A cyclophilin from Griffithsia japonica has thermoprotective activity and is affected by CsA

Members of the multifunctional Cyp family have been isolated from a wide range of organisms. However, few functional studies have been performed on the role of these proteins as chaperones in red alga. For studying the function of cDNA GjCyp-1 isolated from the red alga (Griffithsia japonica), we expressed and purified a recombinant GjCyp-1 containing a hexahistidine tag at the amino-terminus in Escherichia coli. An expressed fusion protein, H6GjCyp-1 maintained the stability of E. coli proteins up to 50 degrees C. For a functional bioassay for recombinant H6GjCyp-1, the viability of E. coli cells overexpressing H6GjCyp-1 was compared with that of cells not expressing H6GjCyp-1 at 50 degrees C. After high temperature treatment for 1 h, E. coli overexpressing H6GjCyp-1 survived about three times longer than E. coli lacking H6GjCyp-1. Measurement of the light scattering of luciferase (luc) showed that GjCyp-1 prevents the aggregation of luc during mild heat stress and that the thermoprotective activity of GjCyp-1 is blocked by cyclosporin A (CsA), an inhibitor of Cyps. Furthermore, the Cyp-CsA complex inhibited the growth of E. coli under normal conditions. The results of the GjCyp-1 bioassays as well as in vitro studies strongly suggest that Cyp confers thermotolerance to E. coli.     

Enhanced tolerance against freezing stress in<Emphasis Type="Italic">Escherichia coli</Emphasis> cells expressing an algal cyclophilin gene

Members of the cyclophilin (Cyp) family are known to function as co-chaperones, interacting with chaperones such as heat shock protein 90, and perform important roles in protein folding under high temperature stress. In addition, they have been isolated from a wide range of organisms. However, there have been no reports on the functions of algal Cyps under other stress conditions. To study the functions of the cDNAGjCyp-1 isolated from the red alga (Griffithsia japonica), a recombinant GjCyp-1 containing a hexahistidine tag at the amino-terminus was constructed and expressed inEscherichia coli. Most of the gene product expressed inE. coli was organized as aggregate insoluble particles known as inclusion bodies. Thus, the optimal time, temperature, and concentration ofl(+)-arabinose for expressing the soluble and nonaggregated form of GjCyp-1 inE. coli were examined. The results indicate that the induction of Cyp, at 0.2%l(+)-arabinose for 2 h at 25°C, had a marked effect on the yield of the soluble and active form of the co-chaperone as PPlase. An expressed fusion protein, H₆GjCyp-1, maintained the stability ofE. coli proteins up to-75°C. In a functional bioassay of the recombinant H₆GjCyp-1, the viability ofE. coli cells overexpressing H₆GjCyp-1 was compared to that of cells not expressing H₆GjCyp-1 at −75°C. For all the cycles of a freeze/thaw treatment, a significant increase in viability was observed in theE. coli cells overexpressing H₆GjCyp-1. The results of the GjCyp-1 bioassays, as well asin vitro studies, strongly suggest that the algal Cyp confers freeze tolerance toE. coli.     

油菜素内酯合成酶基因DAS5促进杨树生长及提高抗旱性的作用

以河北杨(Populus hopeiensis)为材料, 研究拟南芥(Arabidopsis thaliana)油菜素内酯(BR)生物合成酶基因DAS5对其生长表型、生物量及抗旱性的影响。结果表明: (1) 转DAS5基因河北杨植株的根长、地径、叶柄及叶片长度均显著大于野生型植株, 且地上、地下部分干重及根冠比显著高于野生型, 其拥有发达的根系; (2) 在干旱胁迫下, 转DAS5基因河北杨植株失水褪绿速度较野生型植株缓慢, 在复水后转基因植株能够较早较好地恢复活力, 萌发较多的新幼芽且长势良好; (3)控水期间, 转基因河北杨的相对生长率显著高于野生型, 且随着干旱胁迫程度的加剧, 其可溶性糖含量、游离脯氨酸含量、过氧化氢酶(CAT)活性、超氧化物歧化酶(SOD)活性均显著高于野生型。实验结果表明, 与野生型相比, 转基因植株具有较高的生长量与较强的抗干旱胁迫能力, 说明来自拟南芥的BR生物合成酶基因DAS5可以显著增加河北杨的生长量并在抵御干旱胁迫机制中发挥重要作用。     

TTG1-mediated flavonols biosynthesis alleviates root growth inhibition in response to ABA

Key message

Our results demonstrate that the flavonoids biosynthetic pathway can be effectively manipulated to confer enhanced plant root growth under water-stress conditions.

