简介:到在米饭germplasm91-1A2的米饭胆量小蚊的抵抗被识别并且遗传上分析了。米饭人口的F1s从作为一个男父母与米饭材料Jinggui,TN1,W1263(Gm1),IET2911(Gm2),BG404-1(gm3),OB677(Gm4),ARC5984(Gm5)和Duokang1(Gm6)交叉的91-1A2被导出。到米饭胆量小蚊的所有父母线和F1,BC1F1和F2人口的抵抗被识别。结果证明91-1A2和所有F1s对中国米饭胆量小蚊遗传因子型IV抵抗。到在BC1F1和F2的易受影响的抵抗植物的分离比率被X2测试与1:3和9:7规则给予,建议到中国米饭胆量小蚊遗传因子型IV的91-1A2的抵抗被是新抵抗基因的二主导的基因控制,对已知的米饭胆量小蚊抵抗基因非突变而产生之遗传因子。
简介:AsoilpotcultureexperimentwithfoursuppliedPlevels(i.e.P30,P50,P100,P200,representingsupplementalP30,50,100,200mg/kg,respectively)wasconductedtoinvestigateuptakeanduseabilitytoPandZninthericegenotypeswithdifferentP-efficiency,ofwhichricegenotypes508,99011,580,99112werelow-Ptolerantand99056,99012werelow-Psensitive.Low-Ptolerantrice580and99011absorbedmorePthantheothers,andricegenotype580hadstrongeruptakeabilityespeciallyatlow-PlevelsuchasP50andP30.508couldabsorbconsiderableP,andhadthelowestPpercentageofshoot,indicatingithadgoodperformanceinP-useefficiency.ThesethreericegenotypeshadlargerbiomassandlessresponsetochangedPlevelthanricegenotype99112,99056and99012.Ricegenotype99112showedLow-Ptolerancemainlybysacrificingbiomasstomaintainhighrelativegrainyield.TheleastamountofPabsorbedby99056showedithadthelowestPuptakeefficiency,andthehighestPpercentageinshootof99012meantithadthelowestPuseefficiency.Sotheytwoshowedlow-Psensitivity.ZncontentsinshootunderP200,P100andP50weresimilar,butP30increasedZncontentinshootsignificantly.TheZncontentsinshootof99112,99056and99012werehigherthanthoseof508,99011and580,especiallyattilleringstageandbootingstage.AsfortotalZncontentinshoot,Low-Ptolerantricegenotype580hadthelargestamountandfollowedby99011and508,low-Ptolerantricegenotype99012hadthesmallestamountatthethreesamplingstageandfollowedby99056.Furthermore,P/Zninshootof99012wasthehighest,andthatof99056wasthesmallestatthesamePlevel.
简介:ThehistoricaltransitionoftimberdistributionpatterninChinawaspresentedfirstlywithmainpartsoftimberflowsinChina,whichincludedtimbermarkets,timbertransportsystemandregulationsoftimbertransport.BasedontheoverviewontropicaltimberflowsinChina,thetradeflowsoftropicaltimberfromproductionandimportsoftropicaltimbertoexportoftropicaltimberproductswereanalyzedbyvividillustrations.Atthesametime,problemsintimbertradeflowsinChinawereanalysedintheend.
简介:本文综述了在杀虫剂抗性中起重要作用的P450酶系研究的最新进展,内容包括:细胞色素P450酶系基因及其基因的表达与调控,P450介导抗性的分子基础。细胞色素P450表达表现出发育期,组织,品系特异性及可诱导性。P450表达的调控机制复杂,可能受顺式调控元件(如CYP6B1)或反式作用因子(如CYP6A1)或顺式,反式因子的共同调控(如CYP6D1),调控可能涉及转录增强的转录机制或mRNA稳定性增加的转录后机制。P450的超量表达是P450酶系介导抗性的主要机制,P450的氨基酸替换也可能在杀虫剂抗性中起作用。
简介:AdsorptionofCr(VI)andp-chloroanilineonthreetypicalsoilcolloidsandpHinfluencewerestudiedusingbatchequilibriummethod.BothofCr(VI)andp-chloroanilineadsorptiononthecolloidscouldbewelldescribedbygeneraladsorptionsimulationequations,TheadsorptionprocesseschangedwithmediapH.WhenCr(VI)andp-chloroanilinecoexistedonsoilcolloids,theirinteractionscouldbeobservedinacertainpHrangetobeaccompaniedwithCr(VI)reduction,whichclearlysuggestedthatasurfacecatalyticreactionoccurredinthissystem.SoilcolloidactedasaneffcientcatalystfortheinteractionofCr(VI)andp-chloroaniline.ThepHvaluesatwhichnointeractionwasobservedwere4.0,4.5and5.0forthecolloidsofindigoticblacksoil,yellow-brownsoilandlatosol,respectively,Capillaryelectrophoresisusedtoanalyzep-chloroanilineprovidedahighseparationefficiencyandshortseparationtime,andneedednomoreextensivepretreatmentofsamples.
