SummaryThe role of glutamine synthetase (GS; EC 6.3.1.2) was studied in wheat. GS isoforms were separated by HPLC and the two major leaf isoforms (cytosolic GS1 and chloroplastic GS2) were found to change in content and activity throughout plant development. GS2 dominated activity in green, rapidly photosynthesising leaves compared to GS1 which was a minor component. GS2 remained the main isoform in flag leaves at the early stages of grain filling but GS1 activity increased as the leaves aged. During senescence, there was a decrease in total GS activity which resulted largely from the loss of GS2 and thus GS 1 became a greater contributor to total GS activity. The changes in the activities of the GS isoforms were mirrored by the changes in GS proteins measured by western blotting. The changes in GS during plant development reflect major transitions in metabolism from a photosynthetic leaf (high GS2 activity) towards a senescencing leaf (relatively high GS1 activity). It is likely that, during leaf maturation and subsequently senescence, GS1 is central for the efficient reassimilation of ammonium released from catabolic reactions when photosynthesis has declined and remobilisation of nitrogen is occurring. Preliminary analysis of transgenic wheat lines with increased GS1 activity in leaves showed that they develop an enhanced capacity to accumulate nitrogen in the plant, mainly in the grain, and this is accompanied by increases in root and grain dry matter. The possibility that the manipulation of GS may provide a means of enhancing nitrogen use in wheat is discussed.
The genetics underlying onion development are poorly understood. Here the characterization of onion homologs of Arabidopsis photoperiodic flowering pathway genes is reported with the end goal of accelerating onion breeding programs by understanding the genetic basis of adaptation to different latitudes. The expression of onion GI, FKF1 and ZTL homologs under short day (SD) and long day (LD) conditions was examined using quantitative reverse transcription-PCR (qRT-PCR). The expression of AcGI and AcFKF1 was examined in onion varieties which exhibit different daylength responses. Phylogenetic trees were constructed to confirm the identity of the homologs. AcGI and AcFKF1 showed diurnal expression patterns similar to their Arabidopsis counterparts, while AcZTL was found to be constitutively expressed. AcGI showed similar expression patterns in varieties which exhibit different daylength responses, whereas AcFKF1 showed differences. It is proposed that these differences could contribute to the different daylength responses in these varieties. Phylogenetic analyses showed that all the genes isolated are very closely related to their proposed homologs. The results presented here show that key genes controlling photoperiodic flowering in Arabidopsis are conserved in onion, and a role for these genes in the photoperiodic control of bulb initiation is predicted. This theory is supported by expression and phylogenetic data.
SummaryThe rRNA depurination activities of five ribosomeInactivating proteins (RIPs) were compared in vitro using yeast and tobacco leaf ribosomee as substrates. All of the RIPs (pokeweed antlvirel protein (PAP), dianthin 32, trltin, barley RIP end ricin A-chain) were active on yeast ribosomes. PAP and dlanthin 32 were highly active and ricin A-chain weekly active on tobacco ribosomes, whereas trltin and barley RIP were inactive. PAP and dlanthin 32 were highly effective in inhibiting the formation of local lesions caused by tobacco mosaic virus (TMV) on tobacco leaves, whereas tritin, barley RIP and ricin A-chain were ineffective. The apparent anomaly between the in vitro rRNA depurinatlon activity, but lack of antiviral activity of ricin A-chain was further Investigated by assaying for rRNA depurinstion in situ following the topical application of the RIP to leaves. No activity was detected, a finding consistent with the apparent lack of antlviral activity of this RIP. Thus, it is concluded that there is a positive correlation between RIP-catalyeed depurination of tobacco ribosomes and antlviral activity which gives strong support to the hypothesis that the antiviral activity of RIPs works through ribosome inactivation.
The evidence that FLOWERING LOCUS T (FT) protein, and its paralog TWIN SISTER OF FT, act as the long-distance floral stimulus, or at least that they are part of it in diverse plant species, has attracted much attention in recent years. Studies to understand the physiological and molecular apparatuses that integrate spatial and temporal signals to regulate developmental transitions in plants have occupied countless scientists and have resulted in an unmanageably large amount of research data. Analysis of these data has helped to identify multiple systemic florigenic and antiflorigenic regulators. This study gives an overview of the recent research on gene products, phytohormones and other metabolites that have been demonstrated to have florigenic or antiflorigenic functions in plants.
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