Abstract

Abscisic acid (ABA) is one of most important phytohormones. It functions in various processes during the plant lifecycle. Previous studies indicate that ABA has a negative effect on root growth and branching. Auxin is another key plant growth regulator that plays an essential role in plant growth and development. In contrast to ABA, auxin is a positive regulator of root growth and development at low concentrations. This study was performed to help understand whether flavonoids can suppress the effect of ABA on lateral root growth. The recessive TRANSPARENT TESTA GLABRA 1 (ttg1) mutant was characterized on ABA and sucrose treatments. It was determined that auxin mobilization could be altered by modifying flavonoids biosynthesis, which resulted in alterations of root architecture in response to ABA treatment. Moreover, transgenic TTG1-overexpression (TTG1-OX) seedlings exhibited enhanced root length and lateral root number compared to wild-type seedlings grown under normal or stress conditions. Genetic manipulation of the flavonoids biosynthetic pathway could therefore be employed successfully for the improvement of plant root systems by overcoming the inhibition of ABA and some abiotic stresses.     

Alteration of gibberellin response in transgenic tobacco plants which express a human Lewis fucosyltransferase.

In plants, Lewisa type N-glycans may be involved in cell-to-cell communication and recognition. N-glycoproteins harboring Lewisa glycotopes are mainly found in plasma membranes and cell walls. Some can be also involved in cell wall synthesis or the loosening process, and subsequently in cell elongation. In order to determine the potential role(s) of the alpha4-fucosylation during vegetative development, transgenic tobacco plants overexpressing a human Lewis fucosyltransferase (hFUT3), which transfers a fucose residue in a alpha(1,4)-linkage on complex glycans, have been developed. The heterologous enzyme hFUT3 was strongly expressed and fully functional in transgenic tobacco. Transgenic plants showed a delay in growth linked to a reduction of internode length. Furthermore, transgenic seedling roots were significantly shorter than wild-type roots and the length of their epidermis cells was reduced. Strikingly, root growth was completely and specifically restored following gibberellin treatment. Etiolated hypocotyls of hFUT3 overexpressors were also more sensitive to exogenous gibberellin. Furthermore, paclobutrazol, an inhibitor of gibberellin synthesis, induced a similar effect on control and transgenic dark-grown hypocotyls suggesting that gibberellin biosynthesis was probably not altered in seedlings overexpressing hFUT3. Thus, alpha4-fucosylation could act as a possible modulator of conformation and/or functioning of N-glycoproteins involved in the gibberellin-dependent elongation process.     

Overexpression of glucosyltransferase UGT85A1 influences trans-zeatin homeostasis and trans-zeatin responses likely through O-glucosylation

Trans-zeatin is a kind of cytokinins that plays a crucial role in plant growth and development. The master trans-zeatin O-glucosyltransferase of Arabidopsis thaliana, UGT85A1, has been previously identified through biochemical approach. To determine the in planta role of UGT85A1 gene, the characterization of transgenic Arabidopsis plants overexpressing UGT85A1 was carried out. Under normal conditions, transgenic Arabidopsis did not display clearly altered phenotypes. A remarkable alteration is that the accumulation level of the trans-zeatin O-glucosides was significantly increased in UGT85A1 overexpressing transgenic Arabidopsis, while other forms of cytokinins kept the similar concentrations compared to the wild type. When treated with exogenously applied trans-zeatin, UGT85A1 overexpressing Arabidopsis showed much less sensitivity to trans-zeatin in primary root elongation and lateral root formation. Meanwhile, the chlorophyll content of detached leaves of transgenic Arabidopsis was much lower than wild type. Studies of spatial–temporal expression patterns showed that UGT85A1 was mainly expressed in the early seedlings and developing seeds. Analysis of subcellular localization suggested that UGT85A1 was localized to cytoplasm and nucleus. Taken together, our data suggest that overexpression of Arabidopsis glucosyltransferase UGT85A1 influences trans-zeatin homeostasis and trans-zeatin responses likely through O-glucosylation in planta.     

