Evidence for a Flower Inhibitor and Vegetative Growth Promoter in the Strawberry

Experiments with pairs of strawberry runner plants joined bythe stolon and acting as donor/receptor units are reported.Long photoperiods or a light-break treatment on donor plantsbrought about increased petiole length, increased leaf size,and delayed flower initiation in receptor plants themselvesin short photo-periods. The response of receptor plants wasincreased by exposing donor plants to illumination by full daylight3 hours earlier each morning than receptor plants. It is thoughtthat this earlier illumination increased translocation fromthe earlier to the later illuminated plants. In translocationexperiments, radioactive P32 moved more freely from the olderto the younger plant of each pair, except when the older plantswere partially defoliated or when the younger plants were exposedto full light for a longer period of time each day than theolder attached plants. The results are discussed and it is concluded that they aregood evidence for the existence of a growth-regulating substance(s)which promotes vegetative growth and inhibits flower initiation.It seems possible that the regulation of vegetative growth andthe control of flower induction is principally achieved in thestrawberry by a flower inhibiting, vegetative growth-promotingsystem.     

离子束介导大豆DNA转化小麦后代高蛋白株的RAPD标记分析

利用离子束介导法将大豆DNA导入小麦,经过连续4代田间筛选和蛋白含量测定,获得高蛋白变异株系.采用RAPD分析技术,用34条随机引物对供体大豆、受体小麦和3个高蛋白小麦变异株的基因组DNA进行扩增.有29个引物扩增出清晰稳定的条带,其中18个引物扩增出的条带有不同程度的差异.高蛋白小麦突变株与受体小麦(对照)相比出现了条带的增加、缺失、扩增带深浅等变化,也出现了与受体小麦不同而与供体大豆相同的扩增带.实验结果表明,外源大豆DNA导入受体小麦可以引起后代基因组DNA序列变化,扩大小麦遗传基础.     

Aggregation state of the gonadotropin receptor

The aggregation state of the gonadotropin receptor has been examined by coupling fluorescence energy transfer donor and acceptor fluorophores to hCG and LH. Energy transfer is observed at low (4 degrees C) but not at high (37 degrees C) temperature. Energy transfer could also be detected with receptor solubilized in the presence of hormone at the lower temperature only. Solubilization of receptor in the absence of hormone and subsequent addition of hormone conjugates revealed no energy transfer. These results are consistent with stabilization of receptor complexes at low temperatures, but presumptive hormone induced receptor dissociation under physiological conditions.     

The vascular pathogen Verticillium longisporum requires a jasmonic acid-independent COI1 function in roots to elicit disease symptoms in Arabidopsis shoots

Verticillium longisporum is a soil-borne vascular pathogen that causes reduced shoot growth and early senescence in Arabidopsis (Arabidopsis thaliana). Here, we report that these disease symptoms are less pronounced in plants that lack the receptor of the plant defense hormone jasmonic acid (JA), CORONATINE INSENSITIVE1 (COI1). Initial colonization of the roots was comparable in wild-type and coi1 plants, and fungal DNA accumulated to almost similar levels in petioles of wild-type and coi1 plants at 10 d post infection. Completion of the fungal life cycle was impaired in coi1, as indicated by the reduced number of plants with microsclerotia, which are detected on dead plant material at late stages of the disease. Contrary to the expectation that the hormone receptor mutant coi1 should display the same phenotype as the corresponding hormone biosynthesis mutant delayed dehiscence2 (dde2), dde2 plants developed wild-type-like disease symptoms. Marker genes of the JA and the JA/ethylene defense pathway were induced in petioles of wild-type plants but not in petioles of dde2 plants, indicating that fungal compounds that would activate the known COI1-dependent signal transduction chain were absent. Grafting experiments revealed that the susceptibility-enhancing COI1 function acts in the roots. Moreover, we show that the coi1-mediated tolerance is not due to the hyperactivation of the salicylic acid pathway. Together, our results have unraveled a novel COI1 function in the roots that acts independently from JA-isoleucine or any JA-isoleucine mimic. This COI1 activity is required for a yet unknown root-to-shoot signaling process that enables V. longisporum to elicit disease symptoms in Arabidopsis.     

