简介：ThetransgenicriceKMD1,expressingasyntheticCry1AbgenefromBacillusthuringiensis,showedeffectiveresistancetoSignificantdeclineswererevealedinfoodconsumptionandgrowthoftheolderRLFnymphsfedonthecut-leavesoftransgenicKMD1plants.TheincreaserateoffoodconsumptionbylarvaefedonKMD1wasdrasticallylowerthanthoseonXiushui11.FoodconsumptionwasvariedwithdifferentinstarswhenthelarvaefedontheBtrice.Thoseoffourth-andfifth-instarlarvaeweredifferentcomparedtothethird-instar,lowerthanthoseonthenon-transgenicricebutstillincreasedalittlewhenthefeedingtimeprolonged.ItisindicatedthatyoungerRLFlarvaearemoresensitivetoBtricethanolderones.Also,about81%,78%and68%ofthethird-,fourth-andfifth-instarRLFlarvaediedwithin72hoursbioassayperiodonKMD1leaves,respectively.TheseresultsdemonstratedthatBt-transgeneinKMD1riceconferssubstantialprotectionagainstinfestationswitholderRLFlarvae.

简介：Twonewlybredhybridricecombinations,superhigh-yieldingLiangyoupeijiu(Pei'ai64S×9311)andPei'ai64S/E32(Pei'ai64S×E32)wereusedtoinvestigatethephotosyntheticcharacteristicsunderhightemperatureincomparisonwithhybridriceShangyou63.Hightemperaturecausedadecreasedphotosyntheticefficiencyandaggravatedphotoinhibition.TheoptimumtemperatureforphotosyntheticelectrontransportationandphotosyntheticCO2fixationwereabout28℃and35-40℃respectively.Linearelectrontransportationismoresensitivetohightemperaturethanthephotochemicalprocess.Themechanismofhightemperatureadaptationwaspossiblyasfollows:superhigh-yieldingricehasquicklyincreasingcarotenoid,whichactedasamorefavorableantioxidantsystemtoreducetheactiveoxygenproductionandavoiddamagetothephotosynthesissystem;superhigh-yieldingricehasahigherefficiencyofxanthophyllscycletodissipateexcessheatenergy;superhigh-yieldingricehasamorestablephotosyntheticfunction,higherphotosyntheticefficiencyandmoreheatstableproteincontent.

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简介：Themajormatesterilegenesinanewphoto/thermo-sensitivegenicmalesterile(PTGMS)lineB06Sofricewereanalyzedbythemanipulationofmixturedistributiontheory.TheresultsindicatedthatapairofmajormalesterilenucleargeneswithlargeeffectswereresponsibleforcontrollingthemalesterilityofB06S.

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简介：一个实验被进行用荧光灯的微分显示器(软式磁碟机)方法在干旱应激和正常条件下面在米饭叶子和根比较信使rna表达式差别。一积极碎片被H.A的联合孤立黄页(contained0.1%H.A。黄)分离和宏数组屏蔽方法。比作ArabidopsisthalianaNADPH氧化还原酶基因，它有96%身份。cDNA是1423bp，并且包含了与345氨基酸残余编码蛋白质的1048bp的一个完全的开的读物框架。而且，基因表示水平在正常条件下面比那在干旱应激下面是更高的。在干旱反应下面的NADPH氧化还原酶基因的可能的角色也被讨论。