11 results on '"Genjun Xu"'
Search Results
2. Crystal structures of human muscle fructose-1,6-bisphosphatase: novel quaternary states, enhanced AMP affinity, and allosteric signal transmission pathway.
- Author
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Rong Shi, Ze-Yong Chen, Dao-Wei Zhu, Chunmin Li, Yufei Shan, Genjun Xu, and Sheng-Xiang Lin
- Subjects
Medicine ,Science - Abstract
Fructose-1,6-bisphosphatase, a key enzyme in gluconeogenesis, is subject to metabolic regulation. The human muscle isozyme is significantly more sensitive towards the allosteric inhibitor, AMP, than the liver isoform. Here we report crystal structures and kinetic studies for wild-type human muscle Fru-1,6-Pase, the AMP-bound (1.6 Å), and product-bound complexes of the Q32R mutant, which was firstly introduced by an error in the cloning. Our high-resolution structure reveals for the first time that the higher sensitivity of the muscle isozyme towards AMP originates from an additional water-mediated, H-bonded network established between AMP and the binding pocket. Also present in our structures are a metaphosphate molecule, alternate conformations of Glu97 coordinating Mg(2+), and possible metal migration during catalysis. Although the individual subunit is similar to previously reported Fru-1,6-Pase structures, the tetrameric assembly of all these structures deviates from the canonical R- or T-states, representing novel tetrameric assemblies. Intriguingly, the concentration of AMP required for 50% inhibition of the Q32R mutant is increased 19-fold, and the cooperativity of both AMP and Mg(2+) is abolished or decreased. These structures demonstrate the Q32R mutation affects the conformations of both N-terminal residues and the dynamic loop 52-72. Also importantly, structural comparison indicates that this mutation in helix α2 is detrimental to the R-to-T conversion as evidenced by the absence of quaternary structural changes upon AMP binding, providing direct evidence for the critical role of helix α2 in the allosteric signal transduction.
- Published
- 2013
- Full Text
- View/download PDF
3. Structural Transformation of the Peptide Fragments from the Reactive Center Loops of Serpins: Circular Dichroic Studies
- Author
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Hong-Yu Hu, Genjun Xu, Song-Qin Xu, and Yun-Neng Chen
- Subjects
chemistry.chemical_classification ,Crystallography ,Circular dichroism ,Aqueous solution ,chemistry ,Stereochemistry ,Helix ,Peptide ,General Chemistry ,Serpin ,Dichroic glass ,Reactive center ,Random coil - Abstract
Two peptides, derived from the reactive center of ovalbumin.(OVARC) and plasminogen activator inhibitor-1 (PAIRC) respectively were chemically synthesized and investigated by circular dichroic spectroscopy. The secondary structural transformation in solution and in solid state was studied. OVARC shows a nascent helical structure in aqueous solution, and its helical content increases under acidic conditions. There is no obvious structural conversion from solution to solid state. PAIRC, however, undergoes a structural transformation from random coil in aqueous solution to a typical beta -sheet structure in the solid state. Hexafluoroispropanol (HFIP) prompts helical structures of the two peptides in solution, but It seems to trigger the structural formation of beta -sheets in solid state. The novel structural transformation from random coil or nascent helical structure in aqueous solution to the alpha -helix in IMP and to the beta -sheet structure in solid state may reflect the conformational polymorphism of the serpin reactive centers and is implicated in the structural features of the amyloid aggregates.
