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991.
Yun-Soo Yeo S. Eric Nybo Amar G. Chittiboyina Aruna D. Weerasooriya Yan-Hong Wang Elsa Góngora-Castillo Brieanne Vaillancourt C. Robin Buell Dean DellaPenna Mary Dawn Celiz A. Daniel Jones Eve Syrkin Wurtele Nick Ransom Natalia Dudareva Khaled A. Shaaban Nidhi Tibrewal Suman Chandra Troy Smillie Ikhlas A. Khan Robert M. Coates David S. Watt Joe Chappell 《The Journal of biological chemistry》2013,288(5):3163-3173
992.
Chandra L. Theesfeld Randolph Y. Hampton 《The Journal of biological chemistry》2013,288(12):8519-8530
Insulin-induced gene proteins (INSIGs) function in control of cellular cholesterol. Mammalian INSIGs exert control by directly interacting with proteins containing sterol-sensing domains (SSDs) when sterol levels are elevated. Mammalian 3-hydroxy-3-methylglutaryl (HMG)-CoA reductase (HMGR) undergoes sterol-dependent, endoplasmic-reticulum (ER)-associated degradation (ERAD) that is mediated by INSIG interaction with the HMGR SSD. The yeast HMGR isozyme Hmg2 also undergoes feedback-regulated ERAD in response to the early pathway-derived isoprene gernanylgeranyl pyrophosphate (GGPP). Hmg2 has an SSD, and its degradation is controlled by the INSIG homologue Nsg1. However, yeast Nsg1 promotes Hmg2 stabilization by inhibiting GGPP-stimulated ERAD. We have proposed that the seemingly disparate INSIG functions can be unified by viewing INSIGs as sterol-dependent chaperones of SSD clients. Accordingly, we tested the role of sterols in the Nsg1 regulation of Hmg2. We found that both Nsg1-mediated stabilization of Hmg2 and the Nsg1-Hmg2 interaction required the early sterol lanosterol. Lowering lanosterol in the cell allowed GGPP-stimulated Hmg2 ERAD. Thus, Hmg2-regulated degradation is controlled by a two-signal logic; GGPP promotes degradation, and lanosterol inhibits degradation. These data reveal that the sterol dependence of INSIG-client interaction has been preserved for over 1 billion years. We propose that the INSIGs are a class of sterol-dependent chaperones that bind to SSD clients, thus harnessing ER quality control in the homeostasis of sterols. 相似文献
993.
994.
DNA manipulation routinely requires competent bacteria that can be made using one of numerous methods. To determine the best methods, we compared four commonly used chemical methods (DMSO, MgCl2–CaCl2, CaCl2 and Hanahan''s methods) on frequently used Escherichia coli (E. coli) strains: DH5α, XL-1 Blue, SCS110, JM109, TOP10 and BL21-(DE3)-PLysS. Hanahan''s method was found to be most effective for DH5α, XL-1 Blue and JM109 strains (P<0.05), whilst the CaCl2 method was best for SCS110, TOP10 and BL21 strains (P<0.05). The use of SOB (super optimal broth) over LB [Luria–Bertani (broth)] growth media was found to enhance the competency of XL-1 Blue (P<0.05), dampened JM109′s competency (P<0.05), and had no effect on the other strains (P>0.05). We found no significant differences between using 45 or 90 s heat shock across all the six strains (P>0.05). Through further optimization by means of concentrating the aliquots, we were able to get further increases in transformation efficiencies. Based on the optimized parameters and methods, these common laboratory E. coli strains attained high levels of TrE (transformation efficiency), thus facilitating the production of highly efficient and cost-effective competent bacteria. 相似文献
995.
Krishnendu Acharya Swarnendu Chandra Nilanjan Chakraborty Rupa Acharya 《Archives Of Phytopathology And Plant Protection》2013,46(14):1335-1342
The study was aimed to search out the probable molecule behind the activation of a broad spectrum resistance during Pseudomonas aeruginosa WS-1 mediated induced systemic resistance (ISR) in Capsicum annuum where plants were challenged inoculated with its pathogen Colletotrichum capsici 24 h after induction of ISR. On the fourth day after pathogen inoculation a significant increase of pathogenesis-related (PR) proteins, other defence enzymes and phenolics as well as a two-fold increase of nitric oxide (NO) a potent defence signalling molecule were observed. Treatment of the host with NO donor also induced the same defence molecule in a similar manner. Results suggest the possible signalling role of NO in ISR during crosstalk between ISR inducing agent and pathogen within the host system. 相似文献
996.
997.
In the present study, major constraints for codon and amino acid usage of Sulfolobus acidocaldarius, Sulfolobus solfataricus, Sulfolobus tokodali, Sulfolobus islandis and 6 other isolates from islandicus species of genus Sulfolobus were investigated. Correspondence analysis revealed high significant correlation between the major trend of synonymous codon usage and gene expression level, as assessed by the “Codon Adaptation Index” (CAI). There is a significant negative correlation between Nc (Effective number of codons) and CAI demonstrating role of codon bias as an important determinant of codon usage. The significant correlation between major trend of synonymous codon usage and GC3s (G + C at third synonymous position) indicated dominant role of mutational bias in codon usage pattern. The result was further supported from SCUO (synonymous codon usage order) analysis. The amino acid usage was found to be significantly influenced by aromaticity and hydrophobicity of proteins. However, translational selection which causes a preference for codons that are most rapidly translated by current tRNA with multiple copy numbers was not found to be highly dominating for all studied isolates. Notably, 26 codons that were found to be optimally used by genes of S. acidocaldarius at higher expression level and its comparative analysis with 9 other isolates may provide some useful clues for further in vivo genetic studies on this genus. 相似文献
998.
