91ÊÓƵרÇø

³ó´Ç³Ü±ô²¹¾±£¬³Ù²¹»å²¹²Ô³æ¾±²Ô³¦³ó³Ü²â³Ü²¹²Ô³¾³Ü±ç¾±²Ô²õ³ó¾±³Ù¾±·É³Ü´Ú²¹³¦³ó±ð²Ô³æ¾±²¹±ç³Ü£¬²â³Ü²õ³ó¾±£¬±ô¾±²Ô²µ³¦³ó±ð²Ô2»å¾±²¹²Ô»å³Ü´Ç£¬³Ù²¹²â´Ç³Ü°ì²¹¾±³¦³ó±ð³ú³ó±ð³ó³Ü¾±²õ³ó³Ü¾±°ì³Ü²õ³ó²¹²Ô²µ²â´Ç³Ü±è²¹´Ç²õ³ó¾±»å¾±²¹²Ô¡£»å²¹²Ô²µ²õ³ó¾±²õ¾±³ú³ó´Ç³Ü²â¾±±è¾±²¹²Ô±ç¾±³ó±ð¾±£¬·É±ð¾±±ô¾±²¹´Ç°ì²¹²Ô±ç¾±²Ô²µ£¬³Ù²¹»å²¹°ì²¹¾±±ô¾±²¹´Ç²õ³ó´Ç³ÜÂá¾±»å±ð³ú³ó²¹´Ç³¾¾±²Ô²µ»å±ð²Ô²µ£¬±ç³Ü±ð°ù±ð²Ô²õ³ó¾±³Ù¾±²â¾±Âá¾±²Ô²µ³¦³ó±ð²Ô³æ¾±²¹±ç³Ü±ô¾±²¹´Ç£¬³Ù²¹³¦²¹¾±´Ú²¹²Ô²µ³æ¾±²Ô»å¾±±ô¾±°ì²¹¾±¡£³ú²¹¾±³¦³ó²¹²Ô²µ»å±ð°ù±ð²Ô·É³Ü²ú³Ü·É±ð¾±³ú³ó¾±»å´Ç²Ô²µ°ù´Ç²Ô²µ£¬³Ù²¹²Ô²µ»å²¹²Ô¾±²¹²Ô²µ»å±ð°ì²¹²Ô²µ°ì²¹¾±³ó±ð³æ¾±´Ç²Ô²µÂá¾±²Ô±ô¾±²Ô²µ°ù±ð²ÔÂá¾±²Ô²µ±è±ð¾±¡£°ù²¹²Ô±ð°ù£¬³ú³Ü¾±°ù²¹²Ô²µ°ù±ð²Ô²â¾±·É²¹¾±»å±ð²õ³ó¾±£¬³Ù²¹Âá¾±²¹²Ô²µ³ú¾±Âá¾±»å±ð³Ù´Ç²Ô²µ²Ô¾±²¹²Ô·É²¹²Ô²ú²¹²Ô·É²¹²Ô²µ»å²¹²â±ð³ú³ó¾±»å¾±²Ô²µ·É±ð¾±²â¾±³ú³ó³Ü³ú³ó¾±³æ¾±²Ô²µ°ù±ð²Ô£¬±ç³Ü²¹²Ô±ç³Ü²¹²Ô´Ú³Ü³ú±ð³¦³ó³Ü±ô¾±³æ¾±²¹²Ô²µ²µ³Ü²¹²Ô²õ³ó¾±²â¾±¡£

½ü(´³¾±²Ô)ÈÕ(¸é¾±)£¬ºù(±á³Ü)«(³¢³Ü)µº(¶Ù²¹´Ç)Òø(³Û¾±²Ô)ÐÐ(³Ý¾±²Ô²µ)ÔÚ(´Ü²¹¾±)ÖÐ(´Ü³ó´Ç²Ô²µ)¹ú(³Ò³Ü´Ç)Õ®(´Ü³ó²¹¾±)ȯ(²Ï³Ü²¹²Ô)ÐÅ(³Ý¾±²Ô)Ï¢(³Ý¾±)Íø(°Â²¹²Ô²µ)·¢(¹ó²¹)²¼(µþ³Ü)ÐÅ(³Ý¾±²Ô)Ï¢(³Ý¾±)ÏÔ(³Ý¾±²¹²Ô)ʾ(³§³ó¾±)£¬¸Ã(³Ò²¹¾±)ÐÐ(³Ý¾±²Ô²µ)¶Ô(¶Ù³Ü¾±)Æä(²Ï¾±)2018Äê(±·¾±²¹²Ô)µÚ(¶Ù¾±)Ò»(³Û¾±)ÆÚ(²Ï¾±)¶þ(·¡°ù)¼¶(´³¾±)×Ê(´Ü¾±)±¾(µþ±ð²Ô)Õ®(´Ü³ó²¹¾±)ȯ(²Ï³Ü²¹²Ô)¡°²»(µþ³Ü)ÐÐ(³Ý¾±²Ô²µ)ʹ(³§³ó¾±)Êê(³§³ó³Ü)»Ø(±á³Ü¾±)Ȩ(²Ï³Ü²¹²Ô)¡±¡£

nihuanzaixiaoqiaozhipuma£¿2022-03-10 10:58¡¤boyuanshengwuxiangxinkanguoboxiaoyuanwangqiwenzhangdetongxieyinggaihuifaxian£¬wenzhanglimianyoubushaodifangduchuxianliaozhipudeshenying¡£danshi£¬zaiguoquderizili£¬xiaoyuansihuhuancongweizhengerbajingdiweidajiajieshaoguozhipu£¬dannaihezhipudeguangmangshizaitaiguoyaoyan£¬suoyizheyiqixiaoyuandasuanjiangzhipuzhengshijieshaogeidajia£¡zhipudingyizhipujishushijianlizaiyuanzi¡¢fenzidianliyijiliziguangxuelilunjichuzhishangdeyingyongjishu£¬tongguozhipufenxikeyihuodewuji¡¢youjiheshengwufenzidefenzilianghefenzijiegou£¬nengduiduozhongfuzahunhewudegezhongchengfenjinxingdinglianghuozhedingxingfenxi¡£zhipujishuqishijiushigaozhongwulikebenshangjingdiande¡°daidianlizizaicichangzhongdeyundong¡±wentideyingyong¡£jiandanlaishuo£¬jiushibafuzadehunhewufangzaizhiputixizhong£¬jiangqifenjieweiyuanzi¡¢fenzi£¬ranhoujiangdianlihoudeyuanzi¡¢fenzizhurudaodiancichangzhong¡£youyubutongdedaidianlizidezhilianghedianhebilibutong£¬pianzhuanshijianyebutong£¬zhipuyikeyijiangzhexieshijian¡¢weizhixinxizhuanhuanweiguangxueshuju£¬yizhiputudexingshizhanxianchulai£¬fuzahunhewudegezhongzufenjiudeyibeizhiguandiguanchadao¡£zhiputudehengzuobiaoshizhihebi£¨m/z£©£¬zongzuobiaoshiliziqiangdu¡£gainiantingqilaikenengbijiaogansenandong£¬buguomeiguanxi£¬womenjintianzhuyaojiangtadeyingyong£¬kankantadukeyiganxiesha£¬yuanlihoumianzaimanmanlijie£¬yexujiumeinamenanliao£¡danbaizhijiandingzaidanbaizhizuxuezhong£¬danbaizhidejiandingjihuwanquanshitongguozhipulaishixiande£¬zhipukeyijiandingrenheyizhijiyinzuxuliededanbaizhi¡£lingwai£¬zhipufenxifangfazuichangjiandeshifenxiduozuoerbushiquanchangdanbai£¬bingqiehenduoshihouhuikandaozhipuyuqitajishulianyonglaiduidanbaijinxingjianding£¡zhemeshuokenengyoudianchouxiang£¬danshiyouyigeshiyandajiayinggaiduyousuoerwen¡ª¡ªIP-MS£¨mianyichendian-zhipulianyongjishu£©£¬zaiqianmiandeduoqiwenzhangzhongduyouchuxian£¬weiliaojiashendajiaduigaijishudelijie£¬boxiaoyuanzhaoliaoxiangguandeshiyananlizaiciweidajiajinxingjiangjie¡£zai¡°Leucine-rich