- Published
- 2010
- Full Text
- View/download PDF
4. In vitro insulin refolding: Characterization of the intermediates and the putative folding pathway
- Author
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Genjun Xu, Yue-Hua Tang, Shuai Wang, You-Min Feng, and Yan Chen
- Subjects
chemistry.chemical_classification ,Protein Denaturation ,Protein Folding ,Swine ,Chemistry ,Stereochemistry ,Insulin ,medicine.medical_treatment ,Oxidative phosphorylation ,Redox ,General Biochemistry, Genetics and Molecular Biology ,Folding (chemistry) ,Biochemistry ,Reagent ,medicine ,Thiol ,Animals ,Electrophoresis, Polyacrylamide Gel ,Protein folding ,Disulfides ,General Agricultural and Biological Sciences ,Polyacrylamide gel electrophoresis ,Chromatography, High Pressure Liquid ,General Environmental Science - Abstract
The in vitro refolding process of the double-chain insulin was studied based on the investigation of in vitro single-chain insulin refolding. Six major folding intermediates, named P1A, P2B, P3A, P4B, P5B, and P6B, were captured during the folding process. The refolding experiments indicate that all of these intermediates are on-pathway. Based on these intermediates and the formation of hypothetic transients, we propose a two-stage folding pathway of insulin. (1) At the early stage of the folding process, the reduced A chain and B chain individually formed the intermediates: two A chain intermediates (P1A and P3A), and four B chain intermediates (P2B, P4B, P5B, and P6B). (2) In the subsequent folding process, transient I was formed from P3A through thiol/disulfide exchange reaction; then, transients II and III, each containing two native disulfides, were formed through the recognition and interaction of transient I with P4B or P6B and the thiol group's oxidation reaction mainly using GSSG as oxidative reagent; finally, transients II and III, through thiol/mixture disulfide exchange reaction, formed the third native disulfide of insulin to complete the folding.
- Published
- 2007
- Full Text
- View/download PDF
5. Crystal Structures of Human Muscle Fructose-1,6-Bisphosphatase: Novel Quaternary States, Enhanced AMP Affinity, and Allosteric Signal Transmission Pathway
- Author
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Dao-Wei Zhu, Rong Shi, Genjun Xu, Chunmin Li, Ze-Yong Chen, Sheng-Xiang Lin, and Yufei Shan
- Subjects
Models, Molecular ,Adenosine monophosphate ,Science ,Allosteric regulation ,Mutant ,Fructose 1,6-bisphosphatase ,lcsh:Medicine ,Cooperativity ,AMP binding ,Crystallography, X-Ray ,chemistry.chemical_compound ,Protein structure ,Allosteric Regulation ,Hydrolase ,Humans ,lcsh:Science ,Protein Structure, Quaternary ,Multidisciplinary ,biology ,Chemistry ,Muscles ,lcsh:R ,Correction ,Adenosine Monophosphate ,Fructose-Bisphosphatase ,Kinetics ,Biochemistry ,biology.protein ,Medicine ,lcsh:Q ,Research Article ,Signal Transduction - Abstract
Fructose-1,6-bisphosphatase, a key enzyme in gluconeogenesis, is subject to metabolic regulation. The human muscle isozyme is significantly more sensitive towards the allosteric inhibitor, AMP, than the liver isoform. Here we report crystal structures and kinetic studies for wild-type human muscle Fru-1,6-Pase, the AMP-bound (1.6 Å), and product-bound complexes of the Q32R mutant, which was firstly introduced by an error in the cloning. Our high-resolution structure reveals for the first time that the higher sensitivity of the muscle isozyme towards AMP originates from an additional water-mediated, H-bonded network established between AMP and the binding pocket. Also present in our structures are a metaphosphate molecule, alternate conformations of Glu97 coordinating Mg(2+), and possible metal migration during catalysis. Although the individual subunit is similar to previously reported Fru-1,6-Pase structures, the tetrameric assembly of all these structures deviates from the canonical R- or T-states, representing novel tetrameric assemblies. Intriguingly, the concentration of AMP required for 50% inhibition of the Q32R mutant is increased 19-fold, and the cooperativity of both AMP and Mg(2+) is abolished or decreased. These structures demonstrate the Q32R mutation affects the conformations of both N-terminal residues and the dynamic loop 52-72. Also importantly, structural comparison indicates that this mutation in helix α2 is detrimental to the R-to-T conversion as evidenced by the absence of quaternary structural changes upon AMP binding, providing direct evidence for the critical role of helix α2 in the allosteric signal transduction.