骆驼蓬提取物浸种对小麦幼苗生长及抗氧化酶活性的影响

以不同浓度骆驼蓬提取液浸种处理小麦。研究对幼苗生长及抗氧化酶活性的影响。结果表明,骆驼蓬提取液浸种后小麦幼苗的根长、株高和干重增加,根冠比增大;幼苗根系活力增强,根系超氧化物歧化酶（SOD）活性提高,过氧化氢酶（CAT）活性先升后降,过氧化物酶（POD）活性下降,过氧化物酶同工酶表达受抑;叶片叶绿素和可溶性蛋白质含量增加,叶片SOD、POD活性提高,过氧化物酶同工酶表达增强,CAT活性降低。根系和叶片丙二醛（MDA）含量下降。     

Profilin plays a role in cell elongation, cell shape maintenance, and flowering in Arabidopsis

Profilin (PFN) is an ubiquitous, low-M(r), actin-binding protein involved in the organization of the cytoskeleton of eukaryotes including higher plants. PFNs are encoded by a multigene family in Arabidopsis. We have analyzed in vivo functions of Arabidopsis PFN by generating transgenic plants carrying a 35S-PFN-1 or 35S-antisense PFN-1 transgene. Etiolated seedlings underexpressing PFN (PFN-U) displayed an overall dwarf phenotype with short hypocotyls whose lengths were 20% to 25% that of wild type (WT) at low temperatures. Light-grown PFN-U plants were smaller in stature and flowered early. Compared with equivalent cells in WT, most cells in PFN-U hypocotyls and roots were shorter, but more isodiametric, and microscopic observations of etiolated PFN-U hypocotyls revealed a rough epidermal surface. In contrast, light-grown seedlings overexpressing PFN had longer roots and root hair although etiolated seedlings overexpressing PFN were either the same size or slightly longer than WT seedlings. Transgenic seedlings harboring a PFN-1-GUS transgene directed expression in root and root hair and in a ring of cells at the elongating zone of the root tip. As the seedlings matured PFN-1-GUS was mainly expressed in the vascular bundles of cotyledons and leaves. Our results show that Arabidopsis PFNs play a role in cell elongation, cell shape maintenance, polarized growth of root hair, and unexpectedly, in determination of flowering time.     

Overexpression of the anaphase-promoting complex (APC) genes in Nicotiana tabacum promotes increasing biomass accumulation

The anaphase-promoting complex (APC) plays pivotal roles in cell cycle pathways related to plant development. In this study, we present evidence that overproduction of APC10 from Arabidopsis thaliana in tobacco (Nicotiana tabacum) plants promotes significant increases in biomass. Analyzes of plant’s fresh and dried weight, root length, number of days to flower and number of seeds of plants overexpressing AtAPC10 verified an improved agronomic performance of the transgenic plants. Detailed analyzes of the leaf growth at the cellular level, and measurements of leaf cell number, showed that AtAPC10 also produce more cells, showing an enhancement of proliferation in these plants. In addition, crossing of plants overexpressing AtAPC10 and AtCDC27a resulted in a synergistic accumulation of biomass and these transgenic plants exhibited superior characteristics compared to the parental lines. The results of the present study suggest that transgenic plants expressing AtAPC10 and AtAPC10/AtCDC27a concomitantly are promising leads to develop plants with higher biomass.     

Overexpression of Maize IAGLU in Arabidopsis thaliana Alters Plant Growth and Sensitivity to IAA but not IBA and 2,4-D

Overexpression of the IAGLU gene from maize (ZmIAAGLU) in Arabidopsis thaliana, under the control of the CaMV 35S promoter, inhibited root but not hypocotyl growth of seedlings in four different transgenic lines. Although hypocotyl growth of seedlings and inflorescence growth of mature plants was not affected, the leaves of mature plants were smaller and more curled as compared to wild-type and empty vector transformed plants. The rosette diameter in transgenic lines with higher ZmIAGLU expression was also smaller compared to the wild type. Free indole-3-acetic acid (IAA) levels in the transgenic plants were comparable to the wild type, even though a decrease in free IAA levels might be expected from overexpression of an IAA-conjugate–forming enzyme. IAA-glucose levels, however, were increased in transgenic lines compared to the wild type, indicating that the ZmIAGLU gene product is active in these plants. In addition, three different 35SZmIAGLU lines showed less inhibition of root growth when cultivated on increasing concentrations of IAA but not indole-3-butyric acid (IBA) and 2,4-dichlorophenoxyacetic acid (2,4-D). Feeding IAA to transgenic lines resulted in increased IAA-glucose synthesis, whereas the levels of IAA-aspartate and IAA-glutamine formed were reduced compared to the wild type. Our results show that IAA homeostasis can be altered by heterologous overexpression of a conjugate-forming gene from maize.     

