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891.
Patrick A. Frantom Yuliya BirmanBrittani N. Hays Ashley K. Casey 《Biochimica et Biophysica Acta - Proteins and Proteomics》2014,1844(10):1784-1789
Members of the DRE-TIM metallolyase superfamily rely on an active-site divalent cation to catalyze various reactions involving the making and breaking of carbon–carbon bonds. While the identity of the metal varies, the binding site is well-conserved at the superfamily level with an aspartic acid and two histidine residues acting as ligands to the metal. Previous structural and bioinformatics results indicate that the metal can adopt an alternate architecture through the addition of an asparagine residue as a fourth ligand. This asparagine residue is strictly conserved in all members of the DRE-TIM metallolyase superfamily except fungal homocitrate synthase (HCS-lys) where it is replaced with isoleucine. The role of this additional metal ligand in α-isopropylmalate synthase from Mycobacterium tuberculosis (MtIPMS) has been investigated using site-directed mutagenesis. Substitution of the asparagine ligand with alanine or isoleucine results in inactive enzymes with respect to α-isopropylmalate formation. Control experiments suggest that the substitutions have not drastically affected the enzyme's structure indicating that the asparagine residue is essential for catalysis. Interestingly, all enzyme variants retained acetyl CoA hydrolysis activity in the absence of α-ketoisovalerate, similar to the wild-type enzyme. In contrast to the requirement of magnesium for α-isopropylmalate formation, hydrolytic activity could be inhibited by the addition of magnesium chloride in wild-type, D81E, and N321A MtIPMS, but not in the other variants studied. Attempts to rescue loss of activity in N321I MtIPMS by mimicking the fungal HCS active site through the D81E/N321I double variant were unsuccessful. This suggests epistatic constraints in evolution of function in IPMS and HCS-lys enzymes. 相似文献
892.
Jennifer K. Yee Paulin N. Wahjudi Juan Vega Shu Lim Ashley Martin Mary E. Patterson Joshua N. Cohen Catherine S. Mao Wai-Nang P. Lee 《Metabolomics : Official journal of the Metabolomic Society》2013,9(4):809-816
Stearoyl-CoA desaturase enzyme 1 (SCD1) is a lipogenic enzyme that is upregulated in obesity, insulin resistance, and cancer. Since glucose is a substrate for both de novo fatty acid synthesis and deoxyribose synthesis, we hypothesized that SCD1 affects these multiple synthetic pathways through changes in glucose utilization. This study determined glucose utilization for fatty acid synthesis and cell proliferation in 3T3-L1 preadipocytes during SCD1 inhibition. The effects of SCD1 on cellular metabolism as mediated by its monounstaurated fatty acid products (palmitoleate and oleate) were also observed. 3T3-L1 preadipocytes underwent differentiation induction in conjunction with one of the following treatments for 4 days: (A) no treatment, (B) SCD1 inhibitor CGX0290, (C) CGX0290 + palmitoleate, or (D) CGX0290 + oleate. All cells received medium with 50 % [U13C]-glucose. Cells were harvested on day 7 for studies of fatty acid metabolism, tricarboxylic acid (TCA) cycle activities, and deoxyribose synthesis. CGX0290 decreased fatty acid desaturation, glucose utilization for fatty acid synthesis (acetyl-CoA enrichment), and de novo synthesis. CGX0290 treatment also led to decreased cell density through increased cell death. Further analysis showed that deoxyribose new synthesis and oxidative pentose phosphate pathway activity were unchanged, while non-oxidative transketolase pathway activity was stimulated. Palmitoleate and oleate supplementation each partially ameliorated the effects of CGX0290. In 3T3-L1 cells, SCD1 promotes glucose utilization for fatty acid synthesis. In cell proliferation, SCD1 may promote cell survival, but does not impact the oxidative pathway of deoxyribose production. These effects may be mediated through the production of palmitoleate and oleate. 相似文献
893.
