmicrobiologydepartmentshouldactivelycommunicatewithclinicianstohelpsolvethedifficultiesofcliniciansininterpretingmicrobiologicaltestsanddrugsusceptibilityresultsreports.Pointouttheidentificationandjudgmentofnormalflora,contaminatedbacteriaandinfectiousbacteria;themeaningofrareorrarebacteria;possiblereasonswhencultureisnegative;judgmentcriteriaandlimitationsofdrugsusceptibilitytestresults;drugresistancecharacteristicsofspecialdrug-resistantbacteria,etc.,Andaddnotestothereportwhennecessary.
(3)Setupamicrobiologistasabridgebetweenclinicalandmicrobiologydepartment
Manyforeignhospitalshaveconsultationswithclinicalmicrobiologistsorlaboratoryphysicians,Consultationsystem.Ifthereisaproblemwiththesmearatthebeginningofthetest,theexaminershouldcontactthecliniciantodiscussthemeaningofthesmear.Physiciansandtechniciansinthemicrobiologydepartmentlookattheresultsofcultureanddrugsensitivitytogethereveryday,especiallytheresultsofsputumcultureshouldbecheckedwithdirectsmears,andcontactthewardintimeifproblemsarefound.
Itisrecommendedthataphysicianintheclinicalmicrobiologydepartmentparticipateinthemorningmeetingoftheinfectiondepartment,respiratorydepartmentorICUofourhospitaleveryday,andreturntoreportthesituationoftheinfectedpatienttothephysician.Orsenddoctorsregularlytobringrelevanttestresultsandparticipateininfectionseminarsinsomeclinicaldepartmentstospecificallysolvetheinfectiontreatmentproblems.Forexample,toparticipateinseminarsintheICU,transplantationdepartment,oncologydepartment,neurosurgery,pediatrics,etc.,forpatientswithpositivebloodculture,positivecerebrospinalfluidtest,orsevereburninfection,themicrobiologistshouldtaketheinitiativetovisitthewardandparticipateinthediscussionoftreatmentoptions.Forpatientswithbacteremiaorsepsis,assistinfindingtheprimaryfocus.Clinicalmicrobiologistsshouldrecordtheiropinionsinthemedicalrecordsafterpatrollingpatients,anddiscusswiththeclinicalphysiciananddirectorifnecessary.Ifeachclinicaldepartmenthasinfectionproblems,youcancontacttheclinicalmicrobiologydepartmenttoinquireaboutthesignificanceofthetestreportorrequestaconsultation.TheDepartmentofMicrobiologyholdsaseminaroninfectioncasesonceaweektodiscussthesituationofinfectedpatients,exchangefindings,andexchangeopinionsfromtheDepartmentofClinicalMicrobiologywiththeclinicaldepartment.Microbiologistsshouldalsoparticipateindailyinspectionsandreceiveclinicalconsultationsonmicrobiologicalissues.
Participateinantibacterialdrugs
Therationalapplicationofantibacterialdrugstoreduceoravoidtheproductionofdrug-resistantstrainsisamajorprobleminthecurrentanti-infectionfield.Theclinicalmicrobiologyroomplaysanimportantroleintherationaluseofantibiotics.effect.
Firstofall,wemustpayattentiontothepathogenicdiagnosisofinfection.Beforeusingantibacterialdrugs,cliniciansshouldcollectmultiplemicrobiologyspecimensforbacterialcultureanddrugsusceptibilitytesting.Themicrobiologydepartmentprovidesrapidandaccuratebacterialtestinganddrugsusceptibilityresultsfortheclinic.Inaddition,closecontactbetweenmicrobiologistsandcliniciansandparticipationinthetreatmentofpatientsisalsoanimportantmethodtocontrolthedosageofantibiotics.Microbiologistsshouldparticipateinthehospitalpharmacycommittee,participateintheformulationofguidelinesfortheuseofantibiotics,educationandtraining,supervisionandinspections,etc.Inthisregard,thepracticeofHongKongQueenMaryHospitalisthattheinfectionmonitoringnurseisresponsibleforvisitingtheinfectedcases.Whenthemisuseorunreasonableapplicationofantibacterialdrugsisfound,thedirectorofthemicrobiologydepartmentwillgivefeedbacktothedean,thedirectoroftherelevantdepartmentandtheparties,andachievebetterresults.
