Floral development and expression of floral homeotic genes are influenced by cytokinins

Tobacco plants that are somatic mosaics for the expression of a cytokinin-synthesizing gene have viviparous leaves. Epiphyllous buds can be either vegetative or floral. Floral adventitious buds can be either normal or abnormal. Abnormalities of floral development correlate with: (i) a local activation of the cytokinin-synthesizing gene, (ii) a drastic increase in floral cytokinin content, and (iii) a decrease in the steady-state levels of mRNA homologues of the homeotic genes DEFA , GLO and PLENA of Antirrhinum majus . Thus, these data show in planta that cytokinins, a class of phytohormones, are able to alter the development of floral organs and to decrease the expression of three homeotic floral genes.     

Hormonal changes during flower development in floral tissues of Lilium

Much effort has been focussed on better understanding the key signals that modulate floral senescence. Although ethylene is one of the most important regulators of floral senescence in several species, Lilium flowers show low sensitivity to ethylene; thus their senescence may be regulated by other hormones. In this study we have examined how (1) endogenous levels of hormones in various floral tissues (outer and inner tepals, androecium and gynoecium) vary throughout flower development, (2) endogenous levels of hormones in such tissues change in cut versus intact flowers at anthesis, and (3) spray applications of abscisic acid and pyrabactin alter flower longevity. Results show that floral tissues behave differently in their hormonal changes during flower development. Cytokinin and auxin levels mostly increased in tepals prior to anthesis and decreased later during senescence. In contrast, levels of abscisic acid increased during senescence, but only in outer tepals and the gynoecium, and during the latest stages. In addition, cut flowers at anthesis differed from intact flowers in the levels of abscisic acid and auxins in outer tepals, salicylic acid in inner tepals, cytokinins, gibberellins and jasmonic acid in the androecium, and abscisic acid and salicylic acid in the gynoecium, thus showing a clear differential response between floral tissues. Furthermore, spray applications of abscisic acid and pyrabactin in combination accelerated the latest stages of tepal senescence, yet only when flower senescence was delayed with Promalin. It is concluded that (1) floral tissues differentially respond in their endogenous variations of hormones during flower development, (2) cut flowers have drastic changes in the hormonal balance not only of outer and inner tepals but also of androecium and gynoecium, and (3) abscisic acid may accelerate the progression of tepal senescence in Lilium.     

Metabolic changes associated with bud break induced by thidiazuron

Bud break in apple (Golden Delicious,Malus domestica Borkh) was induced by thidiazuron (N-phenyl-N-1,2,3-thidiazol-5-ylurea). In control and thidiazuron-treated shoots, higher amounts of soluble carbohydrates (sorbitol, fructose, glucose, sucrose) and galacturonic acid were found in the phloem, but higher amounts of starch and cell wall polysaccharides, including cellulose and xylose, were found in the xylem. A decrease in soluble carbohydrates and starch in both phloem and xylem was associated with induction of bud break by thidiazuron. However, little change in cell wall polysaccharides was found. Total carbohydrates were higher in the upper than in the lower portion of shoots. The breaking of dormancy by thidiazuron was also associated with an increase in organic acid content and respiration in buds. KCN inhibited bud respiration during all stages of development. Organic acid content was inversely related to carbohydrate content in developing buds. Axes contained more carbohydrates and organic acids than did scales.     

Protein changes associated with induced resistance of Neisseria gonorrhoeae to killing by human serum are relatively minor

Serum-susceptible (SS) Neisseria gonorrhoeae were induced to resistance (SR) to complement-mediated killing by fresh human serum (FHS) by a small-Mr factor(s) from guinea-pig blood in 3 h at 37 degrees C, but not in the presence of bacteriostatic concentrations of chloramphenicol or neomycin, indicating that proteins mediated the acquisition of resistance. SDS-PAGE protein profiles of lysates of equal numbers of gonococci showed only two qualitative differences between SR and SS organisms, both in minor components (a protein A of about 205 kDa in the former and not the latter and vice versa for a protein B of about 16 kDa). Many proteins, however, including the three principal outer-membrane proteins, were present in larger amounts in SR gonococci. The lack of major changes in proteins when resistance is acquired was confirmed by immunoblotting the two protein profiles with the IgG of hyper-immune rabbit anti-SR and anti-SS sera, of rabbit anti-SR serum after absorption by SS organisms and of FHS used alone and after absorption with SS organisms. The IgM of FHS, which is responsible for most of the bactericidal activity, showed only faint reactions with a few proteins common to both SS and SR gonococci and no reactions when the FHS was absorbed with SS gonococci. This is in contrast to the strong and different reactions given with lipopolysaccharide (LPS) components of SS and SR organisms, which, prepared from the former organisms, neutralize the bactericidal activity of FHS. Hence, the relatively small protein changes accompanying induction are less likely to be directly responsible for serum resistance than the more profound LPS changes.     