repeat extensin proteins regulate plant salt tolerance in Arabidopsis¡±yiwenzhong£¬zuozheweiliaoyanjiuLRXdanbaizaishengchangdiaokonghenaiyanxingzhongdezuoyongjizhi£¬shiyong35S::LRX3-YFP-HA¡¢35S::LRX4-YFP-HAhe35S::LRX5-YFP-HAzhuanjiyinzhiwujinxingliaomianyichendian-zhipu£¨IP-MS£©fenxi£¬yiquedingLRXsdeqianzaixianghuzuoyongdanbai¡£tongshiyibiaoda35S::GFPdezhuanjiyinzhizhuzuoweiduizhao¡£jieguofaxian£¬zaiLRXzhuanjiyinzhiwudeIP-MSyangbenzhongjiandingchuliao4gexitongfayuxiangguandeRALFduozuo£ºRALF22¡¢RALF23¡¢RALF24heRALF31£¬danzaiduizhaoyangbenzhongmeiyoufaxian£¨tu1£©¡£houmiandeshiyanwoxiangdabufenxiaohuobanduyijingzhidaoshishimeliao¡£meicuo£¡jiushiliyongdianduidianyanzhengdanbaihuzuodefangfaduiIP-MSjiandingdedaodeLRXdehuzuodanbaijinxingyanzheng£¬zhegetaoluxiangxindajiayijingshuxidebunengzaishuxiliao£¬suoyibuqingchudexiaohuobanyidingyaojixialaio£¡tu1 zaiIP-MSjiancezhongjiandingchudeLRXheRALFdanbaideduozuo(Zhao et al., 2018)¡£cong35S::LRX3-YFP-HA¡¢35S::LRX4-YFP-HAhe35S::LRX5-YFP-HAzhuanjiyinzhizhuzhongtiqudanbai¡£yiguobiaodakongzaiGFPdezhuanjiyinzhizhuweiduizhao¡£fenlidedanbaiyukangGFPkangtifuyuguoye¡£yongzhipufaduimianyichendianyangpinjinxingfenxi¡£meigedanbaizhisuojiandingdeduozuodeshuliangbeixianshichulai£¬pozhehao¡°-¡±biaoshizuomeiyoubeishibie¡£xiaoyuanzuozuo£ºruguowomenxiangyaoyanjiuyigeweizhidanbaidehuzuodanbaishishime£¬chuliaoxiangdaojiaomushuangzashaikudeshiyanzhiwai£¬IP-MSyeshiwomenyinggaixiangdaodefangfa¡£IP-MSbujinnengdedaoyujiaomushuangzashaikuleisidejieguo£¬bingqiehuanjuyouyixiayoudian£º1¡¢IP-MSshaixuandeshitianranzhuangtaixiadedanbai£¨meiyoupohuaidanbaidejiegou£©huzuo£¬zaiyidingchengdushanggengnengfanyingshengwutineidezhenshiqingkuang£»2¡¢buyongxiangjiaomushuangzashaikunayang£¬danxinyouerdanbaihuicunzaizijihuozuoyong¡£yinci£¬yihouzaiyanjiuyigeweizhidanbaidehuzuodanbaishikeyishouxiankaolvIP-MSo£¡zhipudingliangfenxichuliaobiaoxingbiaodahedanbaizhitexingdechubujiandingwai£¬danbaizhizuxuefenxizhongdeyigeguanjiancanshushiduiganxingqudedanbaizhijinxingdingliangdenengli¡£dayueershinianqian£¬danbaizhizuxuezaihendachengdushanghuanshiyimendingxingxueke¡£dianxingdedanbaizhizuxueshiyanjieguoshizaiyigegeidingdezuzhihuodanbaizhifuhewuzhongjiandingchudanbaizhideliebiao£¬ermeiyourenheguanyufengdu¡¢fenbuhuohuaxuejiliangxuedejinyibuxinxi¡£xiangbizhixia£¬nageshihoudingliangcelueyibeiguangfanyingyongyuweizhenliehuodingliangPCRdejiyinbiaodafenxi£¬tebieshizaizhiwuzhong£¬daguimojiyinzuxuedecedingweizhiwufayuheshenglidexuduofangmiantigongliaoxindejianjie¡£raner£¬meidefanyinghexinhaotongluzuizhongqujueyudanbaizhidehuoxing¡£danbaizhideshuliangshoudanbaizhihechenghejiangjiedediaokong£¬kenengyuzhuanludiaokongmeiyoutaidadeguanxi(Piques et al., 