Participateinthemonitoring,controlandmanagementofnosocomialinfections
China’s"NosocomialInfectionManagementRegulations"clearlystatesthatthelaboratoryshouldperformthefollowingdutiesinthemanagementofnosocomialinfections:ResponsibleforroutinemicrobiologyofnosocomialinfectionsTocarryoutthecultivation,isolationandidentificationofpathogenicmicroorganismsofhospitalinfection,drugsusceptibilitytestinganddrugresistancemonitoringofspecialpathogens,regularsummaryandanalysis,feedbacktorelevantdepartments,andannouncementtothewholehospital;whennosocomialinfectionsareprevalentoroutbreaks,relevantInspectionwork.
Theroleofclinicalmicrobiologylaboratoryinthemonitoring,controlandmanagementofnosocomialinfectionsincludes:(1)strengtheningpathogenicmonitoringasthebasisfordeterminingnosocomialinfection;(2)strengtheningmonitoringofdrugresistancetoGuidetherationaluseofantibiotics;(3)Strengthenmicrobiologicalinvestigationsoftheenvironmentandequipmenttomeettherequirementsofhygieneindicators;(4)Ensurethequalityofdisinfectionandsterilizationinthehospital;(5)PassepidemiologicalinvestigationsandbacteriologicaltypingExperiment,tracethesourceofinfectionandcontrolit.
(1)Strengtheningsurveillance
Theclinicalmicrobiologydepartmentisaninevitablememberofthehospitalinfectioncontrolcommittee,andmicrobiologicaltestingplaysanimportantroleinthemonitoringofhospitalinfections.Ifahospitalinfectionproblemisfoundintheclinicalmicrobiologicalexamination,itisnecessarytocontactthehospitalinfectioncontroldepartment,thewarddoctorandtheheadnurseintime,andpayattentiontothedevelopmenttrend.Somespecialdrug-resistantbacteriainhospitalinfections,suchasGRE,MRSA,ESBL-producingenterobacteriaceae,etc.,areoftenspreadthroughcross-infection.AspergillusandLegionellaareoftenpresentinairconditioners,watersupplysystems,andatomizationdevicesandcauseinfections.Routinemonitoringofthesourceofthesepathogenicbacteriaandremindingclinicalattentioncanusuallyeffectivelypreventthespreadandsavealotofanti-infectioncosts.
(2)NosocomialinfectionEducationandtraining
TheclinicalmicrobiologydepartmentshouldparticipateinRelevantpersonnelcarryouteducationandtrainingofnosocomialinfections.Forexample,explaintherequirementsandprecautionsforthecollection,storage,andtransportationofclinicalmicrobialspecimens,whatpreparationsshouldbemadebypatientsbeforespecimencollection,whattimeandlocationshouldbeselectedforspecimencollection,howmanytimesaday,howmuchtocollect,andsamplinglocationExplainaseriesofissuessuchashowtodisinfect;trainthecommonhumanbody'snormalflora,colonizingbacteria,contaminatingbacteriaandinfectiousbacteria;thedetectionofvariousbacterialdrug-resistantenzymesanditsmeaningandthesignificanceintheselectionofantibioticsRegularcommunicationwiththeclinicandsoon.Variousmethodscanbeused,suchaslectures,seminars,briefings,posters,andevenparticipationinwardrounds.Itcanalsobeintegratedintocontinuingeducationandtrainingprogramsforhospitalinfectionmanagement.
(3)Participateinthemanagementofdisinfectionandisolation
Thecorrectandscientificimplementationofdisinfectionandisolationtechnologyisveryimportantforthepreventionandcontrolofnosocomialinfections.Correctguidance,Supervision,disinfectionandisolationisalsooneofthetasksoftheclinicalmicrobiologydepartment.Whenanoutbreakofnosocomialinfectionoraspecialdrug-resistantbacterialinfectionoccurs,clinicalmicrobiologyprofessionalsshouldparticipateintheformulationofdisinfectionandisolationmeasures,andprovideprofessionalmicrobiologicalopinionsonrelatedpersonnelmanagementandwastedisposal.