Germinating pigeonpea (Cajanus cajan) seeds secrete factor(s) having antiethylene-like effects

Germinating pigeonpea seeds were found to release factor(s), which dramatically altered the growth pattern of rice seedlings. This included an increased sensitivity of roots to gravity, an increase in seminal root length, and increased density of branch roots on the seminal root and suppression of root hair formation. Furthermore, the known characteristic responses of rice to ethylene (namely, coleoptile growth promotion and induction of senescence) were inhibited by the presence of these factor(s). This altered growth pattern of rice seedlings was similar to that brought about by the ethylene-antagonist, silver nitrate. Further, the change in growth pattern in rice was specifically reversed by ethrel. In addition, in wild-type Arabidopsis thaliana these factors suppressed formation of root hair, the development of which is known to be promoted by ethylene. In contrast, in a mutant A. thaliana which shows constitutive ethylene response ( ctr1-1 ), the factors failed to inhibit root hair formation. These observations indicated that germinating pigeonpea seeds secrete factor(s), which have antiethylene-like effects.     

种子散布位置对格氏栲幼苗根系形态及生长特征的影响

种子从母株掉落于地面萌发后,其根系在不同散布位置(凋落物上层、土壤表层和凋落物下层)的生长形态影响幼苗定居及建成,而目前对其根系形态及生长特征的了解并不充分,限制了对幼苗根系在不同散布下适应策略的理解。为此,以格氏栲(Castanopsis kawakamii)为研究对象,通过模拟种子在凋落物中位置,设置凋落物上层(种子下层铺垫2 cm和4 cm凋落物,U2和U4处理)、土壤表层与凋落物下层(种子上层覆盖0、2、4、6 cm和8 cm凋落物,CK、D2、D4、D6和D8处理)等3种散布,探讨不同散布位置对格氏栲幼苗根系9个生长指标的影响。结果表明：(1)种子散布位置对幼苗根干物质质量具有显著影响,D2处理达最大值。(2)D2处理的幼苗根长、根表面积、根尖数、分枝数和比根长高于其它处理;根系平均直径在D6处理达最大值。(3)相关分析表明根长、根表面积、根尖数、分枝数和比根长与根系平均直径呈显著负相关关系。(4)对根系9个生长指标提取主成分后聚类为4个类群,D2与D4处理各划分一类;U2与U4处理划分一类,其余三个处理划分一类。综上所述,凋落物浅层覆盖(D2处理)适宜格氏栲根系生长;凋落物...     

拟南芥F-box基因At5g22700的功能初步分析

F-box蛋白作为SCF（Skpl,Cullin and anF-boxprotein）复合体的成员,参与调节植物的生长发育过程。At5g22700为功能未知的F-box基因家族成员。本研究通过酵母双杂交分析At5g22700蛋白与ASK（Arabidop-sis-SKP1-1ike）家族蛋白的相互作用,发现At5g22700蛋白的F-box结构域与ASK4蛋白相互作用。实时定量PCR分析该基因在不同组织器官中的表达,发现该基因在根和花中的表达量最高,说明At5g2700可能在根和花的发育中具有重要作用。以At5g22700基因的T—DNA插入突变体和过量表达转基因株系为材料,分析不同光照条件下幼苗的表型,发现蓝光下At5g22700过量表达转基因幼苗的主根比野生型长。这些研究结果表明,At5g22700在植物体内可能形成SCF复合体,并在植物幼苗主根伸长生长中起促进作用。     

Purification, cloning and functional characterization of an endogenous beta-glucuronidase in Arabidopsis thaliana