2022)¡£ciwai£¬fanyihouxiushi¡¢yigoutihejianjiebianyitibunengjintongguofenxizhuanlubendefengdulaihuoqu¡£yinci£¬weiliaoduiyixieshengwuxuexianxiangjinxingjieshi£¬danbaidingliangfenxishibiyaode¡£zhipudechuxianweidanbaizhizufuzaxingfenxitigongliaojishukuangjia¡£dingliangdanbaizhizuxuekeyifenweixiangduidinglianghejueduidingliang¡£xiangduidingliangzhizaiyanjiubutongtiaojianxiadanbaizhizubiaodadechayi£¬erjueduidingliangshizhihuodedanbaizhideteyixingbiaodashuiping¡£jueduidingliangxuyaoshiyongbiaozhunhuadecankaoyangpin¡£xiaoyuanzaixiabiaozhongliechuliaoyixiechangjiandezhipudingliangfangfa£¬dajiayouxingqukeyishenruliaojie£¬zhelibuzuojutijieshaoo£¡biao1 danbaizhidingliangzuxuebutonggongzuoliuchengdejishucanshugaishuzhu£º1zhiyoutongguoyujiabiaojideyizhibiaozhunpinjinxingxiangduibijiao£¬cainengshixianjueduidingliang¡£2jueduidingliangzhinengtongguojingyantezhengheshiyongyangpinzhongdanbaizhidefenzilianghezongdanbaizhiliangdefanjisuanlaijinxing¡£MS2£ºzhipufaduizuoliziposuihouchanshengdesuoyoulizijinxingjiance¡£pianduanlizisaomiaoyechengweiMS2saomiaohuoMS/MSsaomiao¡£zhipufaquedingdanbaifanyihouxiushifanyihouxiushi£¨PTMs£©shitongguodanbaishuijieliejiehuojiangxiushijituangongjiajiadaoyigehuoduogeanjisuanshangergaibiandanbaizhixingzhidejiagongguocheng¡£jinjingenjufengdudebianhualaimiaoshudanbaizhidegongnengduiliaojiedanbaizhizushifeichangyouxiande£¬yinweixuduodanbaizhidehuoxingshiyouPTMsdiaojiede£¬erPTMskenengbunengzhunquedifanyingdanbaizhifengdudebianhua¡£zhejiushiweishimexuduoyongzaidanbaizhizufanweineibiaozhenghedingliangdanbaizhiheduozuodezhipujishuyijingbeiyingyongyubiaozhengfanyihouxiushidedanbaizhideyuanyin¡£PTMsyouduozhongleixing£¬baokuolinsuanhua¡¢fansuhua¡¢yizuohua¡¢tangjihuadeng¡£zhipufabeirenweishidanbaizhixiushifenxideyigeguanjianjishu£¬yinweitakeyitigongyouguandanbaizhixiushidetongyongxinxierwuxuxianzhidaoxiushiweidiandeweizhi¡£zishangerxia£¬zizhongershanghezixiaershangdefangfashijiyuMSdePTMfenxidesanzhongzhuyaocelue¡£zhenduizhipudanbaidingliangyuzhipuquedingfanyidanbaifanyihouxiushi£¬xiaoyuanxianyongyigelizigeidajiajinxingjiandanshuoming£¬houqizaiduizhebufenneirongjinxingxiangxijiangjie£¬yinweigaibufenzhankailaijiangyeshiyigedagongchenga£¡lizilailiao£ºmoshizhiwuninanjiebujingaibianliaowomenduizhiwushengwuxuederenshi£¬huanyingxiangliaoshengmingkexuedexuduoqitalingyu¡£laizininanjiedeyanjiujieguoyeweizuowudezhongyaonongyixingzhuangyanjiutigongliaosilu¡£ninanjiedejiyinzuzai20nianqianbeicexu£¬zinayihou£¬renmenzaijiyinzuhebiaoguanjiyinzushuipingshangfenxiliaoshubaizhongziranbianyi¡£xiangbizhixia£¬ninanjiedanbaizhizuzuoweidaduoshushengmingguochengdezhuyaozhixingzhe£¬qitezhengyuanmeiyounamequanmian¡£weiliaojiejuezheyichaju£¬zai¡°Mass-spectrometry-based draft of the Arabidopsis proteome¡±yiwenzhong£¬zuozheshiyongliaozuixianjindezhipuheRNAcexu£¨RNA-seq£©fenxi£¬huodeliaowomensuozhidediyigeninanjiezonghedanbaizhizu¡¢lindanbaizhizuhezhuanluzutupu¡£zhegefengfudefenziziyuankeyiyonglaitansuodangedanbaizhidegongnenghuokuayuejigezuxueshuipingdezhenggetujing¡£tu2 zuzhituheduozushujuji(Mergner et al., 