2021年11月,《Journal of Integrative Plant Biology》在线发表了中国科学院植物研究所乐捷课题组题为“Arabidopsis F-BOX STRESS INDUCED 4 is required to repress excessive divisions in stomatal development”的研究论文。模式...2021年11月,《Journal of Integrative Plant Biology》在线发表了中国科学院植物研究所乐捷课题组题为“Arabidopsis F-BOX STRESS INDUCED 4 is required to repress excessive divisions in stomatal development”的研究论文。模式植物拟南芥FOUR LIPS(FLP)是最早被发现的气孔发育调控基因之一。FLP作为MYB转录因子,通过对CYCA2;3、CDKB1;1、CDKA;1基因转录调控参与气孔发育后期细胞分裂,确保保卫细胞母细胞只发生一次分裂,产生一对保卫细胞.展开更多
[Objective]The aim was to study homology between Ran gene in Allium cepa,Allium sativum and Brassica napus and Ran2 gene in Arabidopsis in order to determine whether three kinds of plant material as substitute for Ara...[Objective]The aim was to study homology between Ran gene in Allium cepa,Allium sativum and Brassica napus and Ran2 gene in Arabidopsis in order to determine whether three kinds of plant material as substitute for Arabidopsis. [Method]By using RT-PCR method,homology gene was cloned from totoal RNA which extracted from splinter cells of Allium cepa,Allium sativum and Brassica napus with Arabidopsis Ran2 primer,then,carrying out sequence and comparative analysis. [Result]The results showed that the open reading frames of Ran genes in Allium cepa,Allium sativum and Brassica napus were 666,663,666 bp,coding 221,220 and 221 amino acids respectively,with the molecular weight of 24.3 kDa. The sequence analysis showed that the amino acid homology of Ran genes between Allium cepa,Allium sativum,Brassica napus and Arabidopsis Ran2 were respectively 99.1 %,100 % (except an Asp D at Allium sativum C terminal),96.4 %. The phylogenetic tree indicated that Ran genes from Allium cepa and Allium sativum had closer evolutionary relationship with Arabidopsis Ran2. [Conclusion]The research laid a foundation for further study on the biological function of plant Ran gene.展开更多
[Objective]To better understand the functions of High Mobility Group B (HMGB) proteins in the transcriptional regulation of plant stress responses.[Method]We cloned the At2G33450 gene encoding At2G34450 protein in A...[Objective]To better understand the functions of High Mobility Group B (HMGB) proteins in the transcriptional regulation of plant stress responses.[Method]We cloned the At2G33450 gene encoding At2G34450 protein in Arabidopsis thaliana.Binary vectors carrying the above gene were transformed into Arabidopsis to detect the influences of environmental stimuli to transgenic Arabidopsis.[Result] Under salt or drought stress the transgenic Arabidopsis plants over-expressed At2G33450 displayed retarded germination and subsequent growth compared with wild-type plants.[Conclusion]Our results provide a novel basis for understanding the biological functions of HMGB protein family members that differently affect germination and seedling growth of Arabidopsis plants under various stress conditions.展开更多
脱落酸(ABA)是一种重要的植物激素,在调节植物的正常生长发育和植物对胁迫的响应中都发挥了非常重要的作用。ABA的氧化代谢包含7′-、8′-和9′-羟基化途径,其中8′-羟基化途径是ABA的主要氧化代谢途径。在8′-羟基化途径中,具有部分AB...脱落酸(ABA)是一种重要的植物激素,在调节植物的正常生长发育和植物对胁迫的响应中都发挥了非常重要的作用。ABA的氧化代谢包含7′-、8′-和9′-羟基化途径,其中8′-羟基化途径是ABA的主要氧化代谢途径。在8′-羟基化途径中,具有部分ABA活性的红花菜豆酸(PA)在还原酶的作用下,生成失活产物二氢红花菜豆酸(DPA)。2022年5月17日,武汉大学冯钰锜教授团队在《Plant Communications》上在线发表了题为“Neophaseic acid catabolism in 9′-hydroxylation pathway of abscisic acid in Arabidopsis thaliana”的研究论文,解析了模式植物拟南芥中脱落酸9′-羟基化代谢途径中新红花菜豆酸(neoPA)的代谢产物和代谢酶,并发现了拟南芥体内脱落酸水平新的调控方式。展开更多
Pollen germination on the surface of compatible stigmatic tissues is an essential step for plant fertilization. Here we report that the Arabidopsis mutant bcll is male sterile as a result of the failure ofpollen germi...Pollen germination on the surface of compatible stigmatic tissues is an essential step for plant fertilization. Here we report that the Arabidopsis mutant bcll is male sterile as a result of the failure ofpollen germination. We show that the bcll mutant allele cannot be transmitted by male gametophytes and no homozygous bcll mutants were obtained. Analysis of pollen developmental stages indicates that the bcll mutation affects pollen germination but not pollen maturation. Molecular analysis demonstrates that the failure of pollen germination was caused by the disruption of AtBECLIN 1. AtBECLIN 1 is expressed predominantly in mature pollen and encodes a protein with significant homology to Beclin1/Atg6/Vps30 required for the processes of autophagy and vacuolar protein sorting (VPS) in yeast. We also show that AtBECLIN 1 is required for normal plant development, and that genes related to autophagy, VPS and the glycosylphosphatidylinositol anchor system, were affected by the deficiency of AtBECLIN 1.展开更多
