scholarly journals Effects of d-glucosamine and glucose analogues on glycogen biosynthesis in vitro

1962 ◽  
Vol 85 (1) ◽  
pp. 24-32 ◽  
Author(s):  
M KONO ◽  
JH QUASTEL
Keyword(s):  
Glucose Analogues ◽  
Glycogen Biosynthesis

scholarly journals Analysis of the structural requirements of sugar binding to the liver, brain and insulin-responsive glucose transporters expressed in oocytes

1993 ◽  
Vol 294 (3) ◽  
pp. 753-760 ◽  
Author(s):  
C A Colville ◽  
M J Seatter ◽  
G W Gould
Keyword(s):  
Hydrogen Bond ◽  
Binding Sites ◽  
Glucose Transporters ◽  
Binding Pocket ◽  
Structural Basis ◽  
Sugar Binding ◽  
Glucose Analogues ◽  
Sugar Recognition

We have expressed the liver (GLUT 2), brain (GLUT 3) and insulin-responsive (GLUT 4) glucose transporters in oocytes from Xenopus laevis by microinjection of in vitro-transcribed mRNA. Using a range of halogeno- and deoxy-glucose analogues, and other hexoses, we have studied the structural basis of sugar binding to these different isoforms. We show that a hydrogen bond to the C-3 position is involved in sugar binding for all three isoforms, but that the direction of this hydrogen bond is different in GLUT 2 from either GLUT 1, 3 or 4. Hydrogen-bonding at the C-4 position is also involved in sugar recognition by all three isoforms, but we propose that in GLUT 3 this hydrogen bond plays a less significant role than in GLUT 2 and 4. In all transporters we propose that the C-4 position is directed out of the sugar-binding pocket. The role of the C-6 position is also discussed. In addition, we have analysed the ability of fructopyranose and fructofuranose analogues to inhibit the transport mediated by GLUT2. We show that fructofuranose analogues, but not fructopyranose analogues, are efficient inhibitors of transport mediated by GLUT 2, and therefore suggest that GLUT 2 accommodates D-glucose as a pyranose ring, but D-fructose as a furanose ring. Models for the binding sites of GLUT 2, 3 and 4 are presented.

The role of glutamine and glucose analogues in metabolic inhibition of human myeloid leukaemia In vitro

1993 ◽  
Vol 25 (12) ◽  
pp. 1749-1755 ◽  
Author(s):  
Melinda Griffiths ◽  
David Keast ◽  
M. Crawford ◽  
T.Norman Palmer ◽  
G. Patrick
Keyword(s):  
Myeloid Leukaemia ◽  
Metabolic Inhibition ◽  
Glucose Analogues

scholarly journals Energy metabolism and T-cell-mediated cytolysis. I. Synergism between inhibitors of respiration and glycolysis.

1977 ◽  
Vol 146 (3) ◽  
pp. 698-709 ◽  
Author(s):  
H R MacDonald ◽  
C J Koch
Keyword(s):  
T Cell ◽  
Synergistic Effects ◽  
Energy Requirements ◽  
Target Cells ◽  
Respiratory Inhibitors ◽  
Exogenous Glucose ◽  
Glucose Analogues ◽  
Energy Dependent ◽  
Energy Pathways

The energy requirements for T-cell-mediated cytolysis have been investigated. Cytolytic thymus-derived lymphocytes (CTL) were generated in vitro in mixed leukocyte cultures and assayed for cytotoxicity on 51Cr-labeled mastocytoma target cells. Cytolysis was only slightly reduced in the absence of exogenous glucose (less than 5 micrometer) or under conditions of extreme hypoxia (less than 0.2 micrometer oxygen). Furthermore, neither the glucose analogues 2-deoxy-D-glucose and 5-thio-D-glucose nor the respiratory antagonists sodium azide and 2,4-dinitrophenol were very effective inhibitors of cytolysis when used individually. However, these glucose analogues were highly effective in inhibiting cytolysis in the absence of oxygen, and the respiratory antagonists inhibited cytolysis to a much greater extent in the absence of glucose. In addition, synergistic effects were observed when the glycolytic and respiratory inhibitors were combined. Taken together, these results indicate that T-cell-mediated cytolysis is an energy-dependent process which can be supported by either oxidative or glycolytic energy pathways.

