Salsola
Correlation between Chenopodiacea/Amaranthacea pollen counts and allergic symptoms in Salsola kali monosensitized patients. (1/9)
We performed a prospective observational study to establish a relationship between pollen counts of Chenopodiacea/Amaranthacea and clinical symptoms of rhinoconjunctivitis and asthma in a group of monosensitised patients. MATERIAL AND METHODS: A total of 60 patients (19 with asthma) were included in the study. All patients collected daily symptom scores during the summer months of 1999, 2000 and 2001. The questionnaire included ocular, nasal and pulmonary symptoms. Pollen counts were expressed as pollen grains/m3. Symptom scores and pollen counts were correlated using correlation coefficients and Log transformed variables. RESULTS: In the 3 seasons studied we identified a peak of pollen and clinical symptoms in the second half of August and first half of September. In 1999, there was a significant positive correlation between total symptoms and daily pollen grains/m3 (p<0.005, r = 0.347). This correlation was not significant for the summers of 2000 and 2001. After further analysis, and by displacing one of both variables between 11 to 17 days, the correlation coefficients for total symptoms, improved for 1999 (r = 0. 744; p < 0.0001) and became significant for 2000 (r = 0. 521; p < 0.0001) and 2001 (r = 0.635; p < 0.0001). CONCLUSION: We identified a significant time lag between pollen counts and symptom scores in S. kali monosensitized patients. (+info)Spectroscopic study of the impact of arsenic speciation on arsenic/phosphorus uptake and plant growth in tumbleweed (Salsola kali). (2/9)
This manuscript reports the toxic effects of As2O3 (arsenic trioxide) and As2O5 (arsenic pentoxide) on S. kali as well as the arsenic and phosphate uptake and arsenic coordination within plant tissues. Plants were germinated and grown for 15 days on a Hoagland-modified medium containing either As(III) (arsenic trioxide) or As(V) (arsenic pentoxide). Subsequently, the seedlings were measured and analyzed using inductively coupled plasma optical emission spectroscopy and X-ray absorption spectroscopy techniques. Plants stressed with 2 mg L(-1) of whichever As(III) or As(V) concentrated 245 +/- 19, 30 +/- 1, and 60 +/- 3 mg As kg(-1) dry weight or 70 +/- 6, 10 +/- 0.3, and 27 +/- 3 mg As kg(-1) dry weight in roots, stems, and leaves, respectively. Arsenate was less toxic, and more As translocation occurred from the roots to the leaves. All treatments reduced P concentration at root level; however, only As(V) at 2 and 4 mg L(-1) reduced P concentration at leaf level. Regardless the arsenic species supplied to the plants, arsenic was found in plant tissues as As(III) coordinated to three sulfur ligands with an interatomic distance of approximately 2.25 angstroms. (+info)A plant-derived ligand favoring monomeric glucocorticoid receptor conformation with impaired transactivation potential attenuates collagen-induced arthritis. (3/9)
The glucocorticoid receptor (GR) is a transcription factor regulating its target genes either positively, through direct binding to the promoter of target genes, or negatively by the interference with the activity of transcription factors involved in proinflammatory gene expression. The well-known adverse effects of glucocorticoids are believed to be mainly caused by their GR-mediated gene-activating properties. Although dimerization of GR is thought to be essential for gene-activating properties, no compound has yet been described which selectively imposes GR monomer formation and interference with other transcription factors. In the present study, we report on a GR-binding, plant-derived compound with marked dissociative properties in rheumatoid arthritis fibroblast-like synoviocytes, which are important effector cells in inflammation and matrix degradation in rheumatoid arthritis. In addition, these findings could be extended in vivo in murine collagen-induced arthritis, in which joint inflammation was markedly inhibited without inducing hyperinsulinemia. Therefore, we conclude that GR monomers are sufficient for inhibition of inflammation in vivo. (+info)Allergy to Salsola Kali in a Salsola incanescens-rich area: role of extensive cross allergenicity. (4/9)
(+info)Compound A, a plant origin ligand of glucocorticoid receptors, increases regulatory T cells and M2 macrophages to attenuate experimental autoimmune neuritis with reduced side effects. (5/9)
(+info)Expression of the recombinant major allergen of Salsola kali pollen (Sal k 1) and comparison with its low-immunoglobulin E-binding mutant. (6/9)
