共查询到20条相似文献,搜索用时 8 毫秒
1.
Lerch TF O'Donnell JK Meyer NL Xie Q Taylor KA Stagg SM Chapman MS 《Structure (London, England : 1993)》2012,20(8):1310-1320
Highlights? The 4.5 Å cryo-EM structure of AAV-DJ fully resolves the polypeptide backbone ? Liver tropism selected for in AAV-DJ has not changed the heparin binding site ? Changed conformation in an antigenic loop blocks binding of a neutralizing mAb ? Changed in vivo tropism may result from changed immune interactions 相似文献
2.
Na,K-ATPase transports Na(+) and K(+) across cell membranes and consists of alpha- and beta-subunits. Na,K-ATPase also associates with small FXYD proteins that regulate the activity of the pump. We have used cryoelectron microscopy of two-dimensional crystals including data to 8 A resolution to determine the three-dimensional (3-D) structure of renal Na,K-ATPase containing FXYD2, the gamma-subunit. A homology model for the alpha-subunit was calculated from a Ca(2+)-ATPase structure and used to locate the additional beta- and gamma-subunits present in the 3-D map of Na,K-ATPase. Based on the 3-D map, the beta-subunit is located close to transmembrane helices M8 and M10 and the gamma-subunit is adjacent to helices M2 and M9 of the alpha-subunit. 相似文献
3.
Shinya Yoshikawa Kyoko Shinzawa-Itoh Tomitake Tsukihara 《Journal of bioenergetics and biomembranes》1998,30(1):7-14
Thirteen different polypeptide subunits, each in one copy, five phosphatidyl ethanolamines and three phosphatidyl glycerols, two hemes A, three Cu ions, one Mg ion, and one Zn ion are detectable in the crystal structure of bovine heart cytochrome c oxidase in the fully oxidized form at 2.8 Å resolution. A propionate of hems a, a peptide unit (–CO–NH–), and an imidazole bound to CuA are hydrogen-bonded sequentially, giving a facile electron transfer path from CuA to heme a. The O2 binding and reduction site, heme a
3, is 4.7 Å apart from CuB. Two possible proton transfer paths from the matrix side to the cytosolic side are located in subunit I, including hydrogen bonds and internal cavities likely to contain randomly oriented water molecules. Neither path includes the O2 reduction site. The O2 reduction site has a proton transfer path from the matrix side possibly for protons for producing water. The coordination geometry of CuB and the location of Tyr244 in subunit I at the end of the scalar proton path suggests a hydroperoxo species as the two electron reduced intermediate in the O2 reduction process. 相似文献
4.
Crystal Structure of Monomeric Photosystem II from
Thermosynechococcus elongatus at 3.6-?
Resolution
Matthias Broser Azat Gabdulkhakov Jan Kern Albert Guskov Frank Müh Wolfram Saenger Athina Zouni 《The Journal of biological chemistry》2010,285(34):26255-26262
The membrane-embedded photosystem II core complex (PSIIcc) uses light energy to
oxidize water in photosynthesis. Information about the spatial structure of
PSIIcc obtained from x-ray crystallography was so far derived from homodimeric
PSIIcc of thermophilic cyanobacteria. Here, we report the first crystallization
and structural analysis of the monomeric form of PSIIcc with high oxygen
evolution capacity, isolated from Thermosynechococcus
elongatus. The crystals belong to the space group C2221,
contain one monomer per asymmetric unit, and diffract to a resolution of 3.6
Å. The x-ray diffraction pattern of the PSIIcc-monomer crystals
exhibit less anisotropy (dependence of resolution on crystal orientation)
compared with crystals of dimeric PSIIcc, and the packing of the molecules
within the unit cell is different. In the monomer, 19 protein subunits, 35
chlorophylls, two pheophytins, the non-heme iron, the primary plastoquinone
QA, two heme groups, 11 β-carotenes, 22 lipids, seven
detergent molecules, and the Mn4Ca cluster of the water oxidizing
complex could be assigned analogous to the dimer. Based on the new structural
information, the roles of lipids and protein subunits in dimer formation of
PSIIcc are discussed. Due to the lack of non-crystallographic symmetry and the
orientation of the membrane normal of PSIIcc perpendicular
(∼87°) to the crystallographic b-axis,
further information about the structure of the Mn4Ca cluster is
expected to become available from orientation-dependent spectroscopy on this new
crystal form. 相似文献
5.
