Stimulation and conformational change of Goα induced by GAP-43

GAP-43 and G_o are peripheral membrane proteins enriched in neuronal growth cone. GAP-43 was highly purified from bovine cerebral cortex and myristoylated G_oαwas highly purified from Escherichia coli cotransformed with pQE60 (G_oα) and pBB131 (NMT). GAP-43 stimulated GTPγS binding to G_oαand the stimulation effect was dependent on concentration of GAP-43. Protein-protein binding experiments using CaM-Sepharose affinity media revealed that Goa·GDP bound GAP-43 directly to form intermolecular complex. This interaction induced conformational change of G_oα. In the presence of GAP-43, fluorescence spectrum of Goa·GDP blue shifted 4 nm; fluorescence intensity increased 35.3% and apparent quenching constant (Ksv) increased from (1.1± 0.22)×10⁵ to (4.1±0.43)×10⁵ (M^-1). However, no obvious changes of fluorescence spectra of G_oα·GTPγS were observed in the absence or presence of GAP-43. Our results indicated that GAP-43 induced conformational change of G_oα·GDP so as to accelerate GDP release and subsequent GTPγS binding, which activates G proteins to trigger signal transduction and amplification. These results provided insights into understanding the function of G proteins in coupling between receptors and effectors and the key role of GDP/GTP exchange mode in GTPase cycle.     

In vitro palmitoylation of native bovine brain G_oα

The native Goα was purified from bovine brain cortex and palmitoylated in vitro. The in vitro palmitoylation site was the same as that in vivo. The internal palmitoylation of purified native Goα was found to be largely maintained. The apparent palmitoylation ratio was significantly increased after the Goα was treated with DTT. The GTPγS binding characteristic of Goα was not influenced by palmitoylation, however, the affinity for LUVs was increased dramatically. The in vitro palmitoylation model of Goα provides a better basis for studying the functional role of G protein palmitoylation in signal transduction.     

Human Calprotectin： Effect of Calcium and Zinc on its Secondary and Tertiary Structures, and Role of pH in its Thermal Stability

Calprotectin, a heterodimeric complex belonging to the S 100 protein family, has been found predominantly in the cytosolic fraction of neutrophils. In the present study, human calprotectin was purified from neutrophils using two-step ion exchange chromatography. The purified protein was used for circular dichroism study and fluorescence analysis in the presence of calcium and zinc at physiological concentrations, as well as for assessment of its inhibitory activity on the K562 leukemia cell line. The thermal stability of the protein at pH 7.0 （physiological pH） and 8.0 （similar to intestinal pH） was also compared. The results of cell proliferation analysis revealed that human calprotectin initiated growth inhibition of the tumor cells in a dose- dependent manner. The intrinsic fluorescence emission spectra of human calprotectin （50 ktg/ml） in the presence of calcium and zinc ions show a reduction in fluorescence intensity, reflecting a conformational change within the protein with exposure of aromatic residues to the protein surface that is important for the biological function of calprotectin. The far ultraviolet-circular dichroism spectra of human calprotectin in the presence of calcium and zinc ions at physiological concentrations show a decrease in the m-helical content of the protein and an increase in [3- and other structures. Our results also show that increasing the pH level from 7.0 to 8.0 leads to a marked elevation in the thermal stability of human calprotectin, indicating a significant role for pH in the stability of calprotectin in the gut.     

Recombinant neural protein PrP can bind with both recombinant and native apolipoprotein E in vitro