Kate L E Phillips Neil Chiverton Anthony LR Michael Ashley A Cole Lee M Breakwell Gail Haddock Rowena AD Bunning Alison K Cross Christine L Le Maitre 《Arthritis research & therapy》2013,15(6):R213
Introduction
The aims of these studies were to identify the cytokine and chemokine expression profile of nucleus pulposus (NP) cells and to determine the relationships between NP cell cytokine and chemokine production and the characteristic tissue changes seen during intervertebral disc (IVD) degeneration.Methods
Real-time q-PCR cDNA Low Density Array (LDA) was used to investigate the expression of 91 cytokine and chemokine associated genes in NP cells from degenerate human IVDs. Further real-time q-PCR was used to investigate 30 selected cytokine and chemokine associated genes in NP cells from non-degenerate and degenerate IVDs and those from IVDs with immune cell infiltrates (‘infiltrated’). Immunohistochemistry (IHC) was performed for four selected cytokines and chemokines to confirm and localize protein expression in human NP tissue samples.Results
LDA identified the expression of numerous cytokine and chemokine associated genes including 15 novel cytokines and chemokines. Further q-PCR gene expression studies identified differential expression patterns in NP cells derived from non-degenerate, degenerate and infiltrated IVDs. IHC confirmed NP cells as a source of IL-16, CCL2, CCL7 and CXCL8 and that protein expression of CCL2, CCL7 and CXCL8 increases concordant with histological degenerative tissue changes.Conclusions
Our data indicates that NP cells are a source of cytokines and chemokines within the IVD and that these expression patterns are altered in IVD pathology. These findings may be important for the correct assessment of the ‘degenerate niche’ prior to autologous or allogeneic cell transplantation for biological therapy of the degenerate IVD. 相似文献894.
Honour C. McCann Erik H. A. Rikkerink Frederic Bertels Mark Fiers Ashley Lu Jonathan Rees-George Mark T. Andersen Andrew P. Gleave Bernhard Haubold Mark W. Wohlers David S. Guttman Pauline W. Wang Christina Straub Joel Vanneste Paul B. Rainey Matthew D. Templeton 《PLoS pathogens》2013,9(7)
The origins of crop diseases are linked to domestication of plants. Most crops were domesticated centuries – even millennia – ago, thus limiting opportunity to understand the concomitant emergence of disease. Kiwifruit (Actinidia spp.) is an exception: domestication began in the 1930s with outbreaks of canker disease caused by P. syringae pv. actinidiae (Psa) first recorded in the 1980s. Based on SNP analyses of two circularized and 34 draft genomes, we show that Psa is comprised of distinct clades exhibiting negligible within-clade diversity, consistent with disease arising by independent samplings from a source population. Three clades correspond to their geographical source of isolation; a fourth, encompassing the Psa-V lineage responsible for the 2008 outbreak, is now globally distributed. Psa has an overall clonal population structure, however, genomes carry a marked signature of within-pathovar recombination. SNP analysis of Psa-V reveals hundreds of polymorphisms; however, most reside within PPHGI-1-like conjugative elements whose evolution is unlinked to the core genome. Removal of SNPs due to recombination yields an uninformative (star-like) phylogeny consistent with diversification of Psa-V from a single clone within the last ten years. Growth assays provide evidence of cultivar specificity, with rapid systemic movement of Psa-V in Actinidia chinensis. Genomic comparisons show a dynamic genome with evidence of positive selection on type III effectors and other candidate virulence genes. Each clade has highly varied complements of accessory genes encoding effectors and toxins with evidence of gain and loss via multiple genetic routes. Genes with orthologs in vascular pathogens were found exclusively within Psa-V. Our analyses capture a pathogen in the early stages of emergence from a predicted source population associated with wild Actinidia species. In addition to candidate genes as targets for resistance breeding programs, our findings highlight the importance of the source population as a reservoir of new disease. 相似文献
895.
