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101.
Rumyana Karlova Sjef Boeren Walter van Dongen Mark Kwaaitaal Jose Aker Jacques Vervoort Sacco de Vries Professor 《Proteomics》2009,9(2):368-379
The Arabidopsis thaliana somatic embryogenesis receptor‐like kinase (SERK) family consists of five leucine‐rich repeat receptor‐like kinases (LRR‐RLKs) with diverse functions such as brassinosteroid insensitive 1 (BRI1)‐mediated brassinosteroid perception, development and innate immunity. The autophosphorylation activity of the kinase domains of the five SERK proteins was compared and the phosphorylated residues were identified by LC‐MS/MS. Differences in autophosphorylation that ranged from high activity of SERK1, intermediate activities for SERK2 and SERK3 to low activity for SERK5 were noted. In the SERK1 kinase the C‐terminally located residue Ser‐562 controls full autophosphorylation activity. Activation loop phosphorylation, including that of residue Thr‐462 previously shown to be required for SERK1 kinase activity, was not affected. In vivo SERK1 phosphorylation was induced by brassinosteroids. Immunoprecipitation of CFP‐tagged SERK1 from plant extracts followed by MS/MS identified Ser‐303, Thr‐337, Thr‐459, Thr‐462, Thr‐463, Thr‐468, and Ser‐612 or Thr‐613 or Tyr‐614 as in vivo phosphorylation sites of SERK1. Transphosphorylation of SERK1 by the kinase domain of the main brassinosteroid receptor BRI1 occurred only on Ser‐299 and Thr‐462. This suggests both intra‐ and intermolecular control of SERK1 kinase activity. Conversely, BRI1 was transphosphorylated by the kinase domain of SERK1 on Ser‐887. BRI1 kinase activity was not required for interaction with the SERK1 receptor in a pull down assay. 相似文献
102.
Chengfu Xu Xuequn Zhang Chaohui Yu Guohua Lu Shaohua Chen Liming Xu Wei Ding Qiaojuan Shi Youming Li Professor 《Proteomics》2009,9(2):409-419
Hepatic ischemia/reperfusion (I/R) injury is an inevitable consequence during liver surgery. Ischemic preconditioning (IPC) has been shown to protect the livers from I/R injury, partially mediated by preservation of hepatic ATP contents. However, the precise molecular mechanisms of these events remain poorly elucidated. In this study, liver proteomes of the mice subjected to I/R injury pretreated with or without IPC were analyzed using 2‐DE combined with MALDI‐TOF/TOF mass analysis. Twenty proteins showing more than 1.5‐fold difference were identified in the livers upon I/R injury. Among these proteins, four proteins were further regulated by IPC when compared with nonpretreated controls. One of these proteins, ATP synthase β subunit (ATP5β) catalyzes the rate‐limiting step of ATP formation. The expression level of ATP5β, which was further validated by Western blot analysis, was significantly decreased upon I/R injury while turned over by IPC pretreatment. Change pattern of hepatic ATP corresponded with that of ATP5β expression, indicating that increasing hepatic ATP5β expression might be a reason for ATP‐preserving effect of IPC. In summary, this study provided new clues for understanding the mechanisms of IPC against I/R injury. The protective role of ATP5β might give evidences for developing new therapeutic approaches against hepatic I/R injury. 相似文献
103.
Delineating the kinetic and thermodynamic factors which contribute to the stability of transmembrane β-barrels is critical to gain an in-depth understanding of membrane protein behavior. Human mitochondrial voltage-dependent anion channel isoform 2 (hVDAC-2), one of the key anti-apoptotic eukaryotic β-barrel proteins, is of paramount importance, owing to its indispensable role in cell survival. We demonstrate here that the stability of hVDAC-2 bears a strong kinetic contribution that is dependent on the absolute micellar concentration used for barrel folding. The refolding efficiency and ensuing stability is sensitive to the lipid-to-protein (LPR) ratio, and displays a non-linear relationship, with both low and high micellar amounts being detrimental to hVDAC-2 structure. Unfolding and aggregation process are sequential events and show strong temperature dependence. We demonstrate that an optimal lipid-to-protein ratio of 2600∶1 – 13000∶1 offers the highest protection against thermal denaturation. Activation energies derived only for lower LPRs are ∼17 kcal mol−1 for full-length hVDAC-2 and ∼23 kcal mol−1 for the Cys-less mutant, suggesting that the nine cysteine residues of hVDAC-2 impart additional malleability to the barrel scaffold. Our studies reveal that cysteine residues play a key role in the kinetic stability of the protein, determine barrel rigidity and thereby give rise to strong micellar association of hVDAC-2. Non-linearity of the Arrhenius plot at high LPRs coupled with observation of protein aggregation upon thermal denaturation indicates that contributions from both kinetic and thermodynamic components stabilize the 19-stranded β-barrel. Lipid-protein interaction and the linked kinetic contribution to free energy of the folded protein are together expected to play a key role in hVDAC-2 recycling and the functional switch at the onset of apoptosis. 相似文献
104.