The most essential and crucial step during the pathogenesis of transmissible spongiformencephalopathy is the conformational change of cellular prion protein (PrP~C) to pathologic isoform (PrP~(Sc)).Alot of data revealed that caveolae-like domains (CLDs) in the cell surface were the probable place where theconversion of PrP proteins happened.Apolipoprotein E (ApoE) is an apolipoprotein which is considered toplay an important role in the development of Alzheimer's disease and other neurodegenerative diseases byforming protein complex through binding to the receptor located in the clathrin-coated pits of the cell surface.In this study,a 914-bp cDNA sequence encoding human ApoE3 was amplified from neuroblastoma cell lineSH-SY5Y.Three human ApoE isomers were expressed and purified from Escherichia coli.ApoE-specificantiserum was prepared by immunizing rabbits with the purified ApoE3.GST/His pull-down assay,immunoprecipitation and ELISA revealed that three full-length ApoE isomers interact with the recombinantfull-length PrP protein in vitro.The regions corresponding to protein binding were mapped in the N-terminalsegment of ApoE (amino acid 1-194) and the N-terminal of PrP (amino acid 23-90).Moreover,the recombinantPrP showed the ability to form a complex with the native ApoE from liver tissues.Our data provided directevidence of molecular interaction between ApoE and PrP.It also supplied scientific clues for assessing thesignificance of CLDs on the surface of cellular membrane in the process of conformational conversion fromPrP~C to PrP~(Sc) and probing into the pathogenesis of transmissible spongiform encephalopathy.     

The guanidine hydrochloride-induced denaturation of CP43 and CP47 studied by terahertz time-domain spectroscopy

Terahertz time-domain spectroscopy (THz-TDS) is a new technique in studying the conformational state of a molecule in recent years. In this work, we reported the first use of THz-TDS to examine the dena- turation of two photosynthesis membrane proteins: CP43 and CP47. THz-TDS was proven to be useful in discriminating the different conformational states of given proteins with similar structure and in monitoring the denaturation process of proteins. Upon treatment with guanidine hydrochloride (GuHCl), a 1.8 THz peak appeared for CP47 and free chlorophyll a (Chl a). This peak was deemed to originate from the interaction between Chl a and GuHCl molecules. The Chl a molecules in CP47 interacted with GuHCl more easily than those in CP43.     

Biophysical characterization and ligand-binding properties of the elongation factor Tu from Mycobacterium tuberculosis

Mycobacterium tuberculosis(Mtb)is the key devastating bacterial pathogen responsible for tuberculosis.Increasing emergence of multi-drug-resistant,extensively drug-resistant,and rifampicin/isoniazid-resistant strains of Mtb makes the discovery of validated drug targets an urgent priority.As a vital translational component of the protein biosynthesis system,elongation factor Tu(EF-Tu)is an important molecular switch responsible for selection and binding of the cognate aminoacyl-tRNA to the acceptor site on the ribosome.In addition,EF-Tu from Mtb(MtbEF-Tu)is involved in the initial step of trans-translation which is an effective system for rescuing the stalled ribosomes from non-stop translation complexes under stress conditions.Given its crucial role in protein biosynthesis,EF-Tu is identified as an excellent molecular target for drug design.Here,we reported the recombinant expression,purification,biophysical characterization,and structural modeling of the MtbEF-Tu protein.Our results demonstrated that prokaryotic expression plasmids of pET28a-MtbEF-Tu could be expressed efficiently in Escherichia coli.We successfully purified the 6× His-tagged proteins with a yield of 16.8 mg from 1 l of Luria Bertani medium.Dynamic light scattering experiments showed that MtbEF-Tu existed in a monomeric form,and circular dichroism experiments indicated that MtbEF-Tu was well structured.Moreover,isothermal titration calorimetry experiments displayed that the purified MtbEF-Tu protein possessed intermediate binding affinities for guanosine-5′-triphosphate(GTP)and GDP.The GTP/GDP-binding sites were predicted by flexible molecular docking approach which reveals that GTP/GDP binds to MtbEF-Tu mainly through hydrogen bonds.Our work lays the essential basis for further structural and functional studies of MtbEF-Tu as well as MtbEF-Tu-related novel drug developments.     