Receptor-like kinases(RLKs) play important roles in plant immunity signaling; thus, many are hijacked by pathogen effectors to promote successful pathogenesis. Xanthomonas oryzae pv. oryzae(Xoo) is the causal agent of...Receptor-like kinases(RLKs) play important roles in plant immunity signaling; thus, many are hijacked by pathogen effectors to promote successful pathogenesis. Xanthomonas oryzae pv. oryzae(Xoo) is the causal agent of rice leaf blight disease. The strain PXO99 A has 18 non-TAL(transcription activation-like) effectors; however, their mechanisms of action and host target proteins remain largely unknown. Although the effector XopR from the Xoo strain MAFF311018 was shown to suppress PAMP-triggered immune responses in Arabidopsis, its target has not yet been identified. Here, we show that PXO99 A XopR interacts with BIK1 at the plasma membrane. BIK1 is a receptor-like cytoplasmic kinase(RLCK) belonging to the RLK family of proteins and mediates PAMP-triggered stomatal immunity. In turn, BIK1 phosphorylates XopR. Furthermore, XopR suppresses PAMP-triggered stomatal closure in transgenic Arabidopsis expressing XopR. In addition, XopR is able to associate with RLCKs other than BIK1. These results suggest that XopR likely suppresses plant immunity by targeting BIK1 and other RLCKs.展开更多
Both tryptophan (Trp) and auxin are essential for plant growth and Trp is a precursor for auxin biosynthesis. Concentrations of Trp and auxin need to be tightly con- trolled to ensure optimal growth and development....Both tryptophan (Trp) and auxin are essential for plant growth and Trp is a precursor for auxin biosynthesis. Concentrations of Trp and auxin need to be tightly con- trolled to ensure optimal growth and development. It has been very difficult to study the homeostasis of these two essential and inter-dependent compounds. Auxin is mainly synthesized from Trp via a two-step pathway using indole- 3-pyruvate (IPA) as the intermediate. Here we used a bacterial Trp oxidase RebO, which does not exist in Ara- bidopsis and which converts Trp to the imine form of IPA, to modulate IPA levels in Arabidopsis. Our results demonstrate that Arabidopsis plants use two strategies to ensure that no excess IPA is made from Trp. IPA is made from Trp by the TAA family of aminotransferases, which we show catalyzes the reverse reaction when IPA level is high. Moreover, excess IPA is converted back to Trp by the YAS1 aminotransferase. We show that the VASl-cat- alyzed reaction is very important for Trp homeostasis. This work not only elucidates the intricate biochemical mech- anisms that control the homeostasis of Trp, IPA, and auxin, but also provides novel tools for further biochemical studies on Tip metabolism and auxin biosynthesis in plants.展开更多
文摘2021年11月,《Journal of Integrative Plant Biology》在线发表了中国科学院植物研究所乐捷课题组题为“Arabidopsis F-BOX STRESS INDUCED 4 is required to repress excessive divisions in stomatal development”的研究论文。模式植物拟南芥FOUR LIPS(FLP)是最早被发现的气孔发育调控基因之一。FLP作为MYB转录因子,通过对CYCA2;3、CDKB1;1、CDKA;1基因转录调控参与气孔发育后期细胞分裂,确保保卫细胞母细胞只发生一次分裂,产生一对保卫细胞.
基金Supported by National Natural Science Foundation of China(30070370)~~
文摘[Objective]The aim was to study homology between Ran gene in Allium cepa,Allium sativum and Brassica napus and Ran2 gene in Arabidopsis in order to determine whether three kinds of plant material as substitute for Arabidopsis. [Method]By using RT-PCR method,homology gene was cloned from totoal RNA which extracted from splinter cells of Allium cepa,Allium sativum and Brassica napus with Arabidopsis Ran2 primer,then,carrying out sequence and comparative analysis. [Result]The results showed that the open reading frames of Ran genes in Allium cepa,Allium sativum and Brassica napus were 666,663,666 bp,coding 221,220 and 221 amino acids respectively,with the molecular weight of 24.3 kDa. The sequence analysis showed that the amino acid homology of Ran genes between Allium cepa,Allium sativum,Brassica napus and Arabidopsis Ran2 were respectively 99.1 %,100 % (except an Asp D at Allium sativum C terminal),96.4 %. The phylogenetic tree indicated that Ran genes from Allium cepa and Allium sativum had closer evolutionary relationship with Arabidopsis Ran2. [Conclusion]The research laid a foundation for further study on the biological function of plant Ran gene.
