本文主要研究内容
作者刘婷婷(2019)在《丛枝菌根菌丝桥介导脱落酸(ABA)信号在番茄植株间的传递》一文中研究指出:干旱是影响植物生长发育最主要的逆境胁迫之一。与此同时,植物在长期的进化和抵抗逆境过程中,形成了一系列的抗逆机制,其中脱落酸(abscisic acid,ABA)在植物应对干旱等非生物胁迫中发挥信号中枢的作用。课题组以往的研究表明,植物根系间广泛存在的丛枝菌根菌丝桥可以介导植物间抗病和抗虫信号的传递,然而,丛枝菌根菌丝桥能否介导脱落酸(ABA)信号在番茄植株间的传递仍然不清楚。事实上,植物及时而有效地感知周围环境的干旱等非生物胁迫对植物抵御干旱等胁迫至关重要。本研究采用分室隔板法,以番茄为材料,利用丛枝菌根真菌(arbuscular mycorrhizal fungus,AMF)根内根生囊霉(Rhizophagus irregularis)在番茄植株间建立菌根菌丝桥(Arbuscular mycorrhizal network,AMNs),对供体番茄喷施脱落酸处理,然后检测受体番茄植株抗旱性的变化,并检测包括生长发育指标(株高和干重)、叶片气体交换参数(净光合速率Pn、气孔导度gs、胞间CO2浓度Ci和蒸腾速率Tr)、保护酶活性(超氧化物歧化酶SOD和过氧化物酶POD)、渗透调节物质(脯氨酸Pro和可溶性糖)、膜脂过氧化物质(丙二醛MDA)以及脱落酸合成和信号传导途径关键基因表达等方面的变化,初步揭示丛枝菌根菌丝桥可介导脱落酸信号在番茄植株间进行传递。主要研究结果如下:(1)丛枝菌根真菌接种到供体番茄植物根系35 d后,通过台盼蓝染色、WGA-488荧光染色以及菌根侵染率统计分析,在供体和受体番茄根系中均检测到丛枝、泡囊、菌丝等结构,且菌根侵染率均达到38%以上,说明供体和受体番茄间已经成功建立丛枝菌根菌丝网络;(2)供体番茄喷施100μM ABA 24 h后,处理组A受体番茄植株(与供体有菌根菌丝网络连接)的气孔导度(gs)、胞间CO2浓度(Ci)和蒸腾速率(Tr)均显著下降,植物水分利用效率(WUE)显著提高,这可能是由于A受体番茄通过菌丝桥感知到AMNs介导传递的干旱胁迫信号,进而调节叶片气孔关闭,减少水分的耗散,提高水分利用率利用效率;而处理组A受体番茄植株(与供体有菌根菌丝网络连接)除了在24 h时的POD活性会显著高于B、C、D处理组之外,各处理组受体之间的SOD活性、MDA含量及可溶性糖含量均没有显著性差异,也就是说供体植株喷施ABA对受体植株没有很明显的直接诱导作用;供体番茄喷施100μM ABA后,相较于B、C、D处理组,处理组A受体番茄植株(与供体有菌根菌丝网络连接)根系中ABA合成途径基因SlAO和SlDXR显著被诱导。(3)供体番茄喷施100μM ABA后,再对受体番茄进行缺水干旱处理,发现处理组A受体番茄的抗旱能力明显增强,与其他对照相比,整株植物比较挺立,生长正常。处理组A受体番茄植株(与供体有菌根菌丝网络连接)的保护酶POD和SOD活性能迅速升高并显著高于B、C、D处理组,而丙二醛含量(MDA)则显著低于B、C、D处理组,说明供体番茄喷施ABA后干旱信号通过AMNs传递到受体番茄后,会诱导受体番茄处于防御警备状态,最终提高受体番茄应对干旱胁迫的能力;本论文揭示了植物可以借助菌根菌丝网络在植物之间进行干旱信号传递的自然奥秘,由于该网络在土壤与植物群落中广泛存在,这使植物能够提前感知到周围环境中的干旱胁迫信号,促使植物提前做好抗旱准备,进而提高植物的抗旱能力。
Abstract
gan han shi ying xiang zhi wu sheng chang fa yo zui zhu yao de ni jing xie pai zhi yi 。yu ci tong shi ,zhi wu zai chang ji de jin hua he di kang ni jing guo cheng zhong ,xing cheng le yi ji lie de kang ni ji zhi ,ji zhong tuo la suan (abscisic acid,ABA)zai zhi wu ying dui gan han deng fei sheng wu xie pai zhong fa hui xin hao zhong shu de zuo yong 。ke ti zu yi wang de yan jiu biao ming ,zhi wu gen ji jian an fan cun zai de cong zhi jun gen jun si qiao ke yi jie dao zhi wu jian kang bing he kang chong xin hao de chuan di ,ran er ,cong zhi jun gen jun si qiao neng fou jie dao tuo la suan (ABA)xin hao zai fan jia zhi zhu jian de chuan di reng ran bu qing chu 。shi shi shang ,zhi wu ji shi er you xiao de gan zhi zhou wei huan jing de gan han deng fei sheng wu xie pai dui zhi wu di yu gan han deng xie pai zhi guan chong yao 。ben yan jiu cai yong fen shi ge ban fa ,yi fan jia wei cai liao ,li yong cong zhi jun gen zhen jun (arbuscular mycorrhizal fungus,AMF)gen nei gen sheng nang mei (Rhizophagus irregularis)zai fan jia zhi zhu jian jian li jun gen jun si qiao (Arbuscular mycorrhizal network,AMNs),dui gong ti fan jia pen shi tuo la suan chu li ,ran hou jian ce shou ti fan jia zhi zhu kang han xing de bian hua ,bing jian ce bao gua sheng chang fa yo zhi biao (zhu gao he gan chong )、xie pian qi ti jiao huan can shu (jing guang ge su lv Pn、qi kong dao du gs、bao jian CO2nong du Cihe zheng teng su lv Tr)、bao hu mei huo xing (chao yang hua wu qi hua mei SODhe guo yang hua wu mei POD)、shen tou diao jie wu zhi (fu an suan Prohe ke rong xing tang )、mo zhi guo yang hua wu zhi (bing er quan MDA)yi ji tuo la suan ge cheng he xin hao chuan dao tu jing guan jian ji yin biao da deng fang mian de bian hua ,chu bu jie shi cong zhi jun gen jun si qiao ke jie dao tuo la suan xin hao zai fan jia zhi zhu jian jin hang chuan di 。