2020)¡£a. fenxidezuzhiyangbenshiyitu£¬genjuxingtaixuefenzuzhuose£¨suoxiedingyizaibzhong£©£ºhua£¨qianhuise£©£»zhongzi£¨shenzongse£©£»huafen£¨huangse£©£»jing£¨shenlvse£©£»ye£¨qianlvse£©£»gen£¨shenhuise£©£»shuiguo£¨qianzongse£©£»yushangzuzhi£¨hongse£©£»xibaopeiyang£¨lanse£©¡£b. suoyouzuzhidedanbaizhi¡¢P-weidianhezhuanlushuipingdeshibieshu£¨n=1geceliangzhi£©¡£xuxianbiaoshizaisuoyouzuzhizhongjiancedaodehexindanbai¡¢P-weidianhuozhuanlubendeshuliang¡£zuzhizengqiangdedanbaizhihuozhuanlubenyongjiaoshendeyansebiaoji¡£juyougaokexinduanjisuandingweideP-weidian£¨Ileiweidian£»dayu0.75dedingweigailv£©yongfensebiaoshi£»mohudeweidiandingweiyongzisebiaoshi¡£zaiyigezuzhizhongteyixingjiancedaodeP-weidiandeshuliangyongyuanquanbiaoshi¡£c. yuAraport11xiangbi£¬zhuanluzu¡¢danbaizhizuhelinsuanhuadanbaizhizushujujizhongjiandingchudejiyinweidianzongshuhezhongdiebufen£¨zuo£©£¬yijijiandingchudeP-weidianzongshuheIleiweidiandebili£¨you£©¡£tongguozhegelizikeyikandao£¬zhipubujinkeyidedaodanbaishuipingdedingliangshuju£¬huankeyijiandinglinsuanhuaweidian£¬dedaolinsuanhuadanbaizhizushujuji¡£biqiRNA-seq£¬zhipushibushiyaolihaideduo£¬chuliaojiandinglinsuanhua£¬qitadedanbaifanyihouxiushiyekeyitongguozhipujinxingjianding£¬yaoxiangliaojiegengduo£¬qingguanzhuboxiaoyuanhouqidewenzhang£¡zhipuyudaixiedaixiezuxueshiyigexiangduijiaoxindeyanjiulingyu£¬raner£¬zicong1998nianOliverhetadehezuozheyinrudaixiezuzhegeshuyuhou£¬youguanzheyizhutidechubanwuchengzhishujizengchang¡£yudongwuxiangbi£¬zhiwuhanyoufeichangfengfudedaixiewu£»zhiwuzhongdaixiewudezongshugujizai20wanhuogengduo(K. Oksman-Caldentey and K. Saito, 2005)¡£zhengyinruci£¬zhiwudaixiezuxuezaixuduolingyudedaoliaoguangfandeyingyong£¬ruyongyufenleixuehuoshengwuhuaxue£¬mudejiyinhuoshengtaixingzhiwenfenxi£¬tubiantihezhuanjiyinzhiwuyuqiyeshengxingdebijiao£¬waibucijiduidaixiechanwupudeyingxiang£¬zhiwuyucaoshidongwudexianghuzuoyong¡¢fayuguocheng¡¢yaocaizhiliangkongzhijiyaoyongzhiwuhuoxingceding(Wolfender et al., 2013)deng¡£youyuzhiwudaixiezuxuedeyingyongshifeichangduoyanghuade£¬yinci£¬yongyufenxizhiwudaixiezuxuedejishuyeshiduoyanghuade¡£lianyongfangfa£¬ruzhipuyuqixiangsepuhuoyexiangsepu£¨GC-MSheLC-MS£©¡¢zhijiezhushezhipu£¨DIMS£©¡¢hecigongzhen£¨NMR£©¡¢maoxiguandianyongzhipu£¨CE-MS£©deng¡£xiamianboxiaoyuanyaogeidajiajieshaodeshiyizhongbijiaoxindegongzuoliucheng£¬gailiuchengyou2019nianfabiaozaiThe Plant Journalshangdeyipiantiwei¡°Comprehensive mass spectrometry-guided phenotyping of plant specialized metabolites reveals metabolic diversity in the cosmopolitan plant family Rhamnaceae¡±dewenzhangzhongtichu£¬wenzhangjieshaoliaogailiuchengshiyizhongkekuozhandebanzidonghuafangfa£¬tongguozhenghejizhongjisuanzhipu/zhipushujufenxifangfalaijiangzhiwudaixiechanwudeduoyangxinghefenbujinxingshuzihuazhanshi¡£tu3 liyongchuanlianzhipu£¨MS/MS£©duizhiwuzhuanyongdaixiewujinxingbiaoxingfenxideshujufenxigongzuoliucheng(Kang et al., 2019)¡£liyongchuanlianzhipujinxingguangpuxiangsixingfenxi£¬jiangxiangsideguangpujuleichengfenzizu£¬xingchengyigefenziwangluo¡£wangluozhushichuanbo£¨NAP£©weidangeguangputigongliaoguizhushihouxuan¡£shiyongClassyFireduizhexiehouxuanfenzijinxinghuaxuefenlei£¬ranhougenjumeigefenzijiazuzhongzuizhuyaodehuaxueleibieduifenzijiazujinxingjiadingzhushi¡£tongshi£¬liyongMS2LDAfenxiliaogongfashengpianduanhezhongxingsunshi£¨Mass2Motifs£©defenbu£¬weiqitigongliaoyangpinjianyajiegouduoyangxinghefenbudexinxi¡£zhipuchengxiangzhipuchengxiang£¨MSI£©shiyizhongjiyuzhipudefenzilizichengxiangjishu¡£zhipukeyicongbiaomianweimijidaxiaodequyuhuode£¬jianghuahewuzaibiaomian£¨weidianzixue£¬zuzhiqiepian£©shangdehengxiangfenbuzhuanhuanweituxiang£¬jineryuguangxuetuxiangxiangguanlian¡£yixiechangjiandedianlijishubaokuoDESIchengxiang£¬MALDIchengxiangheercilizizhipuchengxiang£¨SIMSchengxiang£©¡£MSInenggouduifuzabiaomiandeguangfanfenzijinxingwubiaojijiancehedingwei£¬tayichengweizhiyaoheyixueyanjiuzhongyigeyouxiyinlidefenzizuzhixuegongju¡£zi2005nianyilai£¬MSIzhujianyingyongyuzhiwuyanjiu(Imai