Effect of glucose analogues on yeast adenylate cyclase in vitro

1989 ◽  
Vol 17 (6) ◽  
pp. 1010-1011 ◽  
Author(s):  
LUIS A. PARDO ◽  
LUIS M. SÁNCHEZ ◽  
SOFÍA RAMOS
Keyword(s):  
Adenylate Cyclase ◽  
Glucose Analogues ◽  
Effect Of Glucose

scholarly journals Requirement of the self-glucosylating initiator proteins Glg1p and Glg2p for glycogen accumulation in Saccharomyces cerevisiae.

1995 ◽  
Vol 15 (12) ◽  
pp. 6632-6640 ◽  
Author(s):  
C Cheng ◽  
J Mu ◽  
I Farkas ◽  
D Huang ◽  
M G Goebl ◽  
...  
Keyword(s):  
Saccharomyces Cerevisiae ◽  
Glycogen Synthase ◽  
Eukaryotic Cell ◽  
The Self ◽  
Yeast Cells ◽  
Wild Type ◽  
Glycogen Accumulation ◽  
Glycogen Biosynthesis ◽  
Mammalian Protein

Glycogen, a branched polymer of glucose, is a storage molecule whose accumulation is under rigorous nutritional control in many cells. We report the identification of two Saccharomyces cerevisiae genes, GLG1 and GLG2, whose products are implicated in the biogenesis of glycogen. These genes encode self-glucosylating proteins that in vitro can act as primers for the elongation reaction catalyzed by glycogen synthase. Over a region of 258 residues, the Glg proteins have 55% sequence identify to each other and approximately 33% identity to glycogenin, a mammalian protein postulated to have a role in the initiation of glycogen biosynthesis. Yeast cells defective in either GLG1 or GLG2 are similar to the wild type in their ability to accumulate glycogen. Disruption of both genes results in the inability of the cells to synthesize glycogen despite normal levels of glycogen synthase. These results suggest that a self-glucosylating protein is required for glycogen biosynthesis in a eukaryotic cell. The activation state of glycogen synthase in glg1 glg2 cells is suppressed, suggesting that the Glg proteins may additionally influence the phosphorylation state of glycogen synthase.

A putative pathway of glyconeogenesis in skeletal muscle

1981 ◽  
Vol 1 (2) ◽  
pp. 157-165 ◽  
Author(s):  
Bhanu R. Odedra ◽  
T. Norman Palmer
Keyword(s):  
Skeletal Muscle ◽  
Malic Enzyme ◽  
Pyruvate Carboxylase ◽  
Phosphoenolpyruvate Carboxykinase ◽  
De Novo ◽  
Glycogen Biosynthesis ◽  
Glycogen Sparing ◽  
Specific Inhibitors

Evidence is presented in support of a pathway in skeletal muscle of glyconeogenesis (glycogen biosynthesis de novo) from L-glutamate and related amino acids involving the enzyme phosphoenolpyruvate carboxykinase (PEP CK). In the rat hemidiaphragm in vitro, not only did L-[U-14C]glutamate exert a glycogen-sparing action, but14C-label was incorporated into glycogen. The incorporation is thought not to be simply via label randomization and was decreased by factors that increased glycolysis or pyruvate oxidation. 3-Mercaptopicolinate and amino-oxyacetate, specific inhibitors of PEP CK and aminotransferase-type enzymes, respectively, decreased14C-incorporation from L-[U-14C]glutamate into glycogen. No quantitative determination of apparent glyconeogenic flux was made, and it remains to be established whether glyconeogenesis via PEP CK and/or via PEP CK coupled with 'malic' enzyme (or pyruvate carboxylase) is functionally important in skeletal muscle.

scholarly journals Development of Transposon Mutagenesis for Chlamydia muridarum

2019 ◽  
Vol 201 (23) ◽  
Author(s):  
Yibing Wang ◽  
Scott D. LaBrie ◽  
Steven J. Carrell ◽  
Robert J. Suchland ◽  
Zoe E. Dimond ◽  
...  
Keyword(s):  
Genetic Manipulation ◽  
Transposon Mutagenesis ◽  
Content Type ◽  
Chlamydia Muridarum ◽  
Transposon Mutants ◽  
Transposon Insertions ◽  
Glycogen Biosynthesis