Crystal structure of Arabidopsis thaliana RabA_(1a)

RabGTPase is a member of the Ras superfamily of small GTPases, which share a GTP-binding pocket containing highly conserved motifs that promote GTP hydrolysis. In Arabidopsis, the RabA group, which corresponds to the Rab_(11) group in animals, functions in the recycling of endosomes that control docking and fusion during vesicle transport. However, their molecular mechanisms remain unknown. In this study, we determined the crystal structures of the GDP-bound inactive form and both GppNHp-and GTP-bound active forms of RabA1a, at resolutions of 2.8, 2.6, and 2.6 A?,respectively. A bound sulfate ion in the active site of the GDP-bound structure stabilized Switch Ⅱ by bridging the interaction between a magnesium ion and Arg74.Comparisons of the two states of RabA1a with Rab_(11) proteins revealed clear differences in the Switch Ⅰ and Ⅱ loops. These results suggested that conformational change of the Switch regions of RabA1a, derived by GTP or GDP binding, could maintain subcellular membrane traffic through the specific interaction of effector molecules.     

L-amino acid oxidase from Naja atra venom activates and binds to human platelets

An L-amino acid oxidase （LAAO）, NA-LAAO, was purified from the venom ofNaja atra. Its N-terminal sequence shows great similarity with LAAOs from other snake venoms. NA- LAAO dose-dependently induced aggregation of washed human platelets. However, it had no activity on platelets in platelet-rich plasma. A low concentration of NA-LAA O greatly promoted the effect of hydrogen peroxide, whereas hydrogen peroxide itself had little activation effect on platelets. NA-LAAO induced tyros＇mephosphorylationofanumber ofplatelet proteins including Src kinase, spleen tyrosine kinase, and phospholipase C γ2. Unlike convulxin, Fc receptor γchain and T lymphocyte adapter protein are not phosphorylated in NA-LAAO- activated platelets, suggesting an activation mechanism different from the glycoprotein VI pathway. Catalase inhibited the platelet aggregation and platelet protein phosphorylation induced by NA-LAAO. NA-LAAO bound to fixed platelets as well as to platelet lysates of Western blots. Furthermore, affinity chromatography ofplatelet proteins on an NA-LAAO- Sepharose 4B column isolated a few platelet membrane proteins, suggesting that binding of NA-LAAO to the platelet membrane might play a role in its action on platelets.     

The Zα domain of fish PKZ converts DNA hairpin with d（GC）n inserts to Z-conformation

PKZ, protein kinase containing Z-DNA domains, is a novel member of the vertebrate eIF2α kinase family. Containing a catalytic domain in C-terminus and two Z-DNA binding domains （Zαl and Zα2） in N-terminus, PKZ can be acti- vated through the binding of Zα to Z-DNA. However, the regulatory function of PKZ Zα remains to be established. Here, to understand the impact of PKZ Zα on DNA con- formational transition, wild-type ZαdZα2 and 11 mutant proteins were expressed and purified. At the same time, several different lengths of DNA hairpins-d（GC）nT4（GC）, （n = 2-6） and an RNA hairpin-r（GC）6T4（GC）6 were synthesized. The effects of ZαdZα2 and mutant proteins on the conformation of these synthetic DNA or RNA hairpins were investigated by using circular dichroism spectrum and gel mobility shift assays. The results showed that DNA hair- pins retained a conventional B-DNA conformation in the absence of ZαdZα2, while some of the DNA hairpins （n 〉 3） were converted to Z-conformation under Zαd Zα2 induction. The tendency was proportionally associated with the increas- ing amount of GC repeat. In comparison with ZodZα2, ZαdZαd rather than Zα2ZαL2 displayed a higher ability in converting d（GC）6T4（GC）6 from B- to Z-DNA. These results demonstrated that Zcd sub-domain played a more essential role in the process of B-Z conformational transition than Zα2 sub-domain did. Mutant proteins （K34A, N38A, R39A, Y42A, P57A, P58A, and W60A） could not convert d（GC）6T4（GC）6 into Z-DNA, whereas S35A or K56A retained some partial activities. Interestingly, ZαlZα2 was also able to induce r（GC）6T4（GC）6 RNA from A-conform- ation to Z-conformation under appropriate conditions.     