Regulation of cell proliferation patterns by homeotic genes during Arabidopsis floral development

The shoot apical meristem of Arabidopsis thaliana consists of three cell layers that proliferate to give rise to the aerial organs of the plant. By labeling cells in each layer using an Ac-based transposable element system, we mapped their contributions to the floral organs, as well as determined the degree of plasticity in this developmental process. We found that each cell layer proliferates to give rise to predictable derivatives: the L1 contributes to the epidermis, the stigma, part of the transmitting tract and the integument of the ovules, while the L2 and L3 contribute, to different degrees, to the mesophyll and other internal tissues. In order to test the roles of the floral homeotic genes in regulating these patterns of cell proliferation, we carried out similar clonal analyses in apetala3-3 and agamous-1 mutant plants. Our results suggest that cell division patterns are regulated differently at different stages of floral development. In early floral stages, the pattern of cell divisions is dependent on position in the floral meristem, and not on future organ identity. Later, during organogenesis, the layer contributions to the organs are controlled by the homeotic genes. We also show that AGAMOUS is required to maintain the layered structure of the meristem prior to organ initiation, as well as having a non-autonomous role in the regulation of the layer contributions to the petals.     

Neuropeptide changes in the suprachiasmatic nucleus are associated with the development of hypertension

ABSTRACT

Human postmortem studies as well as experimental animal studies indicate profound changes in neuropeptide expression in the suprachiasmatic nucleus (SCN) in several pathological conditions including hypertension. In addition, animal experimental observations show that the SCN peptides, vasopressin (AVP) and vasoactive intestinal peptide (VIP) are essential for adequate rhythmicity. These data prompted us to investigate whether changes in these neuronal populations could be the cause or consequence of hypertension. Changes in blood pressure and levels of neuropeptide expression in the SCN were determined during development of hypertension in spontaneously hypertensive rats (SHR), in 2K1C reno-vascular induced hypertensive animals and their respective controls. During the pre-hypertensive stage (5 weeks of age), the VIP and AVP content was higher and the somatostatin (SOM) content was lower in the SHR SCN. At the onset of hypertension (12 weeks of age), when blood pressure levels had just reached about 140 mmHg, AVP and SOM content in the SCN was not different anymore in SHRs compared to control, but VIP was still higher. After 16 weeks, the AVP content was decreased, but SOM was increased and the overall level of VIP in the SCN was still higher in SHRs compared to controls. None of the aforementioned changes in the SCN was observed after induction of hypertension in the 2K1C model. However, while VIP was increased in the NTS projecting medial region of the SCN in SHR animals only after the establishment of hypertension, VIP was decreased in the same region in the 2K1C induced hypertensive rats. Consequently, the present findings confirm previous studies in human and rat indicating that changes in the SCN are strongly associated with the development of hypertension. In addition, the changes in peptide content in the 2K1C animals indicate that the SCN is also able to respond to increases in blood pressure.     

Differential expression of phenylalanine ammonia-lyase genes in barley induced by fungal infection or elicitors

Gene-specific probes were used to assess the expression patterns of four different phenylalanine ammonia-lyase ( pal ) genes in infected or elicitor-treated leaves and suspension-cultured cells of barley. Genes corresponding to hpal2 , hpal3 , hpal4 , and hpal6 were all induced by mercuric chloride and fungal infection by Bipolaris sorokiniana Sacc. (Shoem.) in barley ( Hordeum vulgare L. cv. Pokko) leaves, but with considerable variation in their expression level and timing. The expression patterns of hpal2 and hpal6 were similar, both showing a rapid, strong induction after treatment with mercuric chloride and a slower induction after fungal inoculation, whereas the more divergent hpal3 was induced at a later time and at a lower level after both treatments. Hpal4 was expressed with timing like that of hpal2 and hpal6 in infected or mercuric chloride-treated leaves but its expression was much weaker. Hpal2 and hpal4 were induced in elicitor-treated, suspension-cultured barley cells, whereas the expression of hpal3 was nearly undetectable, and hpal6 was strongly and constitutively present. All pal genes except hpal4 were developmentally regulated, but differentially expressed in various barley tissues. The results suggest that the four pal genes studied here might be responsible for the activation of different branches in the phenylpropanoid biosynthesis of barley.     