ABSTRACT Functional genetic analysis of Chlamydia has been a challenge due to the historical genetic intractability of Chlamydia, although recent advances in chlamydial genetic manipulation have begun to remove these barriers. Here, we report the development of the Himar C9 transposon system for Chlamydia muridarum, a mouse-adapted Chlamydia species that is widely used in Chlamydia infection models. We demonstrate the generation and characterization of an initial library of 33 chloramphenicol (Cam)-resistant, green fluorescent protein (GFP)-expressing C. muridarum transposon mutants. The majority of the mutants contained single transposon insertions spread throughout the C. muridarum chromosome. In all, the library contained 31 transposon insertions in coding open reading frames (ORFs) and 7 insertions in intergenic regions. Whole-genome sequencing analysis of 17 mutant clones confirmed the chromosomal locations of the insertions. Four mutants with transposon insertions in glgB, pmpI, pmpA, and pmpD were investigated further for in vitro and in vivo phenotypes, including growth, inclusion morphology, and attachment to host cells. The glgB mutant was shown to be incapable of complete glycogen biosynthesis and accumulation in the lumen of mutant inclusions. Of the 3 pmp mutants, pmpI was shown to have the most pronounced growth attenuation defect. This initial library demonstrates the utility and efficacy of stable, isogenic transposon mutants for C. muridarum. The generation of a complete library of C. muridarum mutants will ultimately enable comprehensive identification of the functional genetic requirements for Chlamydia infection in vivo. IMPORTANCE Historical issues with genetic manipulation of Chlamydia have prevented rigorous functional genetic characterization of the ∼1,000 genes in chlamydial genomes. Here, we report the development of a transposon mutagenesis system for C. muridarum, a mouse-adapted Chlamydia species that is widely used for in vivo investigations of chlamydial pathogenesis. This advance builds on the pioneering development of this system for C. trachomatis. We demonstrate the generation of an initial library of 33 mutants containing stable single or double transposon insertions. Using these mutant clones, we characterized in vitro phenotypes associated with genetic disruptions in glycogen biosynthesis and three polymorphic outer membrane proteins.

Ultrastructural Investigations of the Contractile Filaments of Amoebae

1974 ◽  
Vol 32 ◽  
pp. 188-189
Author(s):  
P.L. Moore
Keyword(s):  
Cytoplasmic Streaming ◽  
Three Dimensional ◽  
Freeze Fracture ◽  
Amoeboid Movement ◽  
Different Types ◽  
Chemical Conditions ◽  
Complete Interpretation

Previous freeze fracture results on the intact giant, amoeba Chaos carolinensis indicated the presence of a fibrillar arrangement of filaments within the cytoplasm. A complete interpretation of the three dimensional ultrastructure of these structures, and their possible role in amoeboid movement was not possible, since comparable results could not be obtained with conventional fixation of intact amoebae. Progress in interpreting the freeze fracture images of amoebae required a more thorough understanding of the different types of filaments present in amoebae, and of the ways in which they could be organized while remaining functional.The recent development of a calcium sensitive, demembranated, amoeboid model of Chaos carolinensis has made it possible to achieve a better understanding of such functional arrangements of amoeboid filaments. In these models the motility of demembranated cytoplasm can be controlled in vitro, and the chemical conditions necessary for contractility, and cytoplasmic streaming can be investigated. It is clear from these studies that “fibrils” exist in amoeboid models, and that they are capable of contracting along their length under conditions similar to those which cause contraction in vertebrate muscles.

In Vitro Induction of Crystals of MT Protein by Vinblastine-Colcemid in Mouse Spermatids

1974 ◽  
Vol 32 ◽  
pp. 132-133
Author(s):  
John J. Wolosewick ◽  
John H. D. Bryan
Keyword(s):  
Endoplasmic Reticulum ◽  
Smooth Endoplasmic Reticulum ◽  
Nuclear Ring ◽  
Rough Er ◽  
Distal Direction ◽  
In Vitro Induction

Early in spermiogenesis the manchette is rapidly assembled in a distal direction from the nuclear-ring-densities. The association of vesicles of smooth endoplasmic reticulum (SER) and the manchette microtubules (MTS) has been reported. In the mouse, osmophilic densities at the distal ends of the manchette are the organizing centers (MTOCS), and are associated with the SER. Rapid MT assembly and the lack of rough ER suggests that there is an existing pool of MT protein. Colcemid potentiates the reaction of vinblastine with tubulin and was used in this investigation to detect this protein.

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