cDNA cloning and recombinant expression of the general odorant binding protein II from Spodoptera litura

A cDNA encoding the general odorant binding protein II (GOBP II) was isolated from the antennae of Spodoptera litura (SlGOBP II, GenBank Accession No. EU086371) by homologous cloning and rapid amplification of cDNA ends (RACE). Sequencing and structural analyses revealed that the open reading frame (ORF) of SlGOBP II was 489 bp, encoding 162 amino acids with a predicted MW of 18.2 kD and pI of 5.72. SlGOPB II shared typical structural features of odorant binding proteins with other insects, including the six conservative cysteine residues. The deduced amino acid sequence of SlGOPB II shared significant identity with the GOBP II from S. frugiperda and S. exigua. RT-PCR and Northern blot analyses showed that SlGOBP II was specifically expressed in the antennae. cDNA encoding SlGOBP II was constructed into the pET-32a vector and the recombinant protein was highly expressed in Es-cherichia coli BL21 (DE3) after induction with IPTG. SDS electrophoresis and Western blot analysis confirmed the molecular weight of the recombinant SIGOBPII i.e, 32 kD, which has a 6×His tag at the N-terminus. The recombinant SlGOBP II was purified by single-step Ni-NTA affinity chromatography and used to raise antiserum in rabbits. ELISA showed that the titer of antiserum was 1︰12800, while Western blot analysis showed that the recombinant SlGOBP II was recognized as anti-SlGOBP II an-tiserum.     

Sequence analysis of keratin-like proteins and cloning of intermediate filament-like cDNA from higher plant cells

Two keratin-like proteins of 64 and 55 ku were purified from suspension cells of Caucus carota L, and their partial amino acid sequences were determined. The homological analysis showed that the sequence from the 64 ku protein was highly homological to p-glucosidase, and that from the 55 ku protein had no significant homologue in GenBank. Using conservative sequence of animal IF proteins as primer, we cloned a cDNA fragment from Daucus carota L. Southern blot and Northern blot results indicated that this cDNA fragment was a single copy gene and expressed both in suspension cells and leaves. Homological analysis revealed that it had moderate homology to a variety of a-helical proteins. Our results might shed more light on molecular characterization of IF existence in higher plant.     

High efficient expression of Lhcb2 gene from pea in E. coli and reconstitution of its expressed product with pigment in vitro

Lhcb2 gene from pea (Pisum sativum L.) was subcloned into bacterial expression vector pET-3d, and its protein overexpressed was obtained from E. coli (BL21) containing PetpLhcb2 by site-directed mutagenesis method. Bacteria transformed with this construct yielded up to 40 percent of total protein of E. coli. Using the modified method with three subsequent cycles of freezing (1 min, -196℃) and thawing (15 min, 25℃), Lhcb2 protein purified was highly reconstituted with pigments to yield pigment-protein complexes. The reconstituted LHCB2 monomers were very similar to native LHCll monomers from spinach in partially denaturing polyacrylamide gel electrophoresis, fluorescence and absorbance spectroscopy. These results showed that Lhcb2 proteins overexpressed were reconstituted successfully with pigments and had similar organization and structure to the native LHCII monomers.     

Positive Charges on Lysine Residues of the Extrinsic 18 kDa Protein Are Important to Its Electrostatic Interaction with Spinach Photosystem Ⅱ Membranes