简介:Inaviewofnaturalconditionsofestablishingnaturereserve,anindexsystemwaspreparedforquantitativeassessmentonstatusofendangeredspecies,andthusdegreeofendangeredspeciesinTibetwasevaluated.Takingasub-ecozoneasbasicunit,top5animalsand1plantwithhighEaswellasthenumberofspeciesineachunitwereenumerated;andthedegreeoflandutilizationwasfiguredout.Afterward,weselected6coefficients,assignedweight,andframedformulatoreckonproportionofnaturereserve,thusanareaofnaturereserveineachsub-ecozonewasobtained.In5schemesofweightassignment,aschemewithmediumareaofnaturereservewasselected.Allsub-ecozoneswereclassifiedinto4gradespriorconservation,1wasingradeA,2ingradeB,2ingradeC,and11ingradeD.Totalplannedareawasapproximately365135km2,about48834km2smallerthantheactualareaof413969km2,ratioofnaturereserveinTibetdiminishesfrom34.4%to30.38%.Basedon3factorsofhumandisturbance,ratioofbuffer-experimentalzoneinproposednaturereservewascalculated.Itwasdemonstratedthatexistingsizeofnaturereservesisexcessiveonthewhole,andtheirdistributionisnotreasonableentirely.Thesizeofnaturereservesin3sub-ecozonesofnorthernChangtangshoulddecrease,anddecrementofareaisapportionedamongother13sub-ecozoneswhichshouldincreasenaturereserve.HeterogeneityofregionaldistributionofrarespeciesinTibetisquiteobvious,soproposedareadistributionofnaturereservesismorescatteredthantheexisting.
简介:农杆菌已广泛应用于单、双子叶植物的遗传转化。T-DNA的传递是农杆菌介导转化的分子基础。T-DNA的传递是一个复杂的过程,与Ti质粒毒性区基因(Vir)、农杆菌染色体上毒性相关基因(chv)有关,另外植物体内部分基因也参与T-DNA的传递。T-DNA传递时在VirD1-VirD2蛋白的作用下形成T链,进一步形成T复合物,经农杆菌四型分泌系统(TypeIVsecretionsystem,T4SS)穿过细菌和植物细胞膜,运输到植物细胞胞质。进入植物细胞的T复合物在植物相关蛋白的作用下经核运输和T链的整合,最终整合到植物基因组。本研究从农杆菌对植物细胞的识别和附着、农杆菌对植物信号的感知和Vir基因的活化、T链的形成、T-复合物的运输、T链进入植物细胞后的核运输和T链的整合机制及相关基因作了详细综述,探讨了农杆菌转化机制研究中的问题,对今后农杆菌转化机制研究做了展望。
简介:通过对不同发育时期敏感和抗阿维菌素小菜蛾品系细胞色素P450含量的测定,以及使用不同模式底物对P450单加氧酶活性的比较研究发现:除成虫期外,不同发育时期抗性品系小菜蛾中P450和细胞色素b5的含量都高于敏感品系;抗性品系还原型辅酶Ⅱ(NADPH)-细胞色素P450还原酶活性是敏感品系的1.97倍;同时发现抗性品系中甲氧试卤灵-O-脱甲基酶(MROD)、乙氧试卤灵-O-脱乙基酶(EROD)、乙氧基香豆素-O-脱乙基酶(ECOD)以及对硝基苯甲醚-O-脱甲基酶(PNOD)的活性均明显高于敏感品系,分别为敏感品系的9.41、4.15、1.67和2.94倍.研究结果表明,细胞色素P450含量和单加氧酶活性的增高是小菜蛾对阿维菌素产生抗性的一个重要机制.
简介:Riceblack-streakeddwarfvirus(RBSDV)isarecognizedmemberofthegenusFijivirus,familyReoviridae.Itsgenomehastendouble-strandedRNA(dsRNA)segments(S1-S10),inwhichthefifthgenomesegment(S5)containstwoopenreadingframes(ORFs)withapartiallyoverlappingregion.ThesecondORFofRBSDVS5encodesaviralnonstructuralproteinnamedp5bwithunknownfunction.Torevealthefunctionofp5b,itsgenewasligatedintothebaitplasmidpGBKT7andanexpressionlibrarycontainingricecDNAswasconstructedusingplasmidpGADT7foryeasttwo-hybridassay.Thebaitproteinp5bwasdetectedinyeastbywesternblot,andtheresultofanauto-activationtestshowedthatp5bcouldnotautonomouslyactivatetheexpressionofreportergenesinyeast.Thenthebaitproteinp5bwasusedforscreeningthecDNAexpressionlibrariesofrice.Genefragmentsofsomepivotalenzymesinvolvedinphotosynthesis,respirationandotherimportantmetabolicprocesses,wereidentifiedtointeractwithp5binyeast,suggestingthattheseinteractionsmayplayrolesinsymptomdevelopmentininfectedplants.