Beta-glucuronidase (GUS) activities have been extensively characterized in bacteria, fungi, and animals, and the bacterial enzyme GUSA from Escherichia coli is commonly used as a reporter for gene expression studies in plants. Although endogenous GUS activity has been observed in plants, the nature and function of the enzymes involved remain elusive. Here we report on tissue-specific localization, partial purification and identification of AtGUS2, a GUS active under acidic conditions from Arabidopsis thaliana. This enzyme belongs to the GH79 family in the Carbohydrate-Active Enzymes database, which also includes mammalian heparanases that degrade the carbohydrate moieties of cell surface proteoglycans, and fungal enzymes active on arabinogalactan proteins (AGPs). We characterized a knockout insertion line (atgus2-1) and transgenic lines overexpressing AtGUS2 (Pro(35S):AtGUS2). Endogenous GUS activity assayed histochemically and biochemically was absent in atgus2-1 tissues and four times higher in Pro(35S):AtGUS2 lines. AGPs purified from atgus2-1 and Pro(35S):AtGUS2 seedlings showed higher and markedly lower glucuronic acid content, respectively. Our results suggest that endogenous GUS activity influences the sugar composition of the complex polysaccharide chains of AGPs. We also show that transgenics display hypocotyl and root growth defects compared to wild-type plants. Hypocotyl and root lengths are increased in Pro(35S):AtGUS2 seedlings, whereas hypocoyl length is reduced in atgus2-1 seedlings. These data are consistent with a role for the carbohydrate moieties of AGPs in cell growth.     

A nuclear-localized HSP70 confers thermoprotective activity and drought-stress tolerance on plants

To investigate the function of nuclear-localized plant HSP70, we used NtHSP70-1 isolated from Nicotiana tabacum. The subcellular localization of NtHSP70-1 was identified by fluorescence microscopy for NtHSP70-1/GFP or smGFP fusion proteins in onion epidermal cells, obtained using particle gun bombardment. To analyze the drought-stress tolerance and thermoprotective role of NtHSP70-1, we obtained transgenic tobacco plants that constitutively expressed elevated levels of NtHSP70-1 as well as transgenic plants containing either the vector alone or else having NtHSP70-1 in the antisense orientation. From analysis for genomic DNA in transgenic seedlings after heat stress, NtHSP70-1 helps to prevent the fragmentation and degradation of nuclear DNA during heat stress. In addition, seedlings constitutively overexpressing NtHSP70-1 grew to be healthy plants, whereas transgenic vector or antisense seedlings resulted in death after heat-/drought-stress.     

转popW基因烟草的构建及相关表型分析

PopW是克隆于青枯劳尔氏菌Ralstonia solanacearum ZJ3721中的一种新的编码harpin蛋白的基因,原核表达的PopW蛋白能够诱导烟草对TMV的抗性、促进烟草生长、提高烟草品质。将popW基因连接到植物表达载体pBI121上,构建成重组转基因载体pB-popW,通过冻融法转化根癌土壤杆菌EHA105,获得阳性转化子。再采用叶盘法转化三生烟Nicotiana tobacum cv.Xanthi nc.,经卡那霉素抗性筛选、PCR检测、RT-PCR分析获得21个株系的T3代阳性植株。PCR及RT-PCR检测结果表明popW基因已经整合到烟草基因组中,并在转录水平正常表达。GUS染色进一步证明popW基因在翻译水平上进行了表达,且不同株系之间表达存在差异。对烟草花叶病毒(TMV)的抗病性测定结果表明,转基因烟草对TMV的抗病性增强,防效最高达54.25%。转基因烟草在生长上也具有一定优势,生长15 d的根长最高为野生型的1.7倍,移栽后60 d的株高、鲜重、干重最高分别为野生型烟草的1.4、1.7和1.8倍。     

Root system analysis of seedlings of seven tree species from a tropical dry forest in Mexico

Summary Root attributes of tree seedlings of seven species from the tropical deciduous forest along the Pacific Coast of Mexico are described using morphometirc root system analysis. Mean relative growth rate, root/shoot ratios, specific root length, root density, mean number of roots tips and root length/leaf area ratio were determined in seedlings grown for 35 days inside growth chambers. All the species had low relative growth rates, low root/shoot ratios and low root densities (<0.5 cm/cm³). The species associated with disturbed habitats, in contrast to the species characteristic of undisturbed areas, presented small seeds, a dichotomous root branching pattern and large specific root length. No relationship was found between seed size and mean relative growth rate among the species studied.