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461.
Key message
Rubisco activase of plants evolved in a stepwise manner without losing its function to adapt to the major evolutionary events including endosymbiosis and land colonization.Abstract
Rubisco activase is an essential enzyme for photosynthesis, which removes inhibitory sugar phosphates from the active sites of Rubisco, a process necessary for Rubisco activation and carbon fixation. The gene probably evolved in cyanobacteria as different species differ for its presence. However, the gene is present in all other plant species. At least a single gene copy was maintained throughout plant evolution; but various genome and gene duplication events, which occurred during plant evolution, increased its copy number in some species. The exons and exon–intron junctions of present day higher plant’s Rca, which is conserved in most species seem to have evolved in charophytes. A unique tandem duplication of Rca gene occurred in a common grass ancestor, and the two genes evolved differently for gene structure, sequence, and expression pattern. At the protein level, starting with a primitive form in cyanobacteria, RCA of chlorophytes evolved by integrating chloroplast transit peptide (cTP), and N-terminal domains to the ATPase, Rubisco recognition and C-terminal domains. The redox regulated C-terminal extension (CTE) and the associated alternate splicing mechanism, which splices the RCA-α and RCA-β isoforms were probably gained from another gene in charophytes, conserved in most species except the members of Solanaceae family.462.
Jianjun Hu Dillirani Nagarajan Quanguo Zhang Jo-Shu Chang Duu-Jong Lee 《Biotechnology advances》2018,36(1):54-67
Pigments (mainly carotenoids) are important nutraceuticals known for their potent anti-oxidant activities and have been used extensively as high end health supplements. Microalgae are the most promising sources of natural carotenoids and are devoid of the toxic effects associated with synthetic derivatives. Compared to photoautotrophic cultivation, heterotrophic cultivation of microalgae in well-controlled bioreactors for pigments production has attracted much attention for commercial applications due to overcoming the difficulties associated with the supply of CO2 and light, as well as avoiding the contamination problems and land requirements in open autotrophic culture systems. In this review, the heterotrophic metabolic potential of microalgae and their uses in pigment production are comprehensively described. Strategies to enhance pigment production under heterotrophic conditions are critically discussed and the challenges faced in heterotrophic pigment production with possible alternative solutions are presented. 相似文献
463.
Effect of alteration of charged residues at the N termini of signal peptides on protein export in Bacillus subtilis. 总被引:1,自引:0,他引:1
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The role of positively charged residues at the N termini of signal peptides in protein export has been studied in Bacillus subtilis. Bacillus signal peptides (alkaline protease [Apr] and neutral protease [Npr] from Bacillus amyloliquefaciens) were altered and fused to mature levansucrase (Lvs). The effects of the various alterations on the export of Lvs in B. subtilis were determined. The replacement of positively charged residues with neutral residues in both Apr and Npr signal peptides resulted in a slight defect in the export of Lvs from B. subtilis. Introduction of a negatively charged residue (aspartic acid) at the N terminus of Npr signal peptide blocked the export of Lvs. However, Apr signal peptide with a net charge of -3 (three aspartic acid residues) was still functional. 相似文献
464.
Krishnanand Nagarajan Sathish Kumar Marimuthu Selvamani Palanisamy Latha Subbiah 《International journal of peptide research and therapeutics》2018,24(1):19-33
Antibiotics have saved several millions of lives, but its persistent use of antibiotics in the treatment of various infections, whether bacterial, fungal, viral or parasitic has lead to the development of antibiotic resistance. The rapid emergence of antibiotic resistant strains poses a serious challenge to existing antimicrobial therapies. Due to the increase in drug-resistant pathogens and failure of antibiotics the urgent need for the discovery of novel antimicrobials has been continuously emphasized in the global forum. Here we review about antimicrobial peptides (AMPs), their structural insights and recent developments. We had summarized the major classes, mechanism of action and biophysical parameters that modulate therapeutic potency of AMPs. Also, we had briefed the challenges involved in developing therapeutic peptides and the global market potential for peptide therapeutics. 相似文献
465.
High resolution [31P] nuclear magnetic resonance (NMR) spectroscopy was used to investigate the changes in phosphate metabolism and intracellular pH in intact root segments of relatively osmotic stress sensitive species maize (Zea mays L) and insensitive species pearl millet (Pennisetron americanum (L) Leeke) exposed to hyper osmotic shock. The results were used to understand the adaptive mechanism of the two species. The hyper osmotic shock resulted in large build-up of phosphocholine and decrease in glucose 6-phosphate (G-6P) and UDPG levels in both the crops. The osmotic shock produced a large vacuolar alkalinization and decrease in pH across tonoplast membrane in maize roots. However, the roots of pearl millet were able to adapt to the stress and maintained pH gradient across tonoplast with marginal vacuolar alkalinization. This may be attributed to the sustained activity of primary tonoplast pumps and increased activity of H+-ATPase that normally maintain pH gradient across tonoplast. 相似文献
466.