- Published
- 2014
6. AMP makes native snake muscle fructose-1, 6-bisphosphatase to an alkaline enzyme
- Author
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Songqin Xu, Genjun Xu, Li-Lin Du, and Fukun Zhao
- Subjects
chemistry.chemical_classification ,High concentration ,biology ,medicine.diagnostic_test ,Ph optimum ,Proteolysis ,Fructose 1,6-bisphosphatase ,General Biochemistry, Genetics and Molecular Biology ,Enzyme ,chemistry ,Biochemistry ,Mole ,biology.protein ,medicine ,General Agricultural and Biological Sciences ,General Environmental Science - Abstract
A substance in the crude preparation of NADP(+) has been found, which activates snake muscle fructose-1,6-bisphosphatase at pH 9.2 and inhibits the enzyme at pH 7.5. After isolation and extensive characterization, the substance has been determined to be AMP. The activation depends on the concentrations of Mg(2+) and could be observed only at concentrations above 1 mmol/L. In the presence of AMP, snake muscle fructose-1,6-bisphosphatase resembles an alkaline enzyme. Kinetic studies indicate that AMP and Mg(2+) competitively regulate the activity of the enzyme. AMP releases the inhibition of Mg(2+) at high concentration at alkaline pH. It has been reported that fructose-1,6-bisphosphatase with a pH optimum in the alkaline region is caused by limited proteolysis. AMP is also able to make fructose-1,6-bisphosphatase to be an alkaline enzyme. This finding indicates that proteolysis may not be the only reason for shift of the optimum pH of fructose-1,6-bisphosphatase to alkaline side and it may imply some significance in physiological regulation.
- Published
- 2000
- Full Text
- View/download PDF
7. Conformation of 60-residue peptide fragment from N-terminal of porcine kidney fructose 1,6-bisphosphatase
- Author
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Fukun Zhao, Genjun Xu, and Weiwen Yang
- Subjects
chemistry.chemical_classification ,biology ,medicine.diagnostic_test ,Stereochemistry ,Chemistry ,Proteolysis ,Allosteric regulation ,Subtilisin ,Fructose 1,6-bisphosphatase ,Peptide ,General Biochemistry, Genetics and Molecular Biology ,Biochemistry ,Sephadex ,biology.protein ,medicine ,Native state ,General Agricultural and Biological Sciences ,Protein secondary structure ,General Environmental Science - Abstract
Limited digestion of fructose 1, 6-bisphosphatase with subtilisin produces an S-peptide with an about 60-residue peptide fragment that is non-covalently associated with the enzyme. The 60-residue peptide fragment consists of the most part of allosteric site for AMP binding. It could be separated from S-protein by gel filtration with a Sephadex G-75 column equilibrated with 9% formic acid. According to X-ray diffraction results the S-peptide consists of two alpha-helices without beta-strand and the alpha-helix content is about 60% in the 60-residue-peptide fragment. When the enzyme is subjected to limited proteolysis with subtilisin, the secondary structure of the enzyme does not show a detectable change in CD spectrum. The CD spectra of the isolated S-peptide were measured under different concentrations. In the absence of GuHCl, S-peptide had 30% alpha-helix and 38.5% turn-like structure but had no beta-strand, suggesting that the N-terminal 60-residue fragment, which is synthesized initially by ribosome, would form a conformation spontaneously similar to that of the isolated 60-residue-peptide, i.e. about 30% alpha-helix and 30% turn-like structure. As the elongation of the peptide chain of the enzyme proceeds, the newly synthesized segment or the final entire enzyme, in turn, affects the conformation of prior peptide segment and adjusts its conformation to the final native state. The content of alpha-helix did not increase as perturbing the conformation of S-peptide by adding ethanol, cyclohexane or a small amount of SDS. On the contrary, the ordered structure was slightly decreased, indicating that the difference of conformations of S-peptide in the isolated form and in the associated protein was not an artifact produced by isolation process.
- Published
- 1997
- Full Text
- View/download PDF
8. Expression and characterization of two secreted His6-tagged endo-beta-1,4-glucanases from the mollusc Ampullaria crossean in Pichia pastoris
- Author
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Rui, Guo, Ming, Ding, Siliang, Zhang, Genjun, Xu, and Fukun, Zhao
- Subjects
Enzyme Activation ,Endo-1,3(4)-beta-Glucanase ,Mollusca ,Enzyme Stability ,Animals ,Protein Engineering ,Pichia - Abstract
Two endo-beta-1,4-glucanase cDNAs, eg27I and eg27II, from the mollusc Ampullaria crossean were expressed in Pichia pastoris cells. The secreted His6-tagged proteins were purified in a single chromatography step. The purified recombinant EG27I and EG27II showed enzymatic activity on carboxylmethyl cellulose sodium salt at 15.31 U/mg and 12.40 U/mg, respectively. The optimum pH levels of the recombinant EG27I and EG27II were 5.5 and 5.5-6.0, respectively, and the optimum temperatures were 50 degrees C and 50 degrees C-55 degrees C, respectively. The pH stability study revealed that both EG27I and EG27II showed their highest stability at pH 8.0. Analysis of their thermostability indicated that both EG27I and EG27II were relatively stable up to 40 degrees C. Site-directed mutagenesis of Asp43 and Asp153 of both EG27I and EG27II showed that the two Asp residues are critical for the enzymatic activity.
