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101.
Jacob C. Ulirsch Jeffrey M. Verboon Shideh Kazerounian Michael H. Guo Daniel Yuan Leif S. Ludwig Robert E. Handsaker Nour J. Abdulhay Claudia Fiorini Giulio Genovese Elaine T. Lim Aaron Cheng Beryl B. Cummings Katherine R. Chao Alan H. Beggs Casie A. Genetti Colin A. Sieff Peter E. Newburger Hanna T. Gazda 《American journal of human genetics》2019,104(2):356
102.
Michael G. Hanna IV Ioanna Mela Lei Wang Robert M. Henderson Edwin R. Chapman J. Michael Edwardson Anjon Audhya 《The Journal of biological chemistry》2016,291(3):1014-1027
The majority of biosynthetic secretory proteins initiate their journey through the endomembrane system from specific subdomains of the endoplasmic reticulum. At these locations, coated transport carriers are generated, with the Sar1 GTPase playing a critical role in membrane bending, recruitment of coat components, and nascent vesicle formation. How these events are appropriately coordinated remains poorly understood. Here, we demonstrate that Sar1 acts as the curvature-sensing component of the COPII coat complex and highlight the ability of Sar1 to bind more avidly to membranes of high curvature. Additionally, using an atomic force microscopy-based approach, we further show that the intrinsic GTPase activity of Sar1 is necessary for remodeling lipid bilayers. Consistent with this idea, Sar1-mediated membrane remodeling is dramatically accelerated in the presence of its guanine nucleotide-activating protein (GAP), Sec23-Sec24, and blocked upon addition of guanosine-5′-[(β,γ)-imido]triphosphate, a poorly hydrolysable analog of GTP. Our results also indicate that Sar1 GTPase activity is stimulated by membranes that exhibit elevated curvature, potentially enabling Sar1 membrane scission activity to be spatially restricted to highly bent membranes that are characteristic of a bud neck. Taken together, our data support a stepwise model in which the amino-terminal amphipathic helix of GTP-bound Sar1 stably penetrates the endoplasmic reticulum membrane, promoting local membrane deformation. As membrane bending increases, Sar1 membrane binding is elevated, ultimately culminating in GTP hydrolysis, which may destabilize the bilayer sufficiently to facilitate membrane fission. 相似文献
103.
Niles BJ Clegg MS Hanna LA Chou SS Momma TY Hong H Keen CL 《The Journal of biological chemistry》2008,283(8):5168-5177
One consequence of zinc deficiency is an elevation in cell and tissue iron concentrations. To examine the mechanism(s) underlying this phenomenon, Swiss 3T3 cells were cultured in zinc-deficient (D, 0.5 microM zinc), zinc-supplemented (S, 50 microM zinc), or control (C, 4 microM zinc) media. After 24 h of culture, cells in the D group were characterized by a 50% decrease in intracellular zinc and a 35% increase in intracellular iron relative to cells in the S and C groups. The increase in cellular iron was associated with increased transferrin receptor 1 protein and mRNA levels and increased ferritin light chain expression. The divalent metal transporter 1(+)iron-responsive element isoform mRNA was decreased during zinc deficiency-induced iron accumulation. Examination of zinc-deficient cells revealed increased binding of iron regulatory protein 2 (IRP2) and decreased binding of IRP1 to a consensus iron-responsive element. The increased IRP2-binding activity in zinc-deficient cells coincided with an increased level of IRP2 protein. The accumulation of IRP2 protein was independent of zinc deficiency-induced intracellular nitric oxide production but was attenuated by the addition of the antioxidant N-acetylcysteine or ascorbate to the D medium. These data support the concept that zinc deficiency can result in alterations in iron transporter, storage, and regulatory proteins, which facilitate iron accumulation. 相似文献
104.
105.
Chaperonins are large oligomers consisting of two superimposed rings, each enclosing a cavity used for the folding of other proteins. They have been divided into two groups. Chaperonins of type I were identified in mitochondria and chloroplasts (Hsp60) or bacterial cytosol (GroEL) as well. Chaperonins type II were found in Archea and the eukaryotic cell cytosol (CCT). Protein folding occurs in the chaperonin after its conformational changes induced upon ATP binding. Mechanism of the protein folding, although still poorly defined, clearly differs from the one established for GroEL. Although CCT with prefoldin seems to be mainly involved in the folding of actin and tubulin, other substrates engaged in various cellular processes are beginning to be characterized, including proteins possessing WD40-repeats. Moreover, several lines of evidence suggest that beside prefoldin, CCT may work in concert with phosducin-like proteins (PhLPs). 相似文献
106.
