The manuscript collection of the Royal Canonry of Premonstratensians Library in Strahov, Prague, currently houses over three thousand manuscripts (plus almost 700 manuscript fragments). A catalogue by Bohumil Ryba helps us to find our bearings in the collection for shelf marks DF–DU. Shelf marks DA–DE have not to date been made available for printing. This study provides an inventory of early modern manuscripts compiled between 1526 and 1620 with shelf mark DA–DE.
Aqueous solutions of salicylic acid (SA) were applied to the foliage of 30-d-old plants of mustard (Brassica juncea Czern & Coss cv. Varuna). The plants sprayed with the lowest used concentration (10-5 M) of SA were healthier than those sprayed with water only or with higher concentrations of SA (10-4 or 10-3 M). 60-d-old plants possessed 8.4, 9.8, 9.3, 13.0 and 18.5 % larger dry mass, net photosynthetic rate, carboxylation efficiency, and activities of nitrate reductase and carbonic anhydrase over the control, respectively. Moreover, the number of pods and the seed yield increased by 13.7 and 8.4 % over the control. and Q. Fariduddin, S. Hayat, A. Ahmad.
Salicylic acid (SA) and nitric oxide (NO) form a new group of plant growth substances that cooperatively interact to promote plant growth and productivity. Water deficit (WD) stress is a major limiting factor for photosynthesis, which in turn limits crop yield. However, the mechanism of SA and NO in stimulating photosynthesis has not yet been elucidated. Therefore, in this study, we investigated the SA- and NO-mediated photosynthetic adaptability of maize seedlings to WD in terms of photosynthetic parameters, activities and mRNA levels of CO2 assimilation enzymes. Our results showed that SA alleviated the WD-induced reduction of photosynthetic performance. The activities of Rubisco and Rubisco activase enzymes increased significantly due to SA pretreatment. Moreover, higher transcription rates of Rbc L, ZmRCAα and ZmRCAβ mRNA further confirmed the effects of SA on CO2 assimilation. WD or SA-induced decreases or increases of CO2 assimilation ability were further decreased after c-PTIO addition., R. X. Shao, L. F. Xin, J. M. Guo, H. F. Zheng, J. Mao, X.P. Han, L. Jia, S. J. Jia, C. G. Du, R. Song, Q. H. Yang, R. W. Elmore., and Obsahuje bibliografii
The effects of drought oř salinity (NaCl) stress in combination wifh high irradiance (HI) were studied under the laboratory conditions, using young plants of a drought- resistant cultivar of Sorghum bicolor in order to understand leaf observed effects at the chloroplast level. Water potential and net photosynthetic rate (P^j) in leaves were analyzed in parallel with photosynthetic electron transport, electron spin resonance and chlorophyll-protein (CP) composition in chloroplasts isolated from these stressed leaves. The H1 slightly increased and electron transport activities of the irrigated plants, whereas drougbt and salinity stresses (leaf water potential lower than -1 MPa) decreased these activities. Under the combined effects of drought or salinity stress (200 mM NaCl) with HI the leaf Pjj was severely inhibited, as were photosystem (PS) 2 chloroplast electron transport activities (but not PS 1 activity). NaCl concentrations lower than 100 mM stimulated the electron transport activities in non-photoinhibited plants. A degradation of the PS 2 CFs and a decrease of ESR signál n were seen in the drought and salinity stressed plants afler HI.
The role of the antioxidant defense system in salt tolerance of Aeluropus littoralis has not been yet reported; therefore in the present study, the changes of catalase (CAT) activity in this halophyte plant was investigated and CAT gene was isolated. The leaves of treated and control plants were harvested at various times, starting 1 day prior to initiating treatment, then periodically at 72-h intervals for 21 days. The data collected showed that CAT activity increased significantly with time in plants treated with 200, 400, and 600 mM NaCl when compared with the control plants. Maximum enzyme activity was observed between the 6th and 12th day at all NaCl concentrations. CAT gene was isolated and cloned via pTZ57R/T cloning vector in Escherichia coli. CAT gene encoded 494 amino acids and had also high homology of 90, 87, 86, and 86% with CAT genes from Zea mays, Oryza sativa, Triticum aestivum, and Hordeum vulgare, respectively. and M. Modarresi, G. A. Nematzadeh, F. Moradian.