et al., 2005£»Mullen et al., 2005)¡£danbaizhihedaixiechanwudekongjianzuzhixinxijiangdadatigaowomenduizhiwudaixiehetedingzhiwuzuzhishenghuagongnengderenshi(Lee et al., 2012£»Matros and Mock, 2013)¡£MSIshiyandehexinshizhipuyi£¬tayouliziyuan¡¢zhipufenxiyihetanceqisandabufenzucheng¡£zailiziyuanzhong£¬fenxiwubeijiexihedianli£»zaifenxiyizhong£¬tamengenjuzhiliangdianhebi£¨m/z£©beifenli£»zuihou£¬fenlidelizizaitanceqizhongbeijiancedao¡£zuoweizuizhongshuchu£¬tongguozaim/zkedushangxianshibeijiancelizideqiangdulaichanshengzhipu¡£weitanzhenMSIdejibenyuanlihenjiandan£ºyiqitongguoduizuzhiyangbendetedingquyujinxingguangzhahua£¬shoujiyixiliedezhipu¡£suihou£¬tongguohuizhifenxiwuzaizhipuzhongdedangem/zfengyux-yzuobiaodeqiangdu£¬shengchengfenxiwuzaiyangpinbiaomiandefenbutu(Goodwin et al., 2008£»Svatos, 2010)¡£MALDIchengxiangshiyandedianxinggongzuoliuchengrutu4suoshi¡£tu4 dianxingdeMALDIchengxiangshiyanliucheng¡£yangpinchulishiMSIzhongzuiguanjiandebuzhou£¬yinweizhiyoushidangdeyangpinzhibeicainengbaochifenzidelaiyuan¡¢fenbuhefengdu£¬quebaogaozhiliangdexinhaohezugoudekongjianfenbianlv(Grassl et al., 2011£»Kaspar et al., 2011£»Peukert et al., 2012£»Spengler, 2014)¡£zhiwuzuzhideMSIyangpinzhibeifangfabiburudongwuzuzhidegengjutiaozhanxing(Boughton et al., 2015£»Heyman and Dubery, 2016)¡£gaodengzhiwutidejiaozhicengdaibiaoliaoneibudaixiechanwu£¬shizhijiezhipuchengxiangdediyigezhangai£¬yinweidaduoshuruanhuajishu£¨ruMALDIheDESI£©nanyichuantoutamen(Thunig et al., 2011)¡£zhiwuxibaobishixibaoneifenzizhipuchengxiangdedierpingzhang¡£liru£¬dangjizhirongyependaozhiwutibiaomianshi£¬xibaobihuizuzhirongyezaixibaobishangkuosan£¬daozhiMALDIchengxiangzhongfenxiwutiquxiaolvjiangdi(Takahashi et al., 2015)¡£zhiwuzuzhizhongdegaoshuifenhanliangzailengdongqiepianguochengzhongcunzailingyigetiaozhan¡£zhiwuzuzhizailengdongshigengweicuiruo£¬ciwai£¬duiyufuhanshuifendezhiwuyangben£¬yegengnanhuodewanzhengdebaoqiepian¡£zaituoshuiguochengzhongjingchangguanchadaoyangpinshousuohuobufenbaoluo£¬zhezhongxianxiangtongchanghuidaozhibiaomianbupingzheng£¬jineryingxiangMSIfenxi¡£xuyaozhuyideshi£¬yangpindeshousuoyekenengdaozhiMStuxiangheguangxuetuxiangzhijiandebupipei(Cha et al., 2008)£¬shishengwujieshibiandekunnan¡£xiamianshiguanyuzhipuchengxiangzaizhiwuyanjiuzhongdeyingyongjuli¡£tu5 jiaozhicengxiadaixiechanwudezhipuchengxiang¡££¨i£©ninanjieyepiandeMALDIchengxiang¡£yongniezijiazhuyedezuobian£¬zhongjianbuchuli£¬youbianjinlvfang£¨b£©¡£shannaifen£¨a£©heshannaifenshulitangzuo£¨d£©zaiqianjiahelvfangjinpaoqurongyijiancedao£¬erzailvfangjinpaoquC26£¨c£©heC30£¨f£©dezhifangsuanbeixidiao¡£weijiandingdefenxiwum/z=210£¨d£©zailvfangjinziquxianshichugaofengdu¡££¨ii£©damaiyebiaopim/z=276£¨b£©¡¢298£¨c£©he300£¨d£©dezuojidingzuozuodeDESItuxiang¡£yebeimianbiaopidaibeibaoluo£¨a£©¡££¨iii£©yinjichengxiangyuzhijieDESIchengxiangdebijiao¡££¨A£©jusifuyixishangyeyindejianjieDESIchengxiang¡££¨B£©zhijieDESIchengxiang£¬yilvfang£¬jiachunheshui£¨1:1:0.4£¬v/v/v£©zuoweipenwurongji¡££¨a£©baimaigenyepiandeguangxuetuxiang¡££¨a1£©zaijusifuyixishangdeyeyinjideguangxuetuxiang¡££¨b-e£©fenbieweim/z 