Peter R. Crane Toshiyuki Nagata Jin Murata Tetsuo Ohi‐Toma Ashley DuVal Mark Nesbitt Charles Jarvis 《Curtis's Botanical Magazine》2013,30(3):239-260
We review the representation of Ginkgo biloba L., a quintessentially Chinese plant, in the art of those Western botanists who first encountered it in China and Japan. We also show how several later representations of Ginkgo, in both the West and the East, were inspired and made possible by specimens of Ginkgo in cultivation. 相似文献
896.
Toshiyuki Nagata Ashley DuVal Michaela Schmull Tamara A. Tchernaja Peter R. Crane 《Curtis's Botanical Magazine》2013,30(3):261-274
Paulownia tomentosa (Thunb.) Steud., though native to China first came to the attention of Western explorers and naturalists in Japan. It is of cultural importance both in mainland Asia and also in Japan. We describe the early Western encounters with Paulownia tomentosa highlighting in particular a lineage of early illustrations made in Japan and Europe between the mid‐1820s and 1878 that reflect the fusion of Japanese art and Western science. 相似文献
897.
Cercidiphyllum Sieb. & Zucc. comprises two very similar living species, Cercidiphyllum japonicum Sieb. & Zucc. and Cercidiphyllum magnificum (Nakai) Nakai, both commonly referred to as the katsura tree. The systematic placement and fossil history of Cercidiphyllum are described, and aspects of its cultivation and conservation are discussed. Cercidiphyllum magnificum is illustrated. 相似文献
898.
Sarah Frazier Korede Ajiboye Ashley Olds Tanya Wyatt Erin S. Luetkemeier 《Animal biotechnology》2013,24(4):201-210
Dietary amino acids can be transported into intestinal epithelial cells as di- and tripeptides by the action of the peptide transporter, PepT1 (SLC15A1). Expression of the chicken PepT1 (cPepT1) gene changes in response to dietary crude protein level; however, the molecular mechanism governing this regulation is unknown. This study analyzed the promoter region of the cPepT1 gene. Using deletion analysis, positive-acting (? 314 to ? 261, ? 169 to ? 155, and ? 120 to ? 60) and negative-acting (? 419 to ? 386 and ? 214 to ? 169) regions were mapped in transfected chick embryo fibroblasts (CEF). The addition of neither amino acids Phe, Arg, or Val, nor the dipeptides Gly-Sar (glycyl-sarcosine), Gly-Pro, Gly-Phe, Met-Pro, Met-Lys or Lys-Lys, had an effect on cPepT1 promoter activity in transfected CEF. The cPepT1 promoter was more active in CEF and primary chicken intestinal cells than in chicken liver cells. This study represents a functional characterization of the molecular regulation of the chicken PepT1 gene. 相似文献
899.
900.
Erin E. Peterson Jay M. Ver Hoef Dan J. Isaak Jeffrey A. Falke Marie‐Jose Fortin Chris E. Jordan Kristina McNyset Pascal Monestiez Aaron S. Ruesch Aritra Sengupta Nicholas Som E. Ashley Steel David M. Theobald Christian E. Torgersen Seth J. Wenger 《Ecology letters》2013,16(5):707-719
Dendritic ecological networks (DENs) are a unique form of ecological networks that exhibit a dendritic network topology (e.g. stream and cave networks or plant architecture). DENs have a dual spatial representation; as points within the network and as points in geographical space. Consequently, some analytical methods used to quantify relationships in other types of ecological networks, or in 2‐D space, may be inadequate for studying the influence of structure and connectivity on ecological processes within DENs. We propose a conceptual taxonomy of network analysis methods that account for DEN characteristics to varying degrees and provide a synthesis of the different approaches within the context of stream ecology. Within this context, we summarise the key innovations of a new family of spatial statistical models that describe spatial relationships in DENs. Finally, we discuss how different network analyses may be combined to address more complex and novel research questions. While our main focus is streams, the taxonomy of network analyses is also relevant anywhere spatial patterns in both network and 2‐D space can be used to explore the influence of multi‐scale processes on biota and their habitat (e.g. plant morphology and pest infestation, or preferential migration along stream or road corridors). 相似文献