105.
Teramoto T Kohno Y Mattoo P Markoff L Falgout B Padmanabhan R 《RNA (New York, N.Y.)》2008,14(12):2645-2656
Genomes of RNA viruses encounter a continual threat from host cellular ribonucleases. Therefore, viruses have evolved mechanisms to protect the integrity of their genomes. To study the mechanism of 3′-end repair in dengue virus-2 in mammalian cells, a series of 3′-end deletions in the genome were evaluated for virus replication by detection of viral antigen NS1 and by sequence analysis. Limited deletions did not cause any delay in the detection of NS1 within 5 d. However, deletions of 7–10 nucleotides caused a delay of 9 d in the detection of NS1. Sequence analysis of RNAs from recovered viruses showed that at early times, virus progenies evolved through RNA molecules of heterogeneous lengths and nucleotide sequences at the 3′ end, suggesting a possible role for terminal nucleotidyl transferase activity of the viral polymerase (NS5). However, this diversity gradually diminished and consensus sequences emerged. Template activities of 3′-end mutants in the synthesis of negative-strand RNA in vitro by purified NS5 correlate well with the abilities of mutant RNAs to repair and produce virus progenies. Using the Mfold program for RNA structure prediction, we show that if the 3′ stem–loop (3′ SL) structure was abrogated by mutations, viruses eventually restored the 3′ SL structure. Taken together, these results favor a two-step repair process: non-template-based nucleotide addition followed by evolutionary selection of 3′-end sequences based on the best-fit RNA structure that can support viral replication. 相似文献
106.
L. Selva Roselin Ming-Shen Lin Po-Hsun Lin Yung Chang Wen-Yih Chen Professor 《Biotechnology journal》2010,5(1):85-98
Isothermal titration calorimeters (ITCs) are thermodynamic instruments used for the determination of enthalpy changes in any physical/chemical reaction. This can be applied in various fields of biotechnology. This review explains ITC applications, especially in bioseparation, drug development and cell metabolism. In liquid chromatography, the separation/purification of specific proteins or polypeptides in a mixture is usually achieved by varying the adsorption affinities of the different proteins/polypeptides for the adsorbent under different mobile-phase conditions and temperatures. Using ITC analysis, the binding mechanism of proteins with adsorbent solid material is derived by elucidating enthalpy and entropy changes, which offer valuable guidelines for designing experimental conditions in chromatographic separation. The binding affinity of a drug with its target is studied by deriving binding enthalpy and binding entropy. To improve the binding affinity, suitable lead compounds for a drug can be identified and their affinity tested by ITC. Recently ITC has also been used in studying cell metabolism. The heat produced by animal cells in culture can be used as a primary indicator of the kinetics of cell metabolism, which provides key information for drug bioactivity and operation parameters for process cell culture. 相似文献
107.
We report that the monolayer phase diagram for binary mixtures of dimyristoylphosphatidylethanolamine (DMPE) and dihydrocholesterol (DChol) is largely unchanged when each phospholipid molecule is replaced by two myristic acid (MA) molecules or various mixtures of the lysophospholipid and myristic acid. The corresponding phase diagrams all show the formation of "condensed complexes" of DChol and lipid. The condensed complex stoichiometry is thus largely determined by the C14 fatty acid acyl chains, in this case about 4-4.6 per DChol molecule. 相似文献
108.