Effect of salt and osmotic stress upon expression of the ethylene receptor ETR1 in Arabidopsis thaliana

In hormone perception, varying the concentrations of hormone, receptor, or downstream signaling elements can modulate signal transduction. Previous research has demonstrated that ethylene biosynthesis in plants is regulated by abiotic factors. Here we report that exposure of Arabidopsis plants to NaCl reduced expression of the ethylene receptor ETR1. The change in gene expression was reflected at the protein level based on immunoblot analysis. Further analysis supports a general effect of osmotic stress upon the expression level of ETR1. The reduction in ETR1 levels should cause increased sensitivity of the plant to ethylene. These results suggest that plant responses to abiotic stress are modulated by changes in the expression level of ethylene receptors.     

Development of a baculovirus-based fluorescence resonance energy transfer assay for measuring protein-protein interaction.

A new baculovirus-based fluorescence resonance energy transfer (Bv-FRET) assay for measuring multimerization of cell surface molecules in living cells is described. It has been demonstrated that gonadotropin-releasing hormone receptor (GnRH-R) was capable of forming oligomeric complexes in the plasma membrane under normal physiological conditions. The mouse gonadotropin-releasing hormone receptor GnRH-R was used to evaluate the efficiency and potential applications of this assay. Two chimeric constructs of GnRH-R were made, one with green fluorescent protein as a donor fluorophore and the other with enhanced yellow fluorescent protein as an acceptor fluorophore. These chimeric constructs were coexpressed in an insect cell line (BTI Tn5 B1-4) using recombinant baculoviruses. Energy transfer occurred from the excited donor to the acceptor when they were in close proximity. The association of GnRH-R was demonstrated through FRET and the fluorescence observed using a Leica TSC-SPII confocal microscope. FRET was enhanced by the addition of a GnRH agonist but not by an antagonist. The Bv-FRET assay constitutes a highly efficient, reliable and convenient method for measuring protein-protein interaction as the baculovirus expression system is superior to other transfection-based methods. Additionally, the same insect cell line can be used routinely for expressing any recombinant proteins of interest, allowing various combinations of molecules to be tested in a rapid fashion for protein-protein interactions. The assay is a valuable tool not only for the screening of new molecules that interact with known bait molecules, but also for confirming interactions between other known molecules.     

外源DNA导入糯玉米自交系D_0代变异植株过氧化物酶同工酶分析

采用改良浸种法分别将甘蔗总DNA与孟加拉超甜玉米自交系总DNA导入糯玉米自交系12-9-10,在D0代分别获得变异植株,采用聚丙烯酰胺垂直电泳法对该植株及供受体进行了过氧化物酶同工酶分析,其结果表明植株D0(糯×甘300)的过氧化物酶同工酶在迁移率Rf5=0.33和Rf6=0.40分别出现一条供体特有而受体没有的酶带,其酶带强弱与供体相同;在迁移率Rf8=0.61出现一条供受体都没有的弱带。植株D0(糯×孟甜300)-2在迁移率Rf6=0.59增加了一条供受体都没有的弱带。说明了外源DNA(或DNA片段)已转移到糯玉米自交系12-9-10中,并得到了表达。     

F-box蛋白质在植物生长发育中的功能

在真核生物中, 泛素介导的蛋白降解途径参与了许多生物学过程。SCF复合体是一种非常重要的E3泛素连接酶, 在植物中研究的最为深入。F-box蛋白包含一个F-box 基序, 是SCF复合体的一个亚基, 它决定了底物识别的特异性。目前, 从各种植物中已鉴定出大量的F-box蛋白质, 它们参与了植物激素(乙烯, 生长素, GA, JA)的信号传导以及自交不亲和、花器官发育等生物学过程, F-box蛋白还参与了植物的胁迫反应。最新研究结果显示, 一个F-box蛋白TIR1是生长素的受体。因此, F-box蛋白质介导的泛素化蛋白质降解途径可能是植物基因表达调控的重要机制。     

Dexamethasone-resistant cystic fibrosis fibroblasts show cross-resistance to sex steroids

