简介:SulfatecanbeactivatedbyATPsulfurylaseandadenosine5’-phosphosulfatekinase(APSK)invivo.RecentstudiessuggestedthatAPSKinArabidopsisthalianaregulatedthepartitionbetweenAPSreductionandphosphorylationanditsactivitycanbemodulatedbycellularredoxstatus.InordertostudyregulationofAPSKinrice(OsAPSK),OsAPSK1genewasclonedanditsactivitywasanalyzed.OsAPSK1C36andC69werefoundtobetheconservedcounterpartsofC86andC119,whichinvolvedindisulfideformationinAtAPSK.C36A/C69AOsAPSK1doublemutationwasmadebysitedirectedmutagenesis.OsAPSK1anditsmutantwereprokaryoticallyover-expressedandpurified,andthenassayedforAPSphosphorylationactivity.OsAPSK1activitywasdepressedbyoxidizedglutathione,whiletheactivityofitsmutantwasnot.Furtherstudiesinthecasethatoxidativestresswillfluctuateinvivo3’-phosphoadenosine-5’-phosphosulfatecontent,andallAPSKisoenzymeshavesimilarregulationpatternsarenecessarytobeperformed.
简介:Aricepopulationconsistingof90TN1/GulyiguF3lineswasemployedtoanalyzethelinkagebetweenDNAmarkersandanewgeneWbph6(t)conferringresistancetowhitebackedplanthopper,Sogatellafurcifera.Byusingthemappingapproachofbulkedextremesandrecessiveclass,Wbph6(t)wasmappedontotheshortarmofchromosome11withageneticdistanceof21.2cMtoSSLPmarkerRM167.
简介:以便揭示在二CCDD染色体种,Oryzaalta和Oryzalatifolia之间的起源和进化关系,在situ杂交(鱼)的荧光被采用从O与C0t-1DNA分析二种的染色体。alta作为一根探针。Karyotype比较地也在O之间被分析。alta和O。latifolia基于他们杂交的类似的乐队模式发信号。在O之间有高相同和靠近的关系。alta和O。然而,在杂交之间的区别表明的latifolia也是清楚的。C0t-1DNA被证明是种类--并且染色体类型特定。C0t-1DNA鱼能是更有效的分析在不同种类之间的genomic关系,这被建议。根据在二allotetraploidy种之间的高度并且中等重复的DNA序列的比较分析,O。alta和O。latifolia,可能的起源和Oryza的allotetraploidy的进化机制被讨论。
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.