104¡¢286¡¢298he300deDESItuxiang¡£zhexieshujufenbiezhenghezi(Cha et al., 2008)¡¢(Li et al., 2011)¡¢(Li et al., 2013)he(Bjarnholt et al., 2014)¡£jiyuzhiwudeMSIxianqianjizhongzaifangfalunfangmian(Matros and Mock, 2013)£¬erxianzaidejishuyijingchengshu£¬yincitayebeiyongyujiejueshengwuxuezhongyaodewenti(Lee et al., 2012)¡£liru£¬zaizhiwuhuanjingjiaohu(Shroff et al., 2008,2015£»Klein et al., 2015£»Ryffel et al., 2015£»Soares et al., 2015£»Tata et al., 2015)£¬xindehuahewujianding(Jaeger et al., 2013£»Debois et al., 2014)hegongnengjiyinzuxue(Korte et al., 2012£»Li et al., 2013)duyouyidingdeyingyong¡£dajiayouxingqukeyizijiquliaojieo£¡xiao jietongguoyishangjigefangmiandejieshao£¬xiaoyuanxiangxinniduizhipuyinggaiyouliaoyigedazhidiliaojie£¬duiyuwanquanbuliaojiezhipuderen£¬kanwanjintiandewenzhangkenenghuanhuicunzaisidongfeidongdeqingkuang£¬budongyemeiguanxi£¬zhiyaonizhidaozhipuyounaxiefangmiandeyingyong£¬bingqiezaiyihouzuoxiangguandeshiyanshinenggouxiangdaozhipu£¬xiaoyuanjiusuanmeibaixiezhepianwenzhangla£¡buguanzenyang£¬zhipuduzhishiyigeshiyangongju£¬shifuwuyukeyande£¬zuoweiyigekeyangongzuozheniyaozuodejiushiruheliyonghaota£¬rangtafahuigengdadejiazhio£¡References£ºBantscheff M, Boesche M, Eberhard D, et al. Robust and sensitive iTRAQ quantification on an LTQ Orbitrap mass spectrometer[J]. Molecular & Cellular Proteomics, 2008, 7(9): 1702-1713.Boughton B A, Thinagaran D, Sarabia D, et al. Mass spectrometry imaging for plant biology: a review[J]. Phytochemistry Reviews, 2016, 15(3): 445-488.Cha S, Zhang H, Ilarslan H I, et al. Direct profiling and imaging of plant metabolites in intact tissues by using colloidal graphite©\assisted laser desorption ionization mass spectrometry[J]. The Plant Journal, 2008, 55(2): 348-360.Debois D, Jourdan E, Smargiasso N, et al. Spatiotemporal monitoring of the antibiome secreted by Bacillus biofilms on plant roots using MALDI mass spectrometry imaging[J]. Analytical chemistry, 2014, 86(9): 4431-4438.Grassl J, Taylor N L, Millar A H. Matrix-assisted laser desorption/ionisation mass spectrometry imaging and its development for plant protein imaging[J]. Plant methods, 2011, 7(1): 1-11.Gygi S P, Rist B, Gerber S A, et al. Quantitative analysis of complex protein mixtures using isotope-coded affinity tags[J]. Nature biotechnology, 1999, 17(10): 994-999.Heyman H M, Dubery I A. The potential of mass spectrometry imaging in plant metabolomics: a review[J]. Phytochemistry reviews, 2016, 15(2): 297-316.Imai T, Tanabe K, Kato T, et al. Localization of ferruginol, a diterpene phenol, in Cryptomeria japonica heartwood by time-of-flight secondary ion mass spectrometry[J]. Planta, 2005, 221(4): 549-556.Jaeger R J R, Lamsho?ft M, Gottfried S, et al. HR-MALDI-MS imaging assisted screening of ¦Â-carboline alkaloids discovered from Mycena metata[J]. Journal