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Ravi R. Sonani Rajesh P. Rastogi Richard Cogdell Bruno Robert Datta Madamwar 《Photosynthesis research》2018,136(2):171-181
Femtosecond transient absorption was used to study excitation decay in monomeric and trimeric cyanobacterial Photosystem I (PSI) being prepared in three states: (1) in aqueous solution, (2) deposited and dried on glass surface (either conducting or non-conducting), and (3) deposited on glass (conducting) surface but being in contact with aqueous solvent. The main goal of this contribution was to determine the reason of the acceleration of the excitation decay in dried PSI deposited on the conducting surface relative to PSI in solution observed previously using time-resolved fluorescence (Szewczyk et al., Photysnth Res 132(2):111–126, 2017). We formulated two alternative working hypotheses: (1) the acceleration results from electron injection from PSI to the conducting surface; (2) the acceleration is caused by dehydration and/or crowding of PSI proteins deposited on the glass substrate. Excitation dynamics of PSI in all three types of samples can be described by three main components of subpicosecond, 3–5, and 20–26 ps lifetimes of different relative contributions in solution than in PSI-substrate systems. The presence of similar kinetic components for all the samples indicates intactness of PSI proteins after their deposition onto the substrates. The kinetic traces for all systems with PSI deposited on substrates are almost identical and they decay significantly faster than the kinetic traces of PSI in solution. We conclude that the accelerated excitation decay in PSI-substrate systems is caused mostly by dense packing of proteins. 相似文献
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Guilherme H.M. Salvador Rafael J. Borges Bruno Lomonte Matthew R. Lewin Marcos R.M. Fontes 《Biochimica et Biophysica Acta (BBA)/General Subjects》2021,1865(7):129913
BackgroundThe treatment for snakebites is early administration of antivenom, which can be highly effective in inhibiting the systemic effects of snake venoms, but is less effective in the treatment of extra-circulatory and local effects. To complement standard-of-care treatments such as antibody-based antivenoms, natural and synthetic small molecules have been proposed for the inhibition of key venom components such as phospholipase A2 (PLA2) and PLA2-like toxins. Varespladib (compound LY315920) is a synthetic molecule developed and clinically tested aiming to block inflammatory cascades of several diseases associated with high PLA2s. Recent studies have demonstrated this molecule is able to potently inhibit snake venom catalytic PLA2 and PLA2-like toxins.MethodsIn vivo and in vitro techniques were used to evaluate the inhibitory effect of varespladib against MjTX-I. X-ray crystallography was used to reveal details of the interaction between these molecules. A new methodology that combines crystallography, mass spectroscopy and phylogenetic data was used to review its primary sequence.ResultsVarespladib was able to inhibit the myotoxic and cytotoxic effects of MjTX-I. Structural analysis revealed a particular inhibitory mechanism of MjTX-I when compared to other PLA2-like myotoxin, presenting an oligomeric-independent function.ConclusionResults suggest the effectiveness of varespladib for the inhibition of MjTX-I, in similarity with other PLA2 and PLA2-like toxins.General significanceVarespladib appears to be a promissory molecule in the treatment of local effects led by PLA2 and PLA2-like toxins (oligomeric dependent and independent), indicating that this is a multifunctional or broadly specific inhibitor for different toxins within this superfamily. 相似文献
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Benefits to plants in facultative ant protection mutualisms are highly variable. This allows examination of the sources of this variation and the mechanisms by which ants protect plants. We studied opportunistic interactions between ants and an extrafloral nectary-bearing vine, Dioscorea praehensilis, during 3 different years. Variation in plant protection among years was striking. Several factors affected the effectiveness of the biotic defence. Stems recently emerged from the underground tuber were self-supporting, contacting no other plants and encountering few foraging ants. Stems then became lianescent, and contact with supporting plants greatly increased ant recruitment. Both species and number of ant workers influenced the effect of ants on the major herbivore, the chrysomelid beetle Lilioceris latipennis. Protective actions included limitation of oviposition (reduction in the number of eggs laid on the plant) and predation, leading to increased larval mortality. The probability of successful predation was strongly dependent on larval size. If temporarily low ant-patrolling activity allows larvae to grow beyond a critical size, their mechanical (thick integument) or chemical (plant-derived compounds in a fecal shield) defences become more effective against ants. Secondary metabolites derived from the host plant thus appear to be important for the anti-predator mechanisms of this beetle, being necessary for its survival and reproduction on a host plant that actively recruits ants as a biotic defence against herbivores. 相似文献
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Derek Kennedy Juliet French Estelle Guitard Kelin Ru Bruno Tocque John Mattick 《Journal of cellular biochemistry》2002,84(1):173-187
The G3BP (ras‐GTPase‐Activating Protein SH3‐Domain‐Binding Protein) family of proteins has been implicated in both signal transduction and RNA‐metabolism. We have previously identified human G3BP‐1, G3BP‐2, and mouse G3BP‐2. Here, we report the cloning of mouse G3BP‐1, the discovery of two alternatively spliced isoforms of mouse, and human G3BP‐2 (G3BP‐2a and G3BP‐2b), and the chromosomal localisation of human G3BP‐1 and G3BP‐2, which map to 5q14.2‐5q33.3 and 4q12‐4q24 respectively. We mapped the rasGAP120 interactive region of the G3BP‐2 isoforms and show that both G3BP‐2a and G3BP‐2b use an N‐terminal NTF2‐like domain for rasGAP120 binding rather than several available proline‐rich (PxxP) motifs found in members of the G3BPs. Furthermore, we have characterized the protein expression of both G3BP‐1 and G3BP‐2a/b in adult mouse tissues, and show them to be both tissue and isoform specific. J. Cell. Biochem. 84: 173–187, 2002. © 2001 Wiley‐Liss, Inc. 相似文献
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Bruno Schnssnig 《Plant Systematics and Evolution》1923,72(6-8):199-222
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