Immunohistochemical localization of IAA and ABP1 in strawberry shoot apexes during floral induction

By using an anti-indole-acetic acid (anti-IAA) monoclonal antibody and an anti-auxin-binding protein 1 (anti-ABP1) polyclonal antibody, IAA and ABP1 were immunohistochemically localized in strawberry (Fragaria ananassa Duch.) shoot apexes during floral induction. The spatial distribution patterns of endogenous IAA and ABP1 and their dynamic changes during floral induction were investigated. In addition, the affect of 1-N-naphthylphtalamic acid (NPA) on IAA distribution during floral induction was also analyzed. The results showed that IAA was present in the shoot apexes throughout the floral induction process, gradually concentrating in the shoot apical meristem (SAM). The distribution of ABP1 and its dynamic changes were similar to those of IAA. In addition, the ABP1 immune signal in SAM gradually increased as floral induction developed. On a morphological level, these results indicate both the spatial distribution and dynamic changes in endogenous IAA and ABP1 during the floral induction process. The close correlation found between IAA and ABP1 indicates that a cooperation occurs during the regulation of floral induction. The results also suggest that IAA was the significant agent for floral induction, and that SAM might be the place of the main action. Treatment with NPA during floral induction prevented the accumulation of IAA in the SAM, delayed the process of floral differentiation and induced an abnormal flower development. It is likely that IAA in the shoot apex is produced in young leaves and transported through the vascular tissues to the SAM and other places of function. Finally, an appropriate amount of IAA in the SAM and normal polar auxin transport are essential for floral induction and differentiation in strawberries.     

The rates of shoot and root growth in intact plants of pea mutants in leaf morphology

Isogenic lines of pea (Pisum sativum L.) with the genetically determined changes in leaf morphology, afila (af) and tendril-less (tl), were used to study the relationship between shoot and root growth rates. The time-course of shoot and root growth was followed during the pre-floral period in the intact plants grown under similar conditions. The af mutation produced afila leaves without leaflets, whereas in the case of the tl mutations, tendrils were substituted with leaflets, and acacia-like leaves were developed. Due to the changes in leaf morphology caused by these mutations, pea genotypes differed in leaf area: starting from day 7, the leaf area was lower in the af plants and larger in the tl plants as compared to the wild-type plants. Such divergence was amplified in the course of plant development and reached its maximum immediately before the transition to flowering. Plants of isogenic lines did not notably differ in stem surface areas. In spite of significant difference in total leaf area, the wild type and tl plants did not differ in leaf dry weight. Starting from leaf 9, the af plants lagged behind two leaflet-bearing genotypes (wild type and tl) in leaf dry weight, whereas stem dry weight was similar in the wild type and tl forms and slightly lower in the af plants. Root dry weights were practically similar in the wild type and tl plants until flowering. The reduction of leaf area in the af plants drastically reduced root dry weight. In other words, the latter index was related to the total weight and total area of leaves and stems. The correlation analysis demonstrated an extremely low relationship between leaf and stem area and dry weight and those of roots early in plant development (when plants develop five to seven leaves). Later, immediately before flowering (nine to eleven leaves), root weight was positively related to leaf weight and area; however, stem area and root weight did not correlate. Thus, in three genotypes (wild type, af, and tl), at the end of their vegetative growth phase, leaf and root biomass accumulated in proportion, independently of leaf area expansion.     

Cloning and expression of the pea gene encoding SBP65, a seed-specific biotinylated protein

Besides biotin-dependent carboxylases, which play key roles in basic metabolism, SBP65 (seed biotinylated protein of 65 kDa of apparent molecular mass), an atypical biotinylated protein, has been described in pea plants. This seed-specific protein is devoid of any carboxylase activity, and shares many physiological and molecular features with late embryogenesis-abundant (Lea) proteins. In a first step toward understanding the role of this peculiar protein, we have demonstrated the role of abscisic acid (ABA) and of the osmotic environment on its expression using northern blot analysis from immature embryos cultured in vitro and germinating mature seeds. Moreover, the cloning and characterization of its gene (referred to as sbp gene) allowed us to define various potential cis-acting elements within the promoter region to account for the observed strict seed-specific expression. The results described in this paper are consistent with a model in which ABA regulates, at least in part, expression of this gene. However, unlike most lea genes, ABA regulation of the sbp gene seems to occur in a very restricted fashion, being confined only to particular stages of embryo development. Such a strict spatial and temporal expression pattern is dependent on the osmotic environment of the developing embryos and on tissue-specific factors, presumably preventing biotin depletion in cells requiring this essential cofactor for basic metabolic activity.     