To determine the contribution of charged amino acids to binding with the photosystem II complex （PSII）, the amino or carboxyl groups of the extrinsic 18 kDa protein were modified with N- succinimidyl propionate （NSP） or glycine methyl ester （GME） in the presence of a water-soluble carbodiimide, respectively. Based on isoelectric point shift, 4-10 and 10-14 amino groups were modified in the presence of 2 and 4 mM NSP, respectively. Similarly, 3-4 carboxyl groups were modified by reaction with 100 mM GME. Neutralization of negatively charged carboxyl groups with GME did not alter the binding activity of the extrinsic 18 kDa protein. However, the NSP-modified 18 kDa protein, in which the positively charged amino groups had been modified to uncharged methyl esters, failed to bind with the PSII membrane in the presence of the extrinsic 23 kDa protein. This defect can not be attributed to structural or conformational alterations imposed by chemical modification, as the fluorescence and circular dichroism spectra among native, GME- and NSP-modified extrinsic 18 kDa proteins were similar. Thus, we have concluded that the positive charges of lysyl residues in the extrinsic 18 kDa protein are important for its interaction with PSII membranes in the presence of the extrinsic 23 kDa protein. Furthermore, it was found that the negative charges of carboxyl groups of this protein did not participate in binding with the extrinsic 23 kDa protein associated with PSII membranes.     

Preliminary investigation of sequence-independent DNA binding proteins in rat skeletal muscle sarcoplasmic reticulum and their function

To observe the binding of plasmid DNA to non-nuclear DNA binding proteins in sar-coplasmic reticulum (SR) and the effects of this binding on SR function, sarcoplasmic reticulum proteins in rat skeletal muscle were isolated by differential centrifuge and sucrose density-gradient centrifuge. The results showed that there are two sequence-independent DNA binding proteins in SR proteins, the molecular weights of which are 83 and 58 ku, respectively. Ca2 uptake and release of SR were remarkably promoted by the binding of plasmid DNA to DNA binding proteins in SR, the mechanism is probably through increasing of Ca2 -ATPase activity in SR and changing of character of Ca2 release channel ryanodine receptors induced by the binding. These results suggest that there exist DNA binding proteins in SR and its binding to DNA may affect Ca2 transport of SR.     

The fluorescence brightener Rylux BSU induces dimorphism inBasidiobolus ranarum

The fluorescence brightener Rylux BSU (RBSU) showed an affinity for polysaccharide components of cell walls and accumulated in the extension zones of hyphal apices inBasidiobolus ranarum. It inhibited the polarized growth of mycelial hyphae and induced isotropic growth resulting in spherical thick-walled cells up to 456 μm in diameter. On the inner cell wall surface, massive protuberances were formed. The cell wall and protuberances were positive in PAS and the Grocott method and stained with fluorochromes Blankophor BA, Calcofluor, Uvitex 2B, Rylux BSU and FITC-labeled WGA- and ConA-lectins. The WGA-FITC fluorescence intensity of the wall’s outermost layer, if not connected with neighbouring cells, and the fluorescence intensity of the innermost layer and of some protuberances mainly in their apical parts were on the average twice higher than the fluorescence intensity of the remaining wall material. RBSU binding to the cell wall material was stable. The process of converting from polarized to isotropic growth was reversible, depending upon contact with RBSU-containing medium. Repeated transfers of cells from RBSU-containing medium to an RBSU-free medium resulted in the development of apical swollen dumbbell-shaped cells.     

人载脂蛋白AⅠ基因的克隆表达及功能

To identify, clone ,sequence and highly express the mature peptide gene of ApoA Ⅰ, total RNA was prepared from human fetal liver tissue. cDNA fragment encoding human ApoA Ⅰ was amplified by RT-PCR using specific primers, and then was inserted in pGEM-T vector. DNA sequencing indicates that the fragment is 729 base pairs in length and has 100% nucleotide homology with that of reported ApoA Ⅰ cDNA gene previously. The ApoA Ⅰ gene was cloned into pGEX 5X-1.The recombinant protein was expressed in E.coli DH5α, purified by glutathione-Sepharose 4B affinity chromatography and confirmed by SDS-PAGE. It was shown that the recombinant ApoA Ⅰ was expressed in E.coli, and the target protein amounted to 36% of total bacteria proteins. Cholesteryl ester transfer experiment showed that the recombinant ApoA Ⅰ was capable of promoting transfer of CE from HDL to LDL. Western blotting showed that the protein could react specifically with anti-ApoA Ⅰ antibodies.     