Compositional changes associated with plasma membrane thickening during floral induction of spinach

Floral induction in the long-day plant spinach ( Spinacia oleracea L. cv. Nobel) was accompanied by a thickening of the plasma membrane. Densitometry analyses showed that the light space of the dark-light-dark pattern of the membrane was not changed upon photoinduction. Rather, the increase was due to an enhancement of the dark layer adjacent to the cell wall. Parallel analyses of protein and phospholipid composition revealed no marked changes in protein composition or biosynthetic rate, protein phosphorylation, glycolipids and/or phospholipids as a result of the 24 h of continuous light sufficient to induce flowering. Photoinduction, however, was accompanied by an increase in the relative amount of plasma membrane sterols which may be related to the membrane thickening.     

Selected clinicopathologic changes associated with experimentally induced Fascioloides magna infection in white-tailed deer.

Six white-tailed deer (Odocoileus virginianus), less than one year of age, were divided into two groups of three each and administered 50, or 500 metacercariae of ascioloides magna. All six deer became infected. Three additional deer of the same age were uninoculated controls. All deer were monitored for up to 43 weeks after inoculation to investigate changes in weight, selected hematologic values, and blood chemistry values. Although clinical disease was not evident in the infected deer, a significant reduction (p less than .01) in hemoglobin and packed cell volume was detected throughout the experiment. A significant elevation (p less than .01) in the total serum protein level was detected in both infected groups from 0 to 5 months after inoculation. Increases were present in the beta and gamma globulin fractions. No differences (p greater than .05) were detected in the serum calcium, magnesium, or phosphorus levels, or in body weights between infected and uninfected control groups.     

Control of flower development and phyllotaxy by meristem identity genes in antirrhinum.

The flower meristem identity genes floricaula (flo) and squamosa (squa) promote a change in phyllotaxy from spiral to whorled in Antirrhinum. To determine how this might be achieved, we have performed a combination of morphological, genetic, and expression analyses. Comparison of the phenotypes and RNA expression patterns of single and double mutants with the wild type showed that flo and squa act together to promote flower development but that flo is epistatic to squa with respect to early effects on phyllotaxy. We propose that a common process underlies the phyllotaxy of wildtype, flo, and squa meristem development but that the relative timing of primordium initiation or growth is altered. This process depends on two separable events: setting aside zones for potential primordium initiation and partitioning these zones into discrete primordia. Failure of the second event can lead to the formation of continuous double spirals, which are occasionally seen in flo mutants.     

Modulations in gene expression and mapping of genes associated with cyst nematode infection of soybean

Infection of the soybean root by the soybean cyst nematode (SCN) (Heterodera glycines Ichinohe) induces a well-documented, yet poorly understood, response by the host plant. The plant response, involving the differentiation of a feeding structure, or "syncytium," facilitates the feeding and reproduction of the nematode to the detriment of the host. We used a genetic system involving a single dominant soybean gene conferring susceptibility to an inbred nematode strain, VL1, to characterize the nematode-host interaction in susceptible line PI 89008. The restriction fragment length polymorphism marker pB053, shown to map to a major SCN resistance locus, cosegregates with resistance among F2 progeny from the PI 89008 x PI 88287 cross. Cytological examination of the infection process confirmed that syncytium development in this genetic system is similar to that reported by others who used noninbred nematode lines. Our study of infected root tissue in the susceptible line PI 89008 revealed a number of genes enhanced in expression. Among these are catalase, cyclin, elongation factor 1alpha, beta-1,3-endoglucanase, hydroxy-methylglutaryl coenzyme A reductase, heat shock protein 70, late embryonic abundant protein 14, and formylglycinamidine ribonucleotide synthase, all of which we have genetically positioned on the public linkage map of soybean. Formylglycinamidine ribonucleotide synthase was found to be tightly linked with a major quantitative trait locus for SCN resistance. Our observations are consistent with the hypothesis proposed by others that feeding site development involves the dramatic modulation of gene expression relative to surrounding root cells.