基金Supported by Doctor Initial Fund of Liaocheng University~~
文摘[Objective]To better understand the functions of High Mobility Group B (HMGB) proteins in the transcriptional regulation of plant stress responses.[Method]We cloned the At2G33450 gene encoding At2G34450 protein in Arabidopsis thaliana.Binary vectors carrying the above gene were transformed into Arabidopsis to detect the influences of environmental stimuli to transgenic Arabidopsis.[Result] Under salt or drought stress the transgenic Arabidopsis plants over-expressed At2G33450 displayed retarded germination and subsequent growth compared with wild-type plants.[Conclusion]Our results provide a novel basis for understanding the biological functions of HMGB protein family members that differently affect germination and seedling growth of Arabidopsis plants under various stress conditions.
文摘脱落酸(ABA)是一种重要的植物激素,在调节植物的正常生长发育和植物对胁迫的响应中都发挥了非常重要的作用。ABA的氧化代谢包含7′-、8′-和9′-羟基化途径,其中8′-羟基化途径是ABA的主要氧化代谢途径。在8′-羟基化途径中,具有部分ABA活性的红花菜豆酸(PA)在还原酶的作用下,生成失活产物二氢红花菜豆酸(DPA)。2022年5月17日,武汉大学冯钰锜教授团队在《Plant Communications》上在线发表了题为“Neophaseic acid catabolism in 9′-hydroxylation pathway of abscisic acid in Arabidopsis thaliana”的研究论文,解析了模式植物拟南芥中脱落酸9′-羟基化代谢途径中新红花菜豆酸(neoPA)的代谢产物和代谢酶,并发现了拟南芥体内脱落酸水平新的调控方式。
基金The work was supported by the National Natural Science Foundation of China(Grant No.30470172 and 30221120261)the National Special Projects for R&D of Transgenic Plants(J99-A-001).
文摘Pollen germination on the surface of compatible stigmatic tissues is an essential step for plant fertilization. Here we report that the Arabidopsis mutant bcll is male sterile as a result of the failure ofpollen germination. We show that the bcll mutant allele cannot be transmitted by male gametophytes and no homozygous bcll mutants were obtained. Analysis of pollen developmental stages indicates that the bcll mutation affects pollen germination but not pollen maturation. Molecular analysis demonstrates that the failure of pollen germination was caused by the disruption of AtBECLIN 1. AtBECLIN 1 is expressed predominantly in mature pollen and encodes a protein with significant homology to Beclin1/Atg6/Vps30 required for the processes of autophagy and vacuolar protein sorting (VPS) in yeast. We also show that AtBECLIN 1 is required for normal plant development, and that genes related to autophagy, VPS and the glycosylphosphatidylinositol anchor system, were affected by the deficiency of AtBECLIN 1.
基金supported by the National Natural Science Foundation of China(31322009)the National Basic Research Program of China(2015CB910200)the State Key Laboratory of Plant Genomics of China(SKLPG2011B0301,SKLPG2011A0301)
文摘Receptor-like kinases(RLKs) play important roles in plant immunity signaling; thus, many are hijacked by pathogen effectors to promote successful pathogenesis. Xanthomonas oryzae pv. oryzae(Xoo) is the causal agent of rice leaf blight disease. The strain PXO99 A has 18 non-TAL(transcription activation-like) effectors; however, their mechanisms of action and host target proteins remain largely unknown. Although the effector XopR from the Xoo strain MAFF311018 was shown to suppress PAMP-triggered immune responses in Arabidopsis, its target has not yet been identified. Here, we show that PXO99 A XopR interacts with BIK1 at the plasma membrane. BIK1 is a receptor-like cytoplasmic kinase(RLCK) belonging to the RLK family of proteins and mediates PAMP-triggered stomatal immunity. In turn, BIK1 phosphorylates XopR. Furthermore, XopR suppresses PAMP-triggered stomatal closure in transgenic Arabidopsis expressing XopR. In addition, XopR is able to associate with RLCKs other than BIK1. These results suggest that XopR likely suppresses plant immunity by targeting BIK1 and other RLCKs.
基金supported by the NIH(R01GM114660 to YZ)supported by NIH(GM52413to JC)HHMI
文摘Both tryptophan (Trp) and auxin are essential for plant growth and Trp is a precursor for auxin biosynthesis. Concentrations of Trp and auxin need to be tightly con- trolled to ensure optimal growth and development. It has been very difficult to study the homeostasis of these two essential and inter-dependent compounds. Auxin is mainly synthesized from Trp via a two-step pathway using indole- 3-pyruvate (IPA) as the intermediate. Here we used a bacterial Trp oxidase RebO, which does not exist in Ara- bidopsis and which converts Trp to the imine form of IPA, to modulate IPA levels in Arabidopsis. Our results demonstrate that Arabidopsis plants use two strategies to ensure that no excess IPA is made from Trp. IPA is made from Trp by the TAA family of aminotransferases, which we show catalyzes the reverse reaction when IPA level is high. Moreover, excess IPA is converted back to Trp by the YAS1 aminotransferase. We show that the VASl-cat- alyzed reaction is very important for Trp homeostasis. This work not only elucidates the intricate biochemical mech- anisms that control the homeostasis of Trp, IPA, and auxin, but also provides novel tools for further biochemical studies on Tip metabolism and auxin biosynthesis in plants.