Mahesh Chandra Patra Sukanta Kumar Pradhan Surya Narayan Rath 《Journal of biomolecular structure & dynamics》2013,31(7):1118-1131
GPR7 and GPR8 are recently deorphanized G-protein-coupled receptors that are implicated in the regulation of neuroendocrine function, feeding behavior, and energy homeostasis. Neuropeptide B (NPB) and neuropeptide W (NPW) are two membrane-bound hypothalamic peptides, which specifically antagonize GPR7 and GPR8. Despite years of research, an accurate estimation of structure and molecular recognition of these neuropeptide systems still remains elusive. Herein, we investigated the structure, orientation, and interaction of NPB and NPW in a dipalmitoylphosphatidylcholine bilayer using long-range molecular dynamics (MD) simulation. During 30-ns simulation, membrane-embedded helical axes of NPB and NPW tilted 30 and 15°, respectively, from the membrane normal in order to overcome possible hydrophobic mismatch with the lipid bilayer. The calculation of various structural parameters indicated that NPW is more rigid and compact as compared to NPB. Qualitatively, the peptides exhibited flexible N-terminal (residues 1–12) and rigid C-terminal α-helical parts (residues 13–21), confirming previous NMR data. A strong electrostatic attraction between C-termini and headgroup atoms caused translocation of the peptides towards lower leaflet of the bilayer. The stabilizing hydrogen bonds (H-bonds) between phosphate groups and Trp1, Lys3, and Arg15 of the peptides played important roles for membrane anchoring. MD simulations of Alanine (Ala) mutants revealed that WYK->Ala variant of NPB/NPW lacked crucial H-bond interactions with phospholipid headgroups and also caused severe misfolding in NPB. Altogether, the knowledge of preferred structural fold and interaction of neuropeptides within the membrane bilayer will be useful to develop synthetic agonist or antagonist peptides for GPR7 and GPR8. 相似文献
999.
Swetha Vijayakrishnan Rohini Qamra Chandra S. Verma Ranjan Sen Shekhar C. Mande 《Journal of biomolecular structure & dynamics》2013,31(4):365-375
Abstract The ubiquitously occurring chaperonins consist of a large tetradecameric Chaperonin-60, forming a cylindrical assembly, and a smaller heptameric Chaperonin-10. For a functional protein folding cycle, Chaperonin-10 caps the cylindrical Chaperonin-60 from one end forming an asymmetric complex. The oligomeric assembly of Chaperonin-10 is known to be highly plastic in nature. In Mycobacterium tuberculosis, the plasticity has been shown to be modulated by reversible binding of divalent cations. Binding of cations confers rigidity to the metal binding loop, and also promotes stability of the oligomeric structure. We have probed the conformational effects of cation binding on the Chaperonin-10 structure through fluorescence studies and molecular dynamics simulations. Fluorescence studies show that cation binding induces reduced exposure and flexibility of the dome loop. The simulations corroborate these results and further indicate a complex landscape of correlated motions between different parts of the molecule. They also show a fascinating interplay between two distantly spaced loops, the metal binding “dome loop” and the GroEL-binding “mobile loop”, suggesting an important cation-mediated role in the recognition of Chaperonin-60. In the presence of cations the mobile loop appears poised to dock onto the Chaperonin-60 structure. The divalent metal ions may thus act as key elements in the protein folding cycle, and trigger a conformational switch for molecular recognition. 相似文献
1000.
Hussain S Khan A Gul S Resmini M Verma CS Thomas EW Brocklehurst K 《Biochemistry》2011,50(49):10732-10742
Understanding the roles of noncovalent interactions within the enzyme molecule and between enzyme and substrate or inhibitor is an essential goal of the investigation of active center chemistry and catalytic mechanism. Studies on members of the papain family of cysteine proteinases, particularly papain (EC 3.4.22.2) itself, continue to contribute to this goal. The historic role of the catalytic site Cys/His ion pair now needs to be understood within the context of multiple dynamic phenomena. Movement of Trp177 may be necessary to expose His159 to solvent with consequent decrease in its degree of electrostatic solvation of (Cys25)-S(-). Here we report an investigation of this possibility using computer modeling of quasi-transition states and pH-dependent kinetics using 3,3'-dipyridazinyl disulfide, its n-propyl and phenyl derivatives, and 4,4'-dipyrimidyl disulfide as reactivity probes that differ in the location of potential hydrogen-bonding acceptor atoms. Those interactions that influence ion pair geometry and thereby catalytic competence, including by transmission of the modulatory effect of a remote ionization with pK(a) 4, were identified. A key result is the correlation between the kinetic influence of the modulatory trigger of pK(a) 4 and disruption of the hydrogen bond donated by the indole N-H of Trp177, the hydrophobic shield of the initial "intimate" ion pair. This hydrogen bond is accepted by the amide O of Gln19-a component of the oxyanion hole that binds the tetrahedral species formed from the substrate during the catalytic act. The disruption would be expected to contribute to the mobility of Trp177 and possibly to the effectiveness of the binding of the developing oxyanion. 相似文献