Sathya Narayanan Nagarajan Sandeep Upadhyay Yogesh Chawla Shazia Khan Saba Naz Jayashree Subramanian Sheetal Gandotra Vinay Kumar Nandicoori 《The Journal of biological chemistry》2015,290(15):9626-9645
The essential mycobacterial protein kinases PknA and PknB play crucial roles in modulating cell shape and division. However, the precise in vivo functional aspects of PknA have not been investigated. This study aims to dissect the role of PknA in mediating cell survival in vitro as well as in vivo. We observed aberrant cell shape and severe growth defects when PknA was depleted. Using the mouse infection model, we observe that PknA is essential for survival of the pathogen in the host. Complementation studies affirm the importance of the kinase, juxtamembrane, and transmembrane domains of PknA. Surprisingly, the extracytoplasmic domain is dispensable for cell growth and survival in vitro. We find that phosphorylation of the activation loop at Thr172 of PknA is critical for bacterial growth. PknB has been previously suggested to be the receptor kinase, which activates multiple kinases, including PknA, by trans-phosphorylating their activation loop residues. Using phospho-specific PknA antibodies and conditional pknB mutant, we find that PknA autophosphorylates its activation loop independent of PknB. Fluorescently tagged PknA and PknB show distinctive distribution patterns within the cell, suggesting that although both kinases are known to modulate cell shape and division, their modes of action are likely to be different. This is supported by our findings that expression of kinase-dead PknA versus kinase-dead PknB in mycobacterial cells leads to different cellular phenotypes. Data indicate that although PknA and PknB are expressed as part of the same operon, they appear to be regulating cellular processes through divergent signaling pathways. 相似文献
467.
Numerous methods are available to compare results of multiple microarray studies. One of the simplest but most effective of these procedures is to examine the overlap of resulting gene lists in a Venn diagram. Venn diagrams are graphical ways of representing interactions among sets to display information that can be read easily. Here we propose a simple but effective web application creating Venn diagrams from two or three gene lists. Each gene in the group list has link to the related information in NCBI's Entrez Nucleotide database. AVAILABILITY: GeneVenn is available for free at http://mcbc.usm.edu/genevenn/ 相似文献
468.
Nagarajan SR Devadas B Malecha JW Lu HF Ruminski PG Rico JG Rogers TE Marrufo LD Collins JT Kleine HP Lantz MK Zhu J Green NF Russell MA Landis BH Miller LM Meyer DM Duffin TD Engleman VW Finn MB Freeman SK Griggs DW Williams ML Nickols MA Pegg JA Shannon KE Steininger C Westlin MM Nickols GA Keene JL 《Bioorganic & medicinal chemistry》2007,15(11):3783-3800
The integrin alpha(v)beta(3), vitronectin receptor, is expressed in a number of cell types and has been shown to mediate adhesion of osteoclasts to bone matrix, vascular smooth muscle cell migration, and angiogenesis. We recently disclosed the discovery of a tripeptide Arg-Gly-Asp (RGD) mimic, which has been shown to be a potent inhibitor of the integrin alpha(v)beta(3) and has excellent anti-angiogenic properties including its suppression of tumor growth in animal models. In other investigations involving RGD mimics, only compounds containing the S-isomers of the beta-amino acids have been shown to be potent. We were surprised to find the potencies of analogs containing enantiomerically pure S-isomers of beta-amino acids which were only marginally better than the corresponding racemic mixtures. We therefore synthesized RGD mimics containing R-isomers of beta-amino acids and found them to be relatively potent inhibitors of alpha(v)beta(3). One of the compounds was examined in tumor models in mice and has been shown to significantly reduce the rate of growth and the size of tumors. 相似文献
469.
Plant growth promoting rhizobacteria such as Azospirillum brasilense are agronomically important as they are frequently used for crop inoculation. But adverse factors such as increasing soil
salinity limit their survival, multiplication and phytostimulatory effect. In order to understand the role of the genes involved
in the adaptation of A. brasilense Sp7 to salt stress, a mutant library (6,800 mutants) was constructed after random integration of a mini-Transposon Tn5 derivative
containing a promoterless gusA and oriV. The library was screened for salt stress inducible Gus activity on minimal malate agar medium containing NaCl and 5-bromo-4-chloro-3-indolyl-β-d-glucuronide. Salt stress responsiveness of the promoters was estimated by quantifying GusA activity in the presence and absence
of NaCl stress using p-nitrophenyl-β-d-glucuronide as a substrate. In 11 mutants showing high levels of gusA expression in the presence of salt-stress, the partial nucleotide sequence of the DNA region flanking the site of Tn5 insertion
was determined and analysed using the NCBI-BLAST programs. Similarity searches revealed that 10 out of the 11 genes sequenced
showed notable similarity with genes involved in functions related to modulation in the composition of exopolysaccharides,
capsular polysaccharides, lipopolysaccharides, peptidoglycan and lipid bilayer of the cell envelope. Induction of cell envelope
related genes in response to salt stress and salt sensitive phenotype of several mutants in A. brasilense indicate a prominent role of cell envelope in salt-stress adaptation. 相似文献
470.
Shanthi Nagarajan Sugunadevi Sakkiah 《Journal of biomolecular structure & dynamics》2019,37(9):2394-2403
Kinesin-5 (Eg-5), microtubule motor protein, is one of the emerging drug targets in cancer research. Several inhibitors have been reported to bind the hEg-5 “motor domain” in two different locations that are potentially allosteric. Interestingly, the crystal structure of Eg-5 bound to benzimidazole unveils two chemically different allosteric pockets (PDB ID: 3ZCW). The allosteric modulators inhibit Eg-5 activity by causing conformational changes that affect nucleotide turnover rate. In the present work, three allosteric inhibitors were simulated along with the substrate nucleotides (ADP and ATP) to capture conformation changes induced by the allosteric inhibitors. To analyze the allosteric inhibition mechanism, we used dynamics cross-correlation, principal component analysis (PCA), and enthalpic calculations. The loop L5 interaction is determined by the type of substrate bind at the nucleotide binding site. The SW-II flexibility increased upon dual allosteric inhibition by SB-743921 and 6a. The ionic interaction between R221-E116 is observed only in the presence of two allosteric inhibitors. Also, we noticed that the α2/α3 helical orientation is responsible for the SW-1 loop position and substrate binding. Our simulation data suggest the critical chemical features required to block the motor domain by the allosteric inhibitors. The results summarized in this work will help the researchers to design better therapeutic agents targeting hEg-5.
Communicated by Ramaswamy H. Sarma 相似文献