Diploid skin fibroblasts derived from individuals with the autosomal recessive disease, cystic fibrosis (CF), were shown previously to be significantly more resistant to the cytotoxicity of dexamethasone, a glucocorticoid hormone, than were normal human fibroblasts. Here cystic fibrosis fibroblasts are also shown to be more resistant than normal human fibroblasts to the cytotoxic effects of the sex hormones, 17 beta-estradiol, dihydrotestosterone and progesterone. Since cells are believed to contain different receptors for each of the steroid hormones, it is not probable than the resistance of CF cells to these hormones results from a receptor deficiency. This was shown by the fact that CF cells were found to exhibit the same receptor activity as normal cells for 3-H-dexamethasone. Furthermore, neither normal human nor CF fibroblasts could be demonstrated to contain detectable receptor activity for 3H-17 beta-estradiol. In addition, the studies of fibroblast killing by hormones led to the further interesting observation that normal human diploid fibroblasts, regardless of the sex of the tissue donor, are sensitive to killing by each of the sex hormones. These findings suggest that the cytotoxic effects of the steroid hormones may be observed independently of the specific hormone receptors. The studies reported here thus suggest that the resistance of CF cells to the different steroid hormones is probably the result of a defect in a pathway in cellular steroid hormone metabolism other than that involving receptors.     

SPECIAL PAPER: HAPLOIDS FROM POLLEN GRAINS—RETROSPECT AND PROSPECT

The production of large numbers of haploid plants from pollen grains in aseptic culture of anthers or isolated pollen grains has now been demonstrated in many angiosperms. It is a technique which holds much promise for creating desired variability by mutations for biochemical and applied genetics and for producing pure lines for crop improvement. This paper reviews the research on the production of haploids from pollen grains. The response is dependent on a variety of factors such as media formulation (especially the hormone component), genotype and physiological status of the donor plant, developmental stage of the pollen grain, anther culture environment and anther wall itself—all of which influence greatly the successful production of haploid plants. Although still in its infancy, the culture of isolated pollen is seen as a promising line of further research as it has the potential of offering several advantages over the culture of whole anthers.     

黄花蒿对4种受体植物的化感作用研究

采用室内生物测定法,以小麦、燕麦、黄瓜和萝卜为受体,研究了黄花蒿对受体植物的化感作用,结果显示:黄花蒿水浸提液对小麦、燕麦的化感综合效应(SE)为56.29、57.17;其地上部淋溶物对小麦和黄瓜表现为抑制作用,对燕麦和萝卜表现为促进作用;其茎叶挥发物对4种受体植物根长生长有较强的抑制作用;其残体分解物前10d对受体有很强的抑制作用,根系分泌物对小麦和燕麦抑制作用较强,对萝卜和黄瓜表现为促进作用。结果表明,黄花蒿5种不同途径来源的化感物质对4种受体植物都有不同程度的化感作用,且黄花蒿主要是通过地上部淋溶、挥发向环境中释放化感物质,其次是通过根系分泌物对授体植物产生化感作用。     

Antisense inhibition of the Nr gene restores normal ripening to the tomato Never-ripe mutant, consistent with the ethylene receptor-inhibition model

The hormone ethylene regulates many aspects of plant growth and development, including fruit ripening. In transgenic tomato (Lycopersicon esculentum) plants, antisense inhibition of ethylene biosynthetic genes results in inhibited or delayed ripening. The dominant tomato mutant, Never-ripe (Nr), is insensitive to ethylene and fruit fail to ripen. The Nr phenotype results from mutation of the ethylene receptor encoded by the NR gene, such that it can no longer bind the hormone. NR has homology to the Arabidopsis ethylene receptors. Studies on ethylene perception in Arabidopsis have demonstrated that receptors operate by a "receptor inhibition" mode of action, in which they actively repress ethylene responses in the absence of the hormone, and are inactive when bound to ethylene. In ripening tomato fruit, expression of NR is highly regulated, increasing in expression at the onset of ripening, coincident with increased ethylene production. This expression suggests a requirement for the NR gene product during the ripening process, and implies that ethylene signaling via the tomato NR receptor might not operate by receptor inhibition. We used antisense inhibition to investigate the role of NR in ripening tomato fruit and determine its mode of action. We demonstrate restoration of normal ripening in Nr fruit by inhibition of the mutant Nr gene, indicating that this receptor is not required for normal ripening, and confirming receptor inhibition as the mode of action of the NR protein.     