Expression of Outer Capsid Protein VP5 of Grass Carp Reovirus in E.coli and Analysis of its Immunogenicity

Grass carp reovirus （GCRV） is a tentative member of the Aquareovirus genus in the family Reoviridae. The mature virion comprises 11 dsRNA genomes enclosed by two concentric icosahedral proteins shells that is comprised of five core proteins and two outer capsid proteins. The genome sequence and 3D structure demonstrate there is a higher level of sequence homology in structural proteins between GCRV and mammalian orthoreoviruses （MRV） compared to other members of the family. To understand the pathogenesis of GCRV infection, the outer capsid protein VP5, a homology of the μ1 protein of MRV, was expressed in E.coli. It was found that the recombinant VP5 was highly expressed, and the expressed His-tag fusion protein was involved in the formation of the inclusion body. Additionally, specific anti-VP5 serum was prepared from purified protein and western blot demonstrated that the expressed protein was able to bind immunologically to rabbit anti GCRV particle serum and the immunogenicity was determined by ELISA assay. Additional experiments in investigating the functional properties of VP5 will further elucidate the role of the GCRV outer capsid protein VP5 during entry into host cells, and its interaction among viral proteins and host cells during the infection process.     

Structural changes of cellobiohydrolase I (1,4-beta-D-glucan-cellobiohydrolase I, CBHI) and PNPC (p-nitrophenyl-beta-D-cellobioside) during the binding process

Conformational changes to 1,4-β-D-glucan cellobiohydrolase I (CBHI) in response to its binding with p-nitrophenyl β-D-cellobioside (PNPC) were analyzed by second-derivative fluorescence spectrometry at the saturation binding point. Irreversible changes to the configuration of PNPC during the course of the binding process were characterized by UV spectral analysis. Isothermal titration calorimetry (ITC) was used to determine the stoichiometry of binding (i.e. the number of molar binding sites) of PNPC to CBHI. Two points on the surface of the CBHI molecule interact with PNPC, and irreversible changes to the configuration of PNPC occur during its conversion to p-nitrophenyl (PNP). The ITC studies demon-strated that the binding of PNPC to CBHI is an irreversible process, in which heat is released, but where there is no reversible equilibrium between PNPC-CBHI and CBHI and PNPC. On the other hand, PNP and cellobiose need to be released from the PNPC-CBHI complex to facilitate the repeated binding of new PNPC molecules to the renewable CBHI molecules. Therefore, we speculate that the energy, which powers the configurational change of PNPC as it is converted to PNP, is generated from cyclic changes in the conformation of CBHI during the binding/de-sorption process. These new insights may provide a basis for a better understanding of the binding mechanism in enzyme-substrate interactions.     

Doppel-induced cytotoxicity in human neuronal SH-SY5Y cells is antagonized by the prion protein

Doppel （Dpl） is a prion （PrP）-like protein due to the structural and biochemical similarities; however, the natural functions of Dpl and PrP remain unclear. In this study, a 531-bp human PRND gene sequence encoding Dpl protein was amplified from human peripheral blood leucocytes. Furl-length and various truncated human Dpl and PrP proteins were expressed and purified from Escherichia coil Supplement of the full-length Dpl onto human neuroblastoma cell SH-SY5Y induced remarkable cytotoxicity, and the region responsible for its cytotoxicity was mapped at the middle segment of Dpl [amino acids （aa） 81-122]. Interestingly, DpMnduced cytotoxicity was antagonized by the presence of full- length wild-type PrP. Analysis on fragments of PrP mutants showed that the N-terminal fragment （aa 23- 90） of PrP was responsible for the protective activity. A truncated PrP （PrPA32-121） with similar secondary structure as Dpl induced DpMike cytotoxicity on SH- SY5Y cells. Furthermore, binding of copper ion could enhance the antagonizing effect of PrP on Dpi-induced cytotoxicity. Apoptosis assays revealed that cytotoxicity induced by Dpl occurred through an apoptotic mechanism. These results suggested that the function of Dpl is antagonistic to PrP rather than synergistic.