Assessment of biological activities of chitosan Schiff base tagged with medicinal plants

A chitosan Schiff base with an aromatic aldehyde was synthesized and characterized by FTIR and NMR spectroscopies. Furthermore, the degree of substitution was calculated based on the ratios of the area of the proton of the imine (A_imine) and the area of the peak of the proton of the pyranose ring (A_H-2). The antimicrobial activities were determined against bacterial and fungal strains, as well as multiple drug-resistant (MDR) bacteria. The chitosan Schiff base was also tagged with medicinal plants, for example, Curcuma longa, Peganum harmala, Lepidium sativam, and cruciferous vegetables, and the biological activities determined against pathogenic bacterial and fungal strains. The chitosan Schiff base showed maximum zone of inhibition of 22 mm against Staphylococcus aureus with a minimum zone of inhibition of 15 mm against Bacillus cereus. The chitosan Schiff base was fused with C longa, isothiocyanates and a combined mixture of P harmala and L sativam that has shown activities against Escherichia coli with a zone of inhibition of 28, 24, and 30 mm, respectively. The Schiff base of chitosan fused with medicinal plants also showed significant inhibitory activities against MDR bacteria.     

In vitro selection for salt tolerance in crop plants: Theoretical and practical considerations

Summary In recent years attempts have been made to supplement traditional breeding for the production of salt-tolerant plants with variability existing in cell culture. The potential causes suggested as an explanation for the limited success of the in vitro approach include: a) lack, or loss during selection, of regeneration capability; b) the development of epigenetically adapted cells; c) lack of correlation between the mechanisms of tolerance operating in cultured cells and mechanisms that operate in cells in the intact plant; and d) multigenicity of salt tolerance. The recent successful production of healthy, fertile, and genetically stable salt-tolerant regenerants from cells obtained from highly morphogenic explants which are selected early in culture (using one-step or short-term strategies) for salt tolerance, together with the demonstration that salt-sensitive plants can become tolerant by mutations in one or few genes, suggest that some of the potential limitations can be overcome and that some of them may not exist at all.     

Pollen production in some plant taxa with a supposed role in allergy in Eastern India

This paper deals with the production of pollen grains per anther per flower of 15 probably allergenic pollen producing angiospermic plant taxa growing in Eastern India. The selected plant taxa includesAilanthus excelsa, Alstonia scholaris, Argemone mexicana, Azadirachta indica, Cassia alata, C. siamea, Dalbergia sissoo, Holarrhena pubescens, Lagerstroemia speciosa, Madhuca indica, Milletia pinnata, Mimusops elengi, Morus alba, M. indica andMurraya paniculata. Among the investigated taxa,A. excelsa produces the highest number of pollen grains (1635180) followed byC. siamea (1589245) andA. mexicana (463800). The production of pollen grains is lowest inH. pubescens (2500), followed byA. scholaris (5175),A. indica (6220) andM. paniculata (11200).     

Tuning of color contrast signals to visual sensitivity maxima of tree shrews by three Bornean highland Nepenthes species

Three species of Nepenthes pitcher plants (Nepenthes rajah, Nepenthes lowii and Nepenthes macrophylla) specialize in harvesting nutrients from tree shrew excreta in their pitchers. In all three species, nectaries on the underside of the pitcher lid are the focus of the tree shrews' attention. Tree shrews are dichromats, with visual sensitivity in the blue and green wavebands. All three Nepenthes species were shown to produce visual signals, in which the underside of the pitcher lid (the area of highest nectar production) stood out in high contrast to the adjacent area on the pitcher (i.e., was brighter), in the blue and green wavebands visible to the tree shrews. N. rajah showed the tightest degree of “tuning,” notably in the green waveband. Conversely, pitchers of Nepenthes burbidgeae, a typical insectivorous species sympatric with N. rajah, did not produce a color pattern tuned to tree shrew sensitivity maxima.     

Biological methods for speciation of heavy metals: different approaches

Heavy metals are found in their different forms in the environment. The distribution, mobility, and toxicity of metals are strongly related to these different forms. This necessitates the exploration of different methods for the remediation and speciation of heavy metals. Some direct and indirect physico-chemical methods such as filtration, chemical precipitation, ion-exchange, electro deposition, and membrane systems have been used for the last four decades. However, it is only in last few years that reliable biological methods have also been used. The biological methods include the use of microorganisms (fungi, algae, bacteria), plants (live or dead) and biopolymers. The use of these methods for the speciation of heavy metals is reviewed here.     

A new species of Callispa Baly (Coleoptera,Chrysomelidae, Cassidinae,Callispini) infesting coconut?palm ( Cocos nucifera L.) in India

Callispa keram sp. n. infesting coconut palm (Cocos nucifera L.) in Kerala, India is described and illustrated. Livistona chinensis R.Br. and Syagrus romanzoffiana (Cham.) Glassman are reported as additional host plants.     

华南地区22种园林植物耐旱性分级筛选

以华南地区22种常见园林植物为研究对象，研究人工模拟干旱胁迫环境对植物叶片叶绿素、丙二醛、过氧化物酶、相对电导率等生理指标的影响，通过主成分分析、聚类分析对22种植物耐旱性进行综合分析评价和耐旱等级划分。结果表明：(1) 在干旱梯度胁迫期间，植物叶片的叶绿素含量总体上呈不同程度的下降趋势，少数呈上升趋势，丙二醛含量和相对电导率均呈不同程度的上升趋势，多数植物过氧化物酶活性呈不同程度先升后降趋势，少数呈持续上升趋势。(2) 22种植物耐旱性分为3个等级：A级强耐旱植物4种，包括灰莉(Fagraea ceilanica)、鸭脚木(Schefflera octophylla)、桂花(Osmanthus fragrans var. fragrans)、鸢尾(Iris tectorum)；B级中耐旱植物6种，包括翠芦莉(Ruellia simplex)、栀子花(Gardenia jasminoides)、变叶木(Codiaeum variegatum)、红车(Syzygium hancei)、红背桂(Excoecaria cochinchinen)、茉莉花(Jasminum sambac)；C级不耐旱植物12种，包括福建茶(Carmona microphylla)、米仔兰(Aglaia odorata)、大红花(Hibiscus rosa-sinensis)、琴叶珊瑚(Jatropha integerrima)、龙船花(Ixora chinensis)、黄蝉(Allamanda schottii)、假连翘(Duranta erecta)、红檵木(Loropetalum chinense var. rubrum)、紫薇(Lagerstroemia indica)、风车草(Cyperus involucratus)、小花月季(Rosa chinensis var. minim)、铜钱草(Hydrocotyle chinensis)。