The presence of a Sar1 gene family in Brassica campestris that suppresses a yeast vesicular transport mutation Sec12-1

Two new members (Bsar1a and Bsar1b) of the Sar1 gene family have been identified from a flower bud cDNA library of Brassica campestris and their functional characteristics were analyzed. The two clones differ from each other at 14 positions of the 193 amino acid residues deduced from their coding region. The amino acid sequences of Bsar1a and Bsar1b are most closely related to the Sar1 family, genes that function early in the process of vesicle budding from the endoplasmic reticulum (ER). The sequences contain all the conserved motifs of the Ras superfamily (G1–G4 motifs) as well as the distinctive structural feature near the C-terminus that is Sar1 specific. Our phylogenetic analysis confirmed that these two clones can indeed be considered members of the Sar1 family and that they have a close relationship to the ARF family. The Bsar1 proteins, expressed in Escherichia coli, cross-reacted with a polyclonal antibody prepared against Saccharomyces cerevisiae Sar1 protein. It also exhibited GTP-binding activity. Genomic Southern blot analysis, using the 3'-gene-specific regions of the Bsar1 cDNAs as probes, revealed that the two cDNA clones are members of a B. campestris Sar1 family that consists of 2 to 3 genes. RNA blot analysis, using the same gene-specific probes, showed that both genes are expressed with similar patterns in most tissues of the plant, including leaf, stem, root, and flower buds. Furthermore, when we placed the two Bsar1 genes under the control of the yeast pGK1 promoter into the temperature-sensitive mutant yeast strain S. cerevisiae Sec12-1, they suppressed the mutation which consists of a defect in vesicle transport. The amino acid sequence similarity, the GTP-binding activity, and the functional suppression of the yeast mutation suggest that the Bsar1 proteins are functional homologues of the Sar1 protein in S. cerevisiae and that they may perform similar biological functions.     

Involvement of Rhizobium leguminosarum nodulation genes in gene expression in pea root hairs

The mRNA population in pea root hairs was characterized by means of in vitro translation of total root hair RNA followed by 2-dimensional gel electrophoresis of the translation products. Root hairs contain several mRNAs not detectable in total RNA preparations from roots. Most of these root hair-specific mRNAs occur in elongating root hairs at higher levels than in mature root hairs. The expression of some genes in pea root hairs is typically affected by inoculation with Rhizobium leguminosarum. One gene, encoding RH-42, is specifically induced while the expression of another gene, encoding RH-44, is markedly enhanced. Using R. leguminosarum mutants it was shown that the nodC gene is required for the induction and enhancement of expression of the RH-42 and RH-44 genes, respectively, while the Rhizobium chromosomal gene pss1, involved in exopolysaccharide synthesis, is not essential. After induction of the nod genes with apigenin the bacteria excrete into the culture medium a factor that causes root hair deformation. This deformation factor stimulates the expression of the RH-44 gene but does not induce the expression of the gene encoding RH-42.     

Negative regulation of parathyroid hormone-related protein expression by steroid hormones

Elevated parathyroid hormone-related protein (PTHrP) is responsible for humoral hypercalcemia of malignancy (HHM), which is of clinical significance in treatment of terminal patients with malignancies. Steroid hormones were known to cause suppression of PTHrP expression. However, detailed studies linking multiple steroid hormones to PTHrP expression are lacking. Here we studied PTHrP expression in response to steroid hormones in four cell lines with excessive PTHrP production. Our study established that steroid hormones negatively regulate PTHrP expression. Vitamin D receptor, estrogen receptor α, glucocorticoid receptor, and progesterone receptor, were required for repression of PTHrP expression by the cognate ligands. A notable exception was the androgen receptor, which was dispensable for suppression of PTHrP expression in androgen-treated cells. We propose a pathway(s) involving nuclear receptors to suppress PTHrP expression.     