zhu yao yan jiu jie guo ru xia :(1)cong zhi jun gen zhen jun jie chong dao gong ti fan jia zhi wu gen ji 35 dhou ,tong guo tai pan lan ran se 、WGA-488ying guang ran se yi ji jun gen qin ran lv tong ji fen xi ,zai gong ti he shou ti fan jia gen ji zhong jun jian ce dao cong zhi 、pao nang 、jun si deng jie gou ,ju jun gen qin ran lv jun da dao 38%yi shang ,shui ming gong ti he shou ti fan jia jian yi jing cheng gong jian li cong zhi jun gen jun si wang lao ;(2)gong ti fan jia pen shi 100μM ABA 24 hhou ,chu li zu Ashou ti fan jia zhi zhu (yu gong ti you jun gen jun si wang lao lian jie )de qi kong dao du (gs)、bao jian CO2nong du (Ci)he zheng teng su lv (Tr)jun xian zhe xia jiang ,zhi wu shui fen li yong xiao lv (WUE)xian zhe di gao ,zhe ke neng shi you yu Ashou ti fan jia tong guo jun si qiao gan zhi dao AMNsjie dao chuan di de gan han xie pai xin hao ,jin er diao jie xie pian qi kong guan bi ,jian shao shui fen de hao san ,di gao shui fen li yong lv li yong xiao lv ;er chu li zu Ashou ti fan jia zhi zhu (yu gong ti you jun gen jun si wang lao lian jie )chu le zai 24 hshi de PODhuo xing hui xian zhe gao yu B、C、Dchu li zu zhi wai ,ge chu li zu shou ti zhi jian de SODhuo xing 、MDAhan liang ji ke rong xing tang han liang jun mei you xian zhe xing cha yi ,ye jiu shi shui gong ti zhi zhu pen shi ABAdui shou ti zhi zhu mei you hen ming xian de zhi jie you dao zuo yong ;gong ti fan jia pen shi 100μM ABAhou ,xiang jiao yu B、C、Dchu li zu ,chu li zu Ashou ti fan jia zhi zhu (yu gong ti you jun gen jun si wang lao lian jie )gen ji zhong ABAge cheng tu jing ji yin SlAOhe SlDXRxian zhe bei you dao 。(3)gong ti fan jia pen shi 100μM ABAhou ,zai dui shou ti fan jia jin hang que shui gan han chu li ,fa xian chu li zu Ashou ti fan jia de kang han neng li ming xian zeng jiang ,yu ji ta dui zhao xiang bi ,zheng zhu zhi wu bi jiao ting li ,sheng chang zheng chang 。chu li zu Ashou ti fan jia zhi zhu (yu gong ti you jun gen jun si wang lao lian jie )de bao hu mei PODhe SODhuo xing neng xun su sheng gao bing xian zhe gao yu B、C、Dchu li zu ,er bing er quan han liang (MDA)ze xian zhe di yu B、C、Dchu li zu ,shui ming gong ti fan jia pen shi ABAhou gan han xin hao tong guo AMNschuan di dao shou ti fan jia hou ,hui you dao shou ti fan jia chu yu fang yu jing bei zhuang tai ,zui zhong di gao shou ti fan jia ying dui gan han xie pai de neng li ;ben lun wen jie shi le zhi wu ke yi jie zhu jun gen jun si wang lao zai zhi wu zhi jian jin hang gan han xin hao chuan di de zi ran ao bi ,you yu gai wang lao zai tu rang yu zhi wu qun la zhong an fan cun zai ,zhe shi zhi wu neng gou di qian gan zhi dao zhou wei huan jing zhong de gan han xie pai xin hao ,cu shi zhi wu di qian zuo hao kang han zhun bei ,jin er di gao zhi wu de kang han neng li 。
论文参考文献
论文详细介绍
论文作者分别是来自福建农林大学的刘婷婷,发表于刊物福建农林大学2019-08-30论文,是一篇关于丛枝菌根菌丝网络论文,脱落酸论文,信号传递论文,根内根生囊霉论文,番茄论文,福建农林大学2019-08-30论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自福建农林大学2019-08-30论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:丛枝菌根菌丝网络论文; 脱落酸论文; 信号传递论文; 根内根生囊霉论文; 番茄论文; 福建农林大学2019-08-30论文;