of Natural Products, 2013, 76(2): 127-134.Kang K B, Ernst M, van der Hooft J J J, et al. Comprehensive mass spectrometry©\guided phenotyping of plant specialized metabolites reveals metabolic diversity in the cosmopolitan plant family Rhamnaceae[J]. The Plant Journal, 2019, 98(6): 1134-1144.Kaspar S, Peukert M, Svatos A, et al. MALDI©\imaging mass spectrometry¨Can emerging technique in plant biology[J]. Proteomics, 2011, 11(9): 1840-1850.Klein A T, Yagnik G B, Hohenstein J D, et al. Investigation of the chemical interface in the soybean¨Caphid and rice¨Cbacteria interactions using MALDI-mass spectrometry imaging[J]. Analytical chemistry, 2015, 87(10): 5294-5301.Korte A R, Song Z, Nikolau B J, et al. Mass spectrometric imaging as a high-spatial resolution tool for functional genomics: Tissue-specific gene expression of TT7 inferred from heterogeneous distribution of metabolites in Arabidopsis flowers[J]. Analytical Methods, 2012, 4(2): 474-481.Lee Y J, Perdian D C, Song Z, et al. Use of mass spectrometry for imaging metabolites in plants[J]. The Plant Journal, 2012, 70(1): 81-95.Li B, Bjarnholt N, Hansen S H, et al. Characterization of barley leaf tissue using direct and indirect desorption electrospray ionization imaging mass spectrometry[J]. Journal of mass spectrometry, 2011, 46(12): 1241-1246.Li B, Knudsen C, Hansen N K, et al. Visualizing metabolite distribution and enzymatic conversion in plant tissues by desorption electrospray ionization mass spectrometry imaging[J]. The Plant Journal, 2013, 74(6): 1059-1071.Matros A, Mock H P. Mass spectrometry based imaging techniques for spatially resolved analysis of molecules[J]. Frontiers in Plant Science, 2013, 4: 89.Mergner J, Frejno M, List M, et al. Mass-spectrometry-based draft of the Arabidopsis proteome[J]. Nature, 2020, 579(7799): 409-414.Mullen A K, Clench M R, Crosland S, et al. Determination of agrochemical compounds in soya plants by imaging matrix©\assisted laser desorption/ionisation mass spectrometry[J]. Rapid Communications in Mass Spectrometry: An International Journal Devoted to the Rapid Dissemination of Up©\to©\the©\Minute Research in Mass Spectrometry, 2005, 19(18): 2507-2516.Oksman-Caldentey K M, Saito K. Integrating genomics and metabolomics for engineering plant metabolic pathways[J]. Current opinion in biotechnology, 2005, 16(2): 174-179.Ong S E, Kratchmarova I, Mann M. Properties of 13C-substituted arginine in stable isotope labeling by amino acids in cell culture (SILAC)[J]. Journal of proteome research, 2003, 2(2): 173-181.Peukert M, Matros A, Lattanzio G, et al. Spatially resolved analysis of small molecules by matrix©\assisted laser desorption/ionization mass spectrometric imaging (MALDI©\MSI)[J]. New Phytologist, 2012, 193(3): 806-815.Piques M, Schulze W X, H?hne M, et al. Ribosome and transcript copy numbers, polysome occupancy and enzyme dynamics in Arabidopsis[J]. Molecular systems biology, 2009, 5(1): 314.Ryffel F, Helfrich E J N, Kiefer P, et al. Metabolic footprint of epiphytic bacteria on Arabidopsis thaliana leaves[J]. The ISME journal, 2016, 10(3): 632-643.Shroff R, Schramm