Adrenomedullin: a possible regulator of germinal vesicle breakdown

Adrenomedullin (ADM) is a multifunctional hormone that regulates processes as diverse as blood pressure and cell growth. Although expressed in the ovary, the role of ADM in this organ is not clear. In the present study, we found the expression of ADM receptor and receptor activity-modifying proteins in mouse cumulus cells but not in the oocytes. We report that germinal vesicle breakdown (GVBD), which is required for oocyte maturation, is not inhibited by ADM alone. However, ADM in the presence of the nitric oxide donor sodium nitroprusside (SNP) significantly inhibited GVBD. Furthermore, the ADM- and SNP-dependent inhibition of GVBD was abrogated by Akt blockade. Additionally, Akt expression and phosphorylation was exhibited by ADM, suggesting that Akt signaling upstream in cumulus cells is responsible. Additionally, immunohistochemical analysis revealed that ADM was localized in the granulosa cells of developed follicles, implying the possibility that ADM physiologically affects oocyte maturation in vivo. Our results provide the evidence that ADM can act as a GVBD regulator.     

拟南芥乙烯信号传递途径

植物激素乙烯早在一百多年前就已经被确认,相关的研究使得乙烯广泛地被应用于农业上.一直到十年前第一个植物激素乙烯受体拟南芥ETR1基因被发现之后,人们对于乙烯信号传递的研究并才真正开始有所突破.以遗传学为基础对乙烯反应突变体所做的分析,使得乙烯信号传递已经成为目前植物信号传递领域中被研究得最清楚的信号传递途径之一.该文着重于回顾乙烯信号传递途径上各个元件的发现和确认,以及如何利用遗传学的方法将现有的突变体相关基因构建出目前广为接受的信号传递的遗传模式.最后,该文就目前所知的乙烯信号传递理论及相关研究,做了总结和深入的讨论.     

丛枝菌根根外菌丝网络形成过程中的时间效应及植物介导作用

以豆科植物紫花苜蓿为试验材料,应用三室(供体室-间隔室-受体室)培养系统,研究在供体和受体紫花苜蓿根系之间菌丝网络形成的时间效应以及间隔室中不同植物对菌丝网络建成的介导作用.第一个试验在供体和受体植物生长8、10、12、14周之后进行收获以检验菌丝网络形成的时间效应;第二个试验则在间隔室分别种植紫花苜蓿、羊草和独行菜,以考察菌根依赖性不同的植物对菌丝网络形成的介导作用.试验结果显示:(1)接种丛枝菌根真菌的供体紫花苜蓿根系能够形成良好的菌根共生,其外延菌丝可穿过尼龙网和间隔室侵染受体植物根系;植物生长8周后,在受体植物根系检测到菌根侵染,证实供体和受体植物间形成了根间菌丝网络;10周后,尽管供体室和受体室植物的侵染率已无差异,但二者的生物量和地上部磷浓度差异却加大,表现出菌丝网络对植物种内竞争影响的不对称性.(2)试验条件下,不同介导植物对受体植物的菌根侵染及生物量均无明显影响,但显著降低了供体植物生物量和地上部磷浓度;间隔室无介导植物或种植独行菜时,受体植物地上部和根系生物量显著低于供体植物,而当介导植物为紫花苜蓿和羊草时,受体和供体植物生物量无显著差异.研究表明,植物根间菌丝网络的形成受时间和介导植物的影响,同时也具有调节植物间资源分配和植物相互作用的功能.     