- Published
- 2008
9. Single amino-acid substitution in the N-terminal arm altered the tetramer stability of rat muscle lactate dehydrogenase A
- Author
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Chong Yuan, Hongyu Hu, and Genjun Xu
- Subjects
chemistry.chemical_classification ,education.field_of_study ,Aqueous solution ,Protein subunit ,Lactate dehydrogenase A ,Mutant ,Oligomer ,General Biochemistry, Genetics and Molecular Biology ,chemistry.chemical_compound ,Enzyme ,chemistry ,Tetramer ,Biochemistry ,General Agricultural and Biological Sciences ,Site-directed mutagenesis ,education ,General Environmental Science - Abstract
Lactate dehydrogenase A (LDHA) is a well-characterized tetrameric enzyme. Its N-terminal arm, comprised of an α-helix and a β-strand, was suggested to be essential for subunit interactions. To examine the critical amino acid residues in the N-terminus involved in the subunit association, two single-point mutants, Leu3Pro (L3P) and Ile8Glu (I8E), have been constructed. We compared the stability of WT-LDHA (WT) and its variants by unfolding experiments. For WT, a dimeric but inactive intermediate was observed by size-exclusion chromatography at 0.6–0.8 mol/L GdmCl. Leu3Pro exists in an active tetrameric structure in aqueous solution as WT does, but it dissociates into dimers under lower concentration of GdmCl (0.2 mol/L). In aqueous solution, the Ile8Glu variant exists predominantly in the dimeric form with increased KM and decreasedk cat as compared with those of WT and L3P. However, the activity of Ile8Glu increases significantly in the presence of sodium sulfate. In conclusion, two mutants are less stable than WT in oligomer structure. Results also support the fact that some residues in the N-terminal arm, especially the Leu8 in the β-structure, contribute the important binding energies to the dimerization of dimers, which might affect the assembly of the enzyme as well as the catalytic function.
- Published
- 2001
10. Preparation and epitope characterization of monoclonal antibodies against firefly luciferase
- Author
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Genjun Xu, Hongyu Hu, Qin Xu, and Jianfang Ding
- Subjects
medicine.drug_class ,Size-exclusion chromatography ,Biology ,Monoclonal antibody ,Molecular biology ,General Biochemistry, Genetics and Molecular Biology ,Epitope ,Antigen ,Affinity chromatography ,Competitive binding ,medicine ,Secretion ,Luciferase ,General Agricultural and Biological Sciences ,General Environmental Science - Abstract
The 6-His tagged firefly luciferase was highly expressed inE. coli and purified to homogeneity by affinity chromatography and gel filtration. After immunizing Balb/c mice with the antigen, 6 hybridomas clones were found to secrete monoclonal antibodies (mAbs) and the mAbs were also purified separately. The competitive binding experiments show that 2 mAbs can bind heat-denatured antigen or its proteolytic fragments but not the native luciferase, suggesting that their epitopes might be accommodated in the internal segments of the protein. On the other hand, the other 4 mAbs are capable of binding both native and denatured antigens. It infers that their epitopes locate in the segments on the protein surface. The results also suggest that the six mAbs are all sequence-specific.
- Published
- 1999
11. Mechanism of Snake Muscle Fructose 1,6-Bisphosphatase
- Author
-
Genjun Xu
- Subjects
Biochemistry ,biology ,Chemistry ,Mechanism (biology) ,Fructose 1,6-bisphosphatase ,biology.protein - Published
- 1989
- Full Text
- View/download PDF
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