R.KpnI, an HNH superfamily REase, exhibits differential discrimination at non-canonical sequences in the presence of Ca2+ and Mg2+ 下载免费PDF全文
KpnI REase recognizes palindromic sequence, GGTAC↓C, and forms complex in the absence of divalent metal ions, but requires the ions for DNA cleavage. Unlike most other REases, R.KpnI shows promiscuous DNA cleavage in the presence of Mg2+. Surprisingly, Ca2+ suppresses the Mg2+-mediated promiscuous activity and induces high fidelity cleavage. To further analyze these unique features of the enzyme, we have carried out DNA binding and kinetic analysis. The metal ions which exhibit disparate pattern of DNA cleavage have no role in DNA recognition. The enzyme binds to both canonical and non-canonical DNA with comparable affinity irrespective of the metal ions used. Further, Ca2+-imparted exquisite specificity of the enzyme is at the level of DNA cleavage and not at the binding step. With the canonical oligonucleotides, the cleavage rate of the enzyme was comparable for both Mg2+- and Mn2+-mediated reactions and was about three times slower with Ca2+. The enzyme discriminates non-canonical sequences poorly from the canonical sequence in Mg2+-mediated reactions unlike any other Type II REases, accounting for the promiscuous behavior. R.KpnI, thus displays properties akin to that of typical Type II REases and also endonucleases with degenerate specificity in its DNA recognition and cleavage properties. 相似文献
109.
Dr. B. W. Kim Mr. E. H. Kim Mr. S. C. Lee Professor H. N. Chang 《Bioprocess and biosystems engineering》1993,8(5-6):263-269
Traditional application of computer to fermentation processes has focused on the measurement and control of parameters such as temperature, pH, vessel pressure, sparge rate, dissolved oxygen, substrate concentration, and product concentration. In a fed-batch reactor with the photosynthetic green sulfur bacterium Chlorobium thiosulfatophilum which converts hydrogen sulfide to elementary sulfur or sulfate, separate measurement of cell mass concentration and sulfur particle concentration turbidimetrically was difficult due to their combined contributions to the total turbidity. Instead of on-line measurement of many process variables, a model-based control of feed rate and illuminance was designed. Optimal operation condition relating feed rate vs. light intensity was obtained to suppress the accumulation of sulfate and sulfide, and to save light energy in a 4-1 photosynthetic fed-batch reactor. This relation was correlated with the inreasing cell mass concentration. A model which describes the cell growth by considering the light attenuation effects due to scattering and absorption, and to crowding effect of the cells, was established beforehand with the results from the experiments. Based on these optimal operating conditions and the cell growth model, automatic controls of feed rate and illuminance were carried out alternatively to the traditional application of computer to fermentation with on-line measurement, realtime response and adjustment of process variables.List of Symbols
F ml/min
Flow rate of gas mixture
-
hV lux
Average illuminance
-
Q mmol/(l h)
Removal rate of hydrogen sulfide
-
X mg protein/l
Cell mass concentration as protein
-
X
0 mg protein/l
Initial cell mass concentration
-
X
m mg protein/l
Maximum cell mass concentration
-
a h–1
Apparent specific growth rate 相似文献
110.
This study aimed to design novel nitrogen-rich heptazine derivatives as high energy density materials (HEDM) by exploiting
systematic structure–property relationships. Molecular structures with diverse energetic substituents at varying positions
in the basic heptazine ring were designed. Density functional techniques were used for prediction of gas phase heat of formation
by employing an isodesmic approach, while crystal density was assessed by packing calculations. The results reveal that nitro
derivatives of heptazine possess a high heat of formation and further enhancement was achieved by the substitution of nitro
heterocycles. The crystal packing density of the designed compounds varied from 1.8 to 2 g cm−3, and hence, of all the designed molecules, nitro derivatives of heptazine exhibit better energetic performance characteristics
in terms of detonation velocity and pressure. The calculated band gap of the designed molecules was analyzed to establish
sensitivity correlations, and the results reveal that, in general, amino derivatives possess better insensitivity characteristics.
The overall performance of the designed compounds was moderate, and such compounds may find potential applications in gas
generators and smoke-free pyrotechnic fuels as they are rich in nitrogen content. 相似文献