An RNA-binding domain in the thyroid hormone receptor enhances transcriptional activation

Thyroid hormone plays important roles in development, differentiation, and metabolic homeostasis by binding to nuclear thyroid hormone receptors, which regulate target gene expression by interacting with DNA response elements and coregulatory proteins. We show that thyroid hormone receptors also are single-stranded RNA binding proteins and that this binding is functionally significant. By using a series of deletion mutants, a novel RNA-binding domain was localized to a 41-amino acid segment of thyroid hormone receptor alpha1 between the second zinc finger and the ligand-binding domain. This RNA-binding domain was necessary and sufficient for thyroid hormone receptor binding to the steroid receptor RNA activator (SRA). Although SRA does not bind directly to steroid receptors, it has been identified as a steroid receptor coactivator, and was thought not to be a coactivator for thyroid hormone receptors. However, transfection studies revealed that SRA enhances thyroid hormone induction of appropriate reporter genes and that the thyroid hormone receptor RNA-binding domain is important for this enhancement. We conclude that thyroid hormone receptors bind RNA through a novel domain and that the interaction of this domain with SRA, and perhaps other RNAs, enhances thyroid hormone receptor function.     

Soil Organism and Plant Introductions in Restoration of Species-Rich Grassland Communities

Soil organisms can strongly affect competitive interactions and successional replacements of grassland plant species. However, introduction of whole soil communities as management strategy in grassland restoration has received little experimental testing. In a 5-year field experiment at a topsoil-removed ex-arable site ( receptor site ), we tested effects of (1) spreading hay and soil, independently or combined, and (2) transplanting intact turfs on plant and soil nematode community development. Material for the treatments was obtained from later successional, species-rich grassland ( donor site ). Spreading hay affected plant community composition, whereas spreading soil did not have additional effects. Plant species composition of transplanted turfs became less similar to that in the donor site. Moreover, most plants did not expand into the receiving plots. Soil spreading and turf transplantation did not affect soil nematode community composition. Unfavorable soil conditions (e.g., low organic matter content and seasonal fluctuations in water level) at the receptor site may have limited plant and nematode survival in the turfs and may have precluded successful establishment outside the turfs. We conclude that introduction of later successional soil organisms into a topsoil-removed soil did not facilitate the establishment of later successional plants, probably because of the "mismatch" in abiotic soil conditions between the donor and the receptor site. Further research should focus on the required conditions for establishment of soil organisms at restoration sites in order to make use of their contribution to grassland restoration. We propose that introduction of organisms from "intermediate" stages will be more effective as management strategy than introduction of organisms from "target" stages.     

New Insights into the Functions of Cytokinins in Plant Development

Recent breakthroughs in cytokinin research have shed new light on the role of cytokinin in plant development. Loss-of-function mutants of a cytokinin receptor reveal a role for the hormone in establishment of the vasculature during embryonic development. Cytokinin controls the number of early cell divisions via a two-component signaling system. Genetically engineered plants that have a reduced cytokinin content demonstrate the regulatory role of the hormone in control of meristem activity and organ growth during postembryonic development, with opposite roles in roots and shoots. There is increasing evidence from work with transgenic plants and mutant analysis that cytokinins do not perform the previously proposed function as a root-derived signal for the regulation of shoot branching. Root-borne cytokinins might serve as a long-range signal controling other processes at distant sites, such as responding to nutritional status, particularly nitrogen availability.     

Factors influencing the regeneration capacity of oilseed rape and cauliflower in transformation experiments

The efficiency ofAgrobacterium-based transformation technique in oilseed rape and cauliflower was influenced by cultivar specificity, donor plant age and explant type. Marked differences in demands for plant hormone contents in the regeneration medium were recorded already among different types of nontransformed explants. The highest regeneration capacity was recorded with stem and leaf segments isolated from one-month-old aseptically grown plants. The regeneration was markedly species-dependent. Regeneration of transformed plants from stem segments and thin layers isolated from field-grown oilseed rape plants (at the most 2% of regenerating explants) and from oilseed rape hypocotyls (0.8% of regenerating explants) and cauliflower (1.2% of explant regenerated transformed shoots) was achieved after disarmedAgrobacterium treatment. Hypersensitive reaction of explants could be prevented by using prolongedin vitro precultivation and delayed application of the selective agent.     

Evolutionary proteomics identifies amino acids essential for ligand-binding of the cytokinin receptor CHASE domain

Background  

In plants the hormone cytokinin is perceived by members of a small cytokinin receptor family, which are hybrid sensor histidine kinases. While the immediate downstream signaling pathway is well characterized, the domain of the receptor responsible for ligand binding and which residues are involved in this process has not been determined experimentally.