Novel stabilization of phenylalanine ammonia-lyase catalyst during bioconversion of trans-cinnamic acid to l-phenylalanine 总被引:4,自引:0,他引:4
Christopher T. Evans Dayle Conrad Kim Hanna Wendy Peterson Christin Choma Masanaru Misawa 《Applied microbiology and biotechnology》1987,25(5):399-405
Summary Production of l-phenylalanine from trans-cinnamic acid using isolate SPA10 cells was reduced to 26% of that observed initially when cells were reacted a second time with fresh substrate mixture. The stability (reuseability) of Phenylalanine Ammonia-Lyase (PAL) containing cells was significantly influenced by both the trans-cinnamate concentration and initial reaction pH. Using 2% t-cinnamate, l-phenylalanine production was 7-fold greater after 3 successive runs at pH 9.0 than at the optimum of pH 10.2. Cells reacted in the presence of 5% t-cinnamate were relatively unstable. Permeabilising agents, such as toluene and xylene, stimulated l-phenylalanine production but also enhanced instability of the catalyst. Several effectors were shown to stimulate the initial rate of the PAL bioconversion, but only sorbitol, alginate, glutaraldehyde, polyethylene glycol and glycerol conferred any significant degree of stability. Sparging of cultures and bioreactors with various gases revealed that oxygen enhanced PAL inactivation, CO2 had little effect and nitrogen conferred remarkable stability on PAL activity for several weeks in culture medium. The presence of chloride ions (from HCl) and aeration of substrate mixtures resulted in poor reuseability of catalyst. A combination of H2SO4 substitution for HCl and N2-sparging resulted in excellent initial conversions and good catalyst stability at 26°C but less at 30°C. The inclusion of 1.5 M sorbitol in reaction mixtures maintained PAL stability over several successive incubations. 相似文献
107.
L.-H. Zhang P. Ozias-Akins G. Kochert S. Kresovich R. Dean W. Hanna 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1999,98(6-7):895-902
Bermudagrasses (Cynodon spp.) are major turfgrasses for home lawns, public parks, golf courses and sport fields, and are widely adapted to tropical
and warmer temperate climates. Morphological and physiological characteristics are not sufficient to differentiate some bermudagrass
genotypes because the differences between them are often subtle and subject to environmental influence. In this study, a DNA-typing
technique, amplified fragment length polymorphism (AFLP), was used to differentiate bermudagrass genotypes and to explore
their genetic relationships. Twenty seven bermudagrass cultivars and introductions, mostly from the Coastal Plain Experiment
Station in Tifton, Ga., were assayed by the radioactive (32P) and the fluorescence-labeled AFLP methods. The AFLP technique produced enough polymorphism to differentiate all 27 bermudagrass
genotypes, even the closely related ones. An average of 48–74 bands in the 30–600-bp size range was detected by the 32P-labeled AFLP method. The results indicated that most of the 14 primer combinations tested in this study could be used to
distinguish bermudagrass genotypes, and that some single primer-pairs could differentiate all 27 of them. To test the reliability
and reproducibility of the AFLP procedure, three DNA isolations (replications) of the 27 bermudagrass genotypes were assayed
using five primer pairs. Only 0.6% of the bands were evaluated differently among the three replications. One replication of
one genotype (which was most likely a planting contaminant) was grouped in an unexpected cluster using the Unweighted Pair
Group Mean Average (UPGMA) method. A one- or two-band difference in scoring did not change the clustering of genotypes or
the replications within genotypes. The 27 genotypes were grouped into three major clusters, many of which were in agreement
with known pedigrees. Trees constructed with different primer combinations using 32P- and fluorescence-labelling formed similar major groupings. The semi-automated fluorescence-based AFLP technique offered
significant improvements on fragment sizing and data handling. It was also more accurate for detection and more efficient
than the radioactive labelling method. This study shows that the AFLP technique is a reliable tool for differentiating bermudagrass
genotypes and for determining genetic relationships among them.
Received: 28 July 1998 / Accepted: 3 November 1998 相似文献
108.
Representativeness of point-wise phenological Betula data collected in different parts of Europe 总被引:1,自引:0,他引:1
109.
Abrescia NG Grimes JM Kivelä HM Assenberg R Sutton GC Butcher SJ Bamford JK Bamford DH Stuart DI 《Molecular cell》2008,31(5):749-761
Recent, primarily structural observations indicate that related viruses, harboring no sequence similarity, infect hosts of different domains of life. One such clade of viruses, defined by common capsid architecture and coat protein fold, is the so-called PRD1-adenovirus lineage. Here we report the structure of the marine lipid-containing bacteriophage PM2 determined by crystallographic analyses of the entire approximately 45 MDa virion and of the outer coat proteins P1 and P2, revealing PM2 to be a primeval member of the PRD1-adenovirus lineage with an icosahedral shell and canonical double beta barrel major coat protein. The view of the lipid bilayer, richly decorated with membrane proteins, constitutes a rare visualization of an in vivo membrane. The viral membrane proteins P3 and P6 are organized into a lattice, suggesting a possible assembly pathway to produce the mature virus. 相似文献
110.
Ajay Kumar Kent Eskridge David D. Jones Milford A. Hanna 《Bioresource technology》2009,100(6):2062-2068
In this study, thermochemical biomass gasification was performed on a bench-scale fluidized-bed gasifier with steam and air as fluidizing and oxidizing agents. Distillers grains, a non-fermentable byproduct of ethanol production, were used as the biomass feedstock for the gasification. The goal was to investigate the effects of furnace temperature, steam to biomass ratio and equivalence ratio on gas composition, carbon conversion efficiency and energy conversion efficiency of the product gas. The experiments were conducted using a 3 × 3 × 3 full factorial design with temperatures of 650, 750 and 850 °C, steam to biomass ratios of 0, 7.30 and 14.29 and equivalence ratios of 0.07, 0.15 and 0.29. Gasification temperature was found to be the most influential factor. Increasing the temperature resulted in increases in hydrogen and methane contents, carbon conversion and energy efficiencies. Increasing equivalence ratio decreased the hydrogen content but increased carbon conversion and energy efficiencies. The steam to biomass ratio was optimal in the intermediate levels for maximal carbon conversion and energy efficiencies. 相似文献