(+info)Sal k 4, a new allergen of Salsola kali, is profilin: a predictive value of conserved conformational regions in cross-reactivity with other plant-derived profilins. (7/9)
The aim of this study was to investigate a new allergen of Salsola kali, Sal k 4, and to investigate the predictive value of the conserved conformational regions in cross-reactivity with other plant-derived profilins. The Sal k 4-coding sequence was cloned, expressed, and purified by one-step Ni2+ affinity chromatography to recover high-purity target protein. We assessed cross-reactivity and predicted conserved conformational regions among rSal k 4 and other plant-derived profilins. Immunodetection and inhibition assays using 30 individual sera from S. kali allergic patients indicated that purified rSal k 4 might be the same as that in the crude extract. The results of inhibition assays among rSal k 4 and other plant-derived profilins were in accordance with the homology of the predicted conserved conformational regions. Amino acid sequence homology analysis showed that a high degree of IgE cross-reactivity among plant-derived profilins might depend on the predicted conserved conformational regions. (+info)Does an expressed sequence tag (EST) library of Salsola iberica (tumbleweed) help to understand plant responses to environmental stresses? (8/9)
Weeds play an important role in agriculture and molecular techniques are useful to help understand traits that contribute to weediness and weeds' interactions with the environment. A total of 377 expressed sequence tags (ESTs) from a modest library were arranged into 227 unique fragments and 61 contigs, which consisted of two or more ESTs. From blastx results, we mapped and annotated unigenes using the gene ontology vocabulary according to biological process, cellular component and molecular function. These were then compared to a reference set of Arabidopsis thaliana sequences for statistically significant over- or underrepresented genes. The sequences were also compared against multiple protein databases for similarity of functional domains. Overall, the S. iberica sequences showed high similarity to response to stress, which included salt-induced proteins, betaine aldehydehyde dehydrogenase and calcium binding proteins. Only a modest number of transcripts were sequenced; however, the results presented here demonstrate the metabolic versatility of S. iberica in sub-optimal conditions that are likely to contribute to its cosmopolitan distribution. Here we propose that an EST library of an economically important weed species could be used to understand the weed's interactions with the environment. (+info)Salsola, also known as Russian thistle or tumbleweed, is not considered to have a direct medical relevance; however, it can cause allergic reactions in some individuals due to its pollen and can also impact public health indirectly through its role as an invasive species affecting agriculture and ecological systems.
"Salsola" is a term that refers to a genus of plants, rather than a medical concept. The plants in this genus are commonly known as Russell or Prickly Pear cactuses, and they are native to Asia, Africa, and Europe. They are not typically associated with medical definitions or conditions. If you have any questions about a specific medical term or condition, I would be happy to help you with that instead!
Chenopodiaceae is an obsolete family of flowering plants that included mostly xerophytic species, many of which are now classified in the family Amaranthaceae, characterized by alternate, simple leaves, small flowers with no petals, and distinctly swollen nodes.
Chenopodiaceae is a family of flowering plants, also known as goosefoot family. It includes a number of genera and species that are commonly found in various parts of the world, particularly in arid and semi-arid regions. The plants in this family are characterized by their fleshy leaves and stems, and tiny flowers that lack petals.
Some well-known genera in Chenopodiaceae include Chenopodium (goosefoot), Atriplex (saltbush), and Beta (beet). Many of the plants in this family have economic importance as food crops, ornamental plants, and sources of medicinal compounds. For example, beets, spinach, and chard are all members of Chenopodiaceae that are commonly consumed as vegetables.
It's worth noting that recent taxonomic revisions have led to some changes in the classification of this family, with many of its genera now being placed in other families such as Amaranthaceae. However, the name Chenopodiaceae is still widely used and recognized in the scientific literature.