双孢蘑菇Septin基因Ab.Cdc3的克隆与分析

具有 GTPase 活性的 Septin蛋白广泛存在于除植物外的所有真核生物中,其功能多样。采用tBlastn将灰盖鬼伞Coprinus cinereus中与菌柄伸长相关的Septin蛋白Cc.Cdc3与双孢蘑菇基因组数据进行比对,在双孢蘑菇基因组中找到Cc.Cdc3同源蛋白编码基因Ab.Cdc3。生物信息学分析结果表明,Ab.Cdc3蛋白序列具有保守GTPase结构功能域。通过荧光定量PCR（quantitative real-time PCR,qRT-PCR）方法分析Ab.Cdc3在不同生长阶段的表达模式,结果显示该基因在子实体菌柄中表达量较菌丝、原基和菌盖中的表达量高;采后不同保藏时间样品Ab.Cdc3基因表达分析结果显示,在采后0h表达量显著高于采后12h和48h;这些结果为进一步研究该基因在双孢蘑菇生长发育中的功能提供参考。     

An ABI3-interactor of conifers responds to multiple hormones

CnAIP2 (Callitropsis nootkatensis ABI3-Interacting Protein 2) was previously identified as a protein that interacts with the yellow-cedar ABI3 protein. CnAIP2 plays important roles during several key transitions of the plant lifecycle and acts as a global regulator with functions opposite to those of ABI3 proteins. Here we report that the CnAIP2 gene promoter is strongly upregulated by all of the major plant hormones. Young Arabidopsis seedlings expressing a chimeric CnAIP2_pro-GUS construct were subjected to exogenously applied hormones; the maximum fold-enhancement of GUS activity was as high as 47-fold, and each hormone showed a distinctive cell/tissue-specific pattern of GUS induction. By far the greatest response was elicited by the synthetic auxin 2,4-D (47-fold induction); the other hormones tested stimulated GUS activities by 8- to 21-fold. The CnAIP2 promoter also responded to glucose and salt (NaCl), albeit to a lesser extent (2- to 3-fold induction). As well as acting in an antagonistic way to the global regulator ABI3, CnAIP2 appears to participate in multiple hormonal crosstalk pathways to carry out its functions.     

Effect of thyroid hormones on the gene expression of calcium transport systems in rat muscles

It has been previously shown that modification of thyroid hormone levels have a profound impact on cardiac function, predominantly through a direct regulation of the sarcoplasmic reticulum protein levels. Nevertheless, little is known about the regulation of calcium transport systems in skeletal muscle due to the altered concentration of thyroid hormones. Thus, the goal of our study was to find out whether altered thyroid status could change the gene expression of the Na(+)/Ca(2+) exchanger (NCX), the inositol 1,4,5-trisphosphate (IP(3)) receptors and ryanodine receptors (RyRs) in slow and fast skeletal muscles of rats. A hyperthyroid state was maintained in rats by triiodothyronine (T(3)) administration, while methimazole was employed for inducing hypothyroidism. After a period of 2-10 months of T(3) treatment we observed a significant increase in mRNA levels of the NCX, RyRs and IP(3) receptors. This increase was more pronounced in the slow soleus than in the fast extensor digitorum longus (EDL) muscle. It is tempting to speculate that thyroid hormones also alter calcium concentration and thus influence the process of excitation-contraction coupling in the skeletal muscle.     

源库关系改变对棉叶内源激素的影响

以中棉18号为材料,在大田条件下研究了摘蕾引起源库关系改变对主要源叶（对应的主茎叶和对位果枝叶）中内源激素的影响。结果表明;去蕾处理推迟了相应主茎叶和果枝叶中吲哚乙酸（IAA）峰出现,降低了玉米素及其核苷（Z ZR）含量,推迟了果枝叶中异戊烯基腺嘌呤及其核苷（iP iPA)的积累,提前了二氢玉米素及其核苷（DHZ DHZR）的积累,降低了脱落酸（ABA）含量。去除一个蕾对相应叶片内源激素的影响是短期的,随整株源库关系的协调,与对照趋同。激素的这种变化与叶片功能变化是一致的,表明棉花源库关系的协调不仅是物质上的关系,植物激素可能是其中重要的信息调控系统。     

微藻胞间植物激素甄别方法与研究进展

植物激素是一类微量的内源化合物,可能是微藻生命活动过程中的通用"语言".植物激素甄别是认知微藻群体感应和胞间通讯机制的关键.然而,由于植物激素具有超微量、性质复杂和干扰物质共存的特点,选择适宜的提取浓缩方法、提高检测灵敏度、减小基质效应和区分同分异构体仍是甄别植物激素的难点问题.本文综述了植物激素提取与检测的研究现状,...