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41.
Current state and perspectives in hydrogen production by Escherichia coli: roles of hydrogenases in glucose or glycerol metabolism 总被引:1,自引:0,他引:1
Maeda Toshinari Tran Kien Trung Yamasaki Ryota Wood Thomas K. 《Applied microbiology and biotechnology》2018,102(5):2041-2050
Applied Microbiology and Biotechnology - Escherichia coli has been a robust host strain for much biological research, in particular, research in metabolic engineering, protein engineering, and... 相似文献
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SptP,a Salmonella typhimurium type III-secreted protein,inhibits the mitogen-activated protein kinase pathway by inhibiting Raf activation 总被引:2,自引:3,他引:2
Salmonella has developed ways to modulate host cellular response in order to survive. Although the steps required for such modulation have been incompletely characterized, there is increasing evidence for a role for SptP, a type III secretion protein. In part, the actions of SptP are thought to be mediated through its reported inhibition of the extracellular-regulated kinase (ERK) MAP kinase pathway. In the present studies, a series of transfections were performed in which various constitutively activated components of the MAP kinase pathway were co-transfected with SptP in order to determine the mechanism by which SptP inhibits this MAP kinase activation. SptP was found to inhibit the activation of ERK stimulated by both a constitutively active form of Ras and a partially activated form of Raf-1 containing a phospho-mimetic mutation (Raf Y340D). In contrast, the activation of ERK by constitutively active forms of MAP kinase kinase (MEK) was not inhibited, suggesting that the actions of SptP were mediated by Raf-1. In order to determine how SptP might interfere with activation of Raf, we utilized a membrane-localized form of Raf. Constitutive membrane-localization of Raf (RafCAAX), resulting in partial activation, did not prevent inhibition by SptP. However, introduction of an additional, partially activating (Y340D) phospho-mimetic mutation, to RafCAAX, dramatically reduced the ability of SptP to inhibit Raf action. Comparison of SptP mutants, lacking either GTPase-activating protein (GAP) activity or tyrosine phosphatase activity, further suggested that SptP inhibits both the membrane localization and subsequent phosphorylation required for activation of Raf. Both tyrosine phosphatase activity and GAP activity were responsible for SptP inhibition of Raf(Y340D)-induced ERK activation, but only GAP activity was responsible for inhibition of the membrane localized forms of Raf-1. To assess the biological significance of SptP, we examined tumour necrosis factor (TNF)-alpha induction following Salmonella infection. SptP gene deletion enhanced the capacity of Salmonella to induce TNF-alpha secretion following infection of J774A.1 macrophage cells. 相似文献
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Cell migration and invasion requires the precise temporal and spatial orchestration of a variety of biological processes. Filaments of polymerized actin are critical players in these diverse processes, including the regulation of cell anchorage points (both cell-cell and cell-extracellular matrix), the uptake and delivery of molecules via endocytic pathways and the generation of force for both membrane protrusion and retraction. How the actin filaments are specialized for each of these discrete functions is yet to be comprehensively elucidated. The cytoskeletal tropomyosins are a family of actin associating proteins that form head-to-tail polymers which lay in the major groove of polymerized actin filaments. In the present review we summarize the emerging isoform-specific functions of tropomyosins in cell migration and invasion and discuss their potential roles in the specialization of actin filaments for the diverse cellular processes that together regulate cell migration and invasion.Key words: tropomyosin, actin, migration, invasion, cytoskeleton, actin dynamics, adhesionActin is the most abundant protein in eukaryotic cells and is critical for maintaining structural integrity. The polymerization of globular (G)-actin monomers forms actin filaments (F-actin),1 which play a role in diverse and complex cellular functions including intercellular transport of organelles and vesicles,2,3 cytokinesis,4 apoptosis5 and cell motility.6 Intricate details describing the molecular scale interactions between regulatory proteins and actin have been extensively investigated but the mechanistic control of diverse actin filament functions remain largely unclear. Recent improvements in analysis techniques7 and the use of physiologically relevant models of 3D cell culturing8 have now begun to reveal mechanisms of actin cytoskeleton regulation. Accruing evidence suggests that the actin decorating protein tropomyosin is a key regulator of actin filament specialization. Of particular interest is the impact that tropomyosin regulation has on actin filament activity during cell migration and invasion that underpins immunological cell homing, development, wound healing and metastasis. 相似文献
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Kibler KV Gomez CE Perdiguero B Wong S Huynh T Holechek S Arndt W Jimenez V Gonzalez-Sanz R Denzler K Haddad EK Wagner R Sékaly RP Tartaglia J Pantaleo G Jacobs BL Esteban M 《PloS one》2011,6(11):e25674