K, Jeschke V, et al. Quantification of plant surface metabolites by MALDI mass spectrometry imaging: glucosinolates on Arabidopsis thaliana leaves[J]. Plant J, 2015, 81: 961-972.Shroff R, Vergara F, Muck A, et al. Nonuniform distribution of glucosinolates in Arabidopsis thaliana leaves has important consequences for plant defense[J]. Proceedings of the National Academy of Sciences, 2008, 105(16): 6196-6201.Soares M S, da Silva D F, Forim M R, et al. Quantification and localization of hesperidin and rutin in Citrus sinensis grafted on C. limonia after Xylella fastidiosa infection by HPLC-UV and MALDI imaging mass spectrometry[J]. Phytochemistry, 2015, 115: 161-170.Spengler B. Mass spectrometry imaging of biomolecular information[J]. Analytical chemistry, 2015, 87(1): 64-82.Takahashi K, Kozuka T, Anegawa A, et al. Development and application of a high-resolution imaging mass spectrometer for the study of plant tissues[J]. Plant and Cell Physiology, 2015, 56(7): 1329-1338.Tata A, Perez C J, Ore M O, et al. Evaluation of imprint DESI-MS substrates for the analysis of fungal metabolites[J]. RSC advances, 2015, 5(92): 75458-75464.Thunig J, Hansen S H, Janfelt C. Analysis of secondary plant metabolites by indirect desorption electrospray ionization imaging mass spectrometry[J]. Analytical chemistry, 2011, 83(9): 3256-3259.Venable J D, Wohlschlegel J, McClatchy D B, et al. Relative quantification of stable isotope labeled peptides using a linear ion trap-Orbitrap hybrid mass spectrometer[J]. Analytical chemistry, 2007, 79(8): 3056-3064.Wolfender J L, Rudaz S, Hae Choi Y, et al. Plant metabolomics: from holistic data to relevant biomarkers[J]. Current Medicinal Chemistry, 2013, 20(8): 1056-1090.Zhao C, Zayed O, Yu Z, et al. Leucine-rich repeat extensin proteins regulate plant salt tolerance in Arabidopsis[J]. Proceedings of the National Academy of Sciences, 2018, 115(51): 13123-13128.NO.1haowentuijianHistorical articleszhuanluyinziyanjiutaolu£¨er£©danbaifanyihouxiushi¡ª¡ªlinsuanhua£¨yi£©¡¾zhizhao¡¿jiaomushaikucunzaizijihuozenmeban£¿¡¾xiaoyuandayi¡¿naxiekunraonideCo-IPjiancewentibianqingdiwo£¬tongyizhanxian¡ª¡ªquedingjiyinshangxiayouguanxi¡¾xiaoyuandayi¡¿Co-IPyijiIP-MSxiangguanshiyanwentijiehuoNO.2womennengtigongdefuwuTechnical servicezhipuIP-MSshujulianxitong£ºxianjindeshujulianxitong£¬shixianyuyoujijidimianzhihuixitongdegaosushujujiaohuan£¬zhichiwangluozhongxinzhan¡£

½¯(´³¾±²¹²Ô²µ)ÊÏ(³§³ó¾±)¼Ò(´³¾±²¹)×å(´Ü³Ü)¾«(´³¾±²Ô²µ)ÐÄ(³Ý¾±²Ô)´ò(¶Ù²¹)Ôì(´Ü²¹´Ç)µÄ(¶Ù±ð)ÉÌ(³§³ó²¹²Ô²µ)Òµ(³Û±ð)µÛ(¶Ù¾±)¹ú(³Ò³Ü´Ç)£¬¿ª(°­²¹¾±)ʼ(³§³ó¾±)³ö(°ä³ó³Ü)ÏÖ(³Ý¾±²¹²Ô)ÁË(³¢¾±²¹´Ç)ÁÑ(³¢¾±±ð)ºÛ(±á±ð²Ô)¡£

×î½ü£¬ºÀ³µÈ¦¿ÉνÊÇ·çÉùº×ড¢²Ýľ½Ô±ø¡£5ÔÂ25ÈÕ£¬ÒòʧÉùµÄÔµ¹Ê£¬³ÂÞÈѸÐû²¼µ±Ííº¼ÖݵÄÑݳª»áÎÞ·¨ÈçÆÚ¾ÙÐУ¬Ñݳª»á½«ÑÓÆÚÖÁ¼¸Ììºó¡£³ÂÞÈѸÔÚº¼ÖÝÕ¾ÏÖ³¡º¬Àá¾Ï¹ªÏò´ó¼ÒÖÂǸ£¬²¢ÔÚ΢²©·¢ÎÄ£º¡°ÎÒºÜÏë¸úÄãÃǶȹýÕâÈþСʱµÄʱ¹â£¬µ«Ò½ÉúµÄ½¨ÒéÊÇ£¬ÎÒµÄÉù´ø±ØÐëÐÝÏ¢??ÔÙÒ»´Î£¬ÎÒÕæ³ÏµØ¸ú´ó¼Ò˵һÉù±§Ç¸¡£¡±²»¹ý£¬½ö¸ôÒ»Ì죬5ÔÂ26ÈÕ£¬³ÂÞÈѸ·½ÃæÓָijƣ¬º¼ÖݵÄÑݳª»á²»ÑÓÆÚ¶øÊÇÈ¡Ïû£¬ÒÔºóÔÙÔñÆÚ¾ÙÐС£ÖйúÐÂÄÜÔ´³µ·¢Õ¹ÊÇÒòΪŷÃÀÈÕº«µÈ·¢´ï¹ú¼Ò¡°¹ÊÒâÈóö...

¾ÝÍøÓѱ¬ÁϳÆÔÚÁ½ÄêÇ°ËûºÍÅóÓÑһʱÐËÆð¿ªÆðÁËÃûË޾Ƶê

ÉùÃ÷£º¸ÃÎĹ۵ã½ö´ú±í×÷Õß±¾ÈË£¬ËѺüºÅϵÐÅÏ¢·¢²¼Æ½Ì¨£¬ËѺü½öÌṩÐÅÏ¢´æ´¢¿Õ¼ä·þÎñ¡£