(4)RegularreleaseBacterialresistanceMonitoringresults
FormanyinfectionsThechoiceofantibacterialdrugsfordiseaseisempirical.However,empiricalmedicationalsoneedsthesupportofevidence-basedmedicineandepidemiologicaldata.ItisrecommendedtosaveallpathogenicbacteriaisolationanddrugsusceptibilitydatawithWHONETsoftware,regularlypublishbacterialdrugresistancemonitoringresults,statisticallyanalyzethedistributionanddrugresistancestatusofcommonpathogensinkeydepartmentssuchasICUatanytime,andchooseantibioticsforclinicalexperiencetoimprovesevereinfectionsThesuccessrateoftreatmentisveryhelpful.
(5)ControllingbymoleculartypingtechnologyNosocomialinfection
CommonlyusedmoleculartypingtechnologiesincludePFGE,RAPD,etc..Microbiologylaboratoriessetupmoleculartypinglaboratoriestoroutinelytypedrug-resistantbacteriathataremoreharmfulandeasytospread,whichisofgreatsignificancefortimelydetectionandcontrolofpathogenicbacteria.Thepracticeofsomeforeignhospitalsistocarryoutmoleculartypingofuncommondrug-resistantbacteriasuchasVREassoonastheyarediscovered.Accordingtothegenotyping,thepossibilityandscopeoftheepidemicwillbejudgedandcorrespondingmeasureswillbetakentocontroltheinfection.Forexample,ahospitalclassified19VREstrainsisolatedfrom16patientswithin2months,andtheresultsshowedthat14ofthemwereofonetypeandtheotherswereofonetype,whichhighlysuggestedtheprevalenceofVRE.Afterinvestigationandanalysis,itwasfoundthat1411ofthepatientshaddirectcontact.Basedontheseanalyses,targetedcontrolmeasuresweretakentostoptheinfection.Inotherhospitals,Klebsiellapneumoniae,Staphylococcusepidermidis,Staphylococcushemolyticus,Serratiamarcescensandotherinfectionepidemicshavebeencontrolledthroughmoleculartyping.Accordingtostatistics,thecostofestablishingamoleculartypinglaboratory(equipmentandpersonnel)inthemicrobiologylaboratoryis$180,050,andtheannualmoleculartyping-relatedexpenditureis$400,000.Assumingthatallhospitals(theUnitedStates)routinelyperformmoleculartyping,theexperiment-relatedcostsamounttoUS$2billion.,Butthesavedcostoftreatinghospitalinfectionswillbemorethan5times(10billionyuan).
Naming
Classificationunitsofmicroorganisms:world,phylum,class,order,family,genus,species
Speciesarethemostbasictaxonomicunits,eachAfterthetaxonomy,therecanbesubphylums,subclasses,suborders,subfamilies...
TakeS.cerevisiaeasanexample,itstaxonomicpositionis:
Kindom:Fungalkingdom
Phyllum:Fungus
Class:Ascomycete
Order:Endospora
Family:Endomyces
Genus:Saccharomyces
Species:Saccharomycescerevisiae
Species:Itisabasictaxonomicunit;itisthegeneraltermforalargegroupofstrainsthatarehighlysimilarinphenotypiccharacteristics,closelyrelatedtoeachother,andaresignificantlydifferentfromotherspeciesinthesamegenus.①Strainreferstoanypurebredpopulationandallitsdescendants(agroupofpurebreddescendantsthatoriginatedfromacommonancestorandmaintainthecharacteristicsoftheancestor)fromanindependentsinglecellmultiplication.Therefore,apurecultureofamicroorganismfromdifferentsourcescanbecalledastrainofthestrain.Thestrainemphasizesageneticallypurelineage.Forexample:TwostrainsofEscherichiacoli:EscherichiacoliBandEscherichiacoliK12
Strainnotation:Ifthespeciesisthebasicunitoftaxonomy,thenthestrainisactuallythebasicunitofapplication,becausethesameDifferentstrainsofstrainswillhavegreatdifferencesanddifferencesinthetypesofenzymesortheyieldsofmetabolites!②Subspeciesorvarieties:reclassificationwithinspecies.