While as yet there is no vaccine against HIV/AIDS, the results of the phase III Thai trial (RV144) have been encouraging and suggest that further improvements of the prime/boost vaccine combination of a poxvirus and protein are needed. With this aim, in this investigation we have generated derivatives of the candidate vaccinia virus vaccine vector NYVAC with potentially improved functions. This has been achieved by the re-incorporation into the virus genome of two host range genes, K1L and C7L, in conjunction with the removal of the immunomodulatory viral molecule B19, an antagonist of type I interferon action. These novel virus vectors, referred to as NYVAC-C-KC and NYVAC-C-KC-ΔB19R, have acquired relevant biological characteristics, giving higher levels of antigen expression in infected cells, replication-competency in human keratinocytes and dermal fibroblasts, activation of selective host cell signal transduction pathways, and limited virus spread in tissues. Importantly, these replication-competent viruses have been demonstrated to maintain a highly attenuated phenotype. 相似文献
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Naomi Sugimori J. Luis Espinoza Ly Quoc Trung Akiyoshi Takami Yukio Kondo Dao Thi An Motoko Sasaki Tomohiko Wakayama Shinji Nakao 《PloS one》2015,10(4)
Benfotiamine is a synthetic thiamine analogue that stimulates transketolase, a cellular enzyme essential for glucose metabolism. Currently, benfotiamine is used to treat diabetic neuropathy. We recently reported that oral benfotiamine induced a temporary but remarkable recovery from acute myeloid leukemia in an elderly patient who was ineligible for standard chemotherapy due to dementia and renal failure. In the present study we present evidences that benfotiamine possess antitumor activity against leukemia cells. In a panel of nine myeloid leukemia cell lines benfotiamine impaired the viability of HL-60, NB4, K562 and KG1 cells and also inhibited the growing of primary leukemic blasts. The antitumor activity of benfotiamine is not mediated by apoptosis, necrosis or autophagy, but rather occurs though paraptosis cell death induction. Mechanistic studies revealed that benfotiamine inhibited the activity of constitutively active ERK1/2 and concomitantly increased the phosphorylation of JNK1/2 kinase in leukemic cells. In addition, benfotiamine induced the down regulation of the cell cycle regulator CDK3 which resulted in G1 cell cycle arrest in the sensitive leukemic cells. Moreover, combination index studies showed that benfotiamine enhanced the antiproliferative activities of cytarabine against leukemia cells. These findings suggest that benfotiamine has antitumor therapeutic potential. 相似文献
49.
Centromere and telomere sequence alterations reflect the rapid genome evolution within the carnivorous plant genus Genlisea 下载免费PDF全文
Trung D. Tran Hieu X. Cao Gabriele Jovtchev Pavel Neumann Petr Novák Miloslava Fojtová Giang T.H. Vu Jiří Macas Jiří Fajkus Ingo Schubert Joerg Fuchs 《The Plant journal : for cell and molecular biology》2015,84(6):1087-1099
Linear chromosomes of eukaryotic organisms invariably possess centromeres and telomeres to ensure proper chromosome segregation during nuclear divisions and to protect the chromosome ends from deterioration and fusion, respectively. While centromeric sequences may differ between species, with arrays of tandemly repeated sequences and retrotransposons being the most abundant sequence types in plant centromeres, telomeric sequences are usually highly conserved among plants and other organisms. The genome size of the carnivorous genus Genlisea (Lentibulariaceae) is highly variable. Here we study evolutionary sequence plasticity of these chromosomal domains at an intrageneric level. We show that Genlisea nigrocaulis (1C = 86 Mbp; 2n = 40) and G. hispidula (1C = 1550 Mbp; 2n = 40) differ as to their DNA composition at centromeres and telomeres. G. nigrocaulis and its close relative G. pygmaea revealed mainly 161 bp tandem repeats, while G. hispidula and its close relative G. subglabra displayed a combination of four retroelements at centromeric positions. G. nigrocaulis and G. pygmaea chromosome ends are characterized by the Arabidopsis‐type telomeric repeats (TTTAGGG); G. hispidula and G. subglabra instead revealed two intermingled sequence variants (TTCAGG and TTTCAGG). These differences in centromeric and, surprisingly, also in telomeric DNA sequences, uncovered between groups with on average a > 9‐fold genome size difference, emphasize the fast genome evolution within this genus. Such intrageneric evolutionary alteration of telomeric repeats with cytosine in the guanine‐rich strand, not yet known for plants, might impact the epigenetic telomere chromatin modification. 相似文献
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Gordon Y. C. Cheung Dorothee Kretschmer Anthony C. Duong Anthony J. Yeh Trung V. Ho Yan Chen Hwang-Soo Joo Barry N. Kreiswirth Andreas Peschel Michael Otto 《PLoS pathogens》2014,10(8)
Methicillin-resistant Staphylococcus aureus (MRSA) is a leading cause of morbidity and death. Phenol-soluble modulins (PSMs) are recently-discovered toxins with a key impact on the development of Staphylococcus aureus infections. Allelic variants of PSMs and their potential impact on pathogen success during infection have not yet been described. Here we show that the clonal complex (CC) 30 lineage, a major cause of hospital-associated sepsis and hematogenous complications, expresses an allelic variant of the PSMα3 peptide. We found that this variant, PSMα3N22Y, is characteristic of CC30 strains and has significantly reduced cytolytic and pro-inflammatory potential. Notably, CC30 strains showed reduced cytolytic and chemotactic potential toward human neutrophils, and increased hematogenous seeding in a bacteremia model, compared to strains in which the genome was altered to express non-CC30 PSMα3. Our findings describe a molecular mechanism contributing to attenuated pro-inflammatory potential in a main MRSA lineage. They suggest that reduced pathogen recognition via PSMs allows the bacteria to evade elimination by innate host defenses during bloodstream infections. Furthermore, they underscore the role of point mutations in key S. aureus toxin genes in that adaptation and the pivotal importance PSMs have in defining key S. aureus immune evasion and virulence mechanisms. 相似文献