Whendifferentstrainswithinacertainspecieshaveafewobviousandstablevariationcharacteristicsorgenetictraits,buttheyarenotenoughtodifferentiateintonewspecies,thesestrainscanbesubdividedintotwoormoreSmalltaxa-subspecies.
Varietyissynonymouswithsubspecies.Becausetheword"variety"caneasilycauseconfusioninthemeaningoftheword,theterm"variety"hasnotbeenusedsince1976.Themutantstrainsobtainedinthelaboratoryareusuallycalledsubspecies.
Forexample:E.colik12(wildtype)doesnotrequirespecialaa,andafterlaboratorymutation,adefectivetypeofaacanbeobtainedfromk12,whichiscalledasubspeciesofE.colik12.③Form:oftenreferstothesubdivisionbelowsubspecies.Whenthetraitdifferencesbetweendifferentstrainswithinthesamespeciesorthesamesubspeciesarenotenoughtobeclassifiedintonewsubspecies,theycanbesubdividedintodifferenttypes.Forexample:Accordingtothedifferenceofantigeniccharacteristics,itisdividedintodifferentserotypes.
Nomenclatureofmicroorganisms:Therearetwokindsofnamesofmicroorganisms:commonnamesandscientificnames.Suchas:redbreadmold-Neurosporacrassa;Pseudomonasaeruginosa-Pseudomonasaeruginosa.Scientificname-thescientificnameofmicroorganisms,itisnamedinaccordancewiththerulesdrawnupbytheInternationalCommitteeonClassificationofMicroorganisms.ThescientificnameiscomposedofLatinwordsorLatinizedforeignwords.Therearetwomethodsfornamingscientificnames,thedouble-namemethodandthetriple-namemethod.①Doublenamemethod:scientificname=genusname+speciesname+(firstnamedcelebrity)+currentcelebrity+namedyearGenericname:Latinnounsoradjectivesusedasnouns,singular,capitalizedfirstletter,indicatingthemaincharacteristicsofmicroorganisms,Constructedbymicroorganisms,shapesornamedbyscientists.Speciesname:Latinadjectiveswithlowercaseinitials,whicharesecondarycharacteristicsofmicroorganisms,suchasmicrobialpigment,shape,source,orscientist'sname,etc.Example:Escherichiacoli(Migula)CastellanietChalmers1919
StaphylococcusaureusRosenbach1884Whenreferringtoacertaingenusofmicroorganisms,butnotspecificallyreferringtoacertainspecies(orunspecifiedname)ofthegenus,Youcanaddsp.orssp.(representingthesingularandpluralformsofspeciesabbreviations)afterthegenusname.
Forexample:Saccharomycessp.RepresentsaspeciesinthegenusSaccharomyces.Strainname:Addnumbers,placenamesorsymbolsafterthespeciesname.Forexample:BacillussubtilisAS1.389AS=AcademiaSinica
BacillussubtilisBF7658BF=Beifang
ClostridiumacetobutylicumATCC824ClostridiumacetobutylicumATCC824>
ATCC=AmericanTypeCultureCollectionAmericanTypeCultureCollection
Whenascientificnamehasappearedbeforeinthearticle,thegenusnamecanbeabbreviatedinto1~3lettersintheback.
Forexample:EscherichiacolicanbeabbreviatedtoE.coli
StaphylococcusaureuscanbeabbreviatedtoS.aureus②Threenamingmethods:usedtonamesubspecies,atthistimeinthegenusandspeciesnameAddasubsp.afterit,andthenaddthesubspeciesname(italics).Forexample:Bacillusthuringiensissubsp.galleriaBacillusthuringiensissubsp.Grifola