Yi Piao Ayano Kimura Satomi Urano Yuhki Saito Hidenori Taru Tohru Yamamoto Saori Hata Toshiharu Suzuki 《PloS one》2013,8(4)
Background
Alcadein proteins (Alcs; Alcα, Alcβand Alcγ) are predominantly expressed in neurons, as is Alzheimer''s β-amyloid (Aβ) precursor protein (APP). Both Alcs and APP are cleaved by primary α- or β-secretase to generate membrane-associated C-terminal fragments (CTFs). Alc CTFs are further cleaved by γ-secretase to secrete p3-Alc peptide along with the release of intracellular domain fragment (Alc ICD) from the membrane. In the case of APP, APP CTFβ is initially cleaved at the ε-site to release the intracellular domain fragment (AICD) and consequently the γ-site is determined, by which Aβ generates. The initial ε-site is thought to define the final γ-site position, which determines whether Aβ40/43 or Aβ42 is generated. However, initial intracellular ε-cleavage sites of Alc CTF to generate Alc ICD and the molecular mechanism that final γ-site position is determined remains unclear in Alcs.Methodology
Using HEK293 cells expressing Alcs plus presenilin 1 (PS1, a catalytic unit of γ-secretase) and the membrane fractions of these cells, the generation of p3-Alc possessing C-terminal γ-cleavage site and Alc ICD possessing N-terminal ε-cleavage site were analysed with MALDI-TOF/MS. We determined the initial ε-site position of all Alcα, Alcβ and Alcγ, and analyzed the relationship between the initially determined ε-site position and the final γ-cleavage position.Conclusions
The initial ε-site position does not always determine the final γ-cleavage position in Alcs, which differed from APP. No additional γ-cleavage sites are generated from artificial/non-physiological positions of ε-cleavage for Alcs, while the artificial ε-cleavage positions can influence in selection of physiological γ-site positions. Because alteration of γ-secretase activity is thought to be a pathogenesis of sporadic Alzheimer''s disease, Alcs are useful and sensitive substrate to detect the altered cleavage of substrates by γ-secretase, which may be induced by malfunction of γ-secretase itself or changes of membrane environment for enzymatic reaction. 相似文献6.
7.
《Journal of molecular biology》1996,257(3):632-643
The P13K SH3 domain, residues 1 to 85 of the P1 – 3 kinase p85 subunit, has been characterized by X-ray diffraction. Crystals belonging to space groupP43212 diffract to 2.0 Å resolution and the structure was phased by single isomorphous replacement and anomalous scattering (SIRAS). As expected, the domain is a compact β barrel with an over-all conformation very similar to the independently determined NMR structures. The X-ray structure illuminates a discrepancy between the two NMR structures on the conformation of the loop region unique to P13K SH3. Furthermore, the ligand binding pockets of P13K SH3 domain are occupied by amino acid residues from symmetry-related P13K SH3 molecules: the C-terminal residues I(82) SPP of one and R18 of another. The interaction modes clearly resemble those observed for the P13K SH3 domain complexed with the synthetic peptide RLP1, a class 1 ligand, although there are significant differences. The solid-state interactions suggest a model of protein – protein aggregation that could be mediated by SH3 domains. 相似文献
8.
9.
Yuan Tian Christina J. Crump Yue-Ming Li 《The Journal of biological chemistry》2010,285(42):32549-32556
Processing of the amyloid precursor protein (APP) by β- and γ-secretases generates pathogenic β-amyloid (Aβ) peptides associated with Alzheimer disease (AD), whereas cleavage of APP by α-secretases precludes Aβ formation. Little is known about the role of α-secretase cleavage in γ-secretase regulation. Here, we show that α-secretase-cleaved APP C-terminal product (αCTF) functions as an inhibitor of γ-secretase. We demonstrate that the substrate inhibitory domain (ASID) within αCTF, which is bisected by the α-secretase cleavage site, contributes to this negative regulation because deleting or masking this domain turns αCTF into a better substrate for γ-secretase. Moreover, α-secretase cleavage can potentiate the inhibitory effect of ASID. Inhibition of γ-secretase activity by αCTF is observed in both in vitro and cellular systems. This work reveals an unforeseen role for α-secretase in generating an endogenous γ-secretase inhibitor that down-regulates the production of Aβ. Deregulation of this feedback mechanism may contribute to the pathogenesis of AD. 相似文献
10.
Jacqueline Vitali Brian Schick Harry C.M. Kester Jaap Visser Frances Jurnak 《Plant physiology》1998,116(1):69-80
The three-dimensional structure of Aspergillus niger pectin lyase B (PLB) has been determined by crystallographic techniques at a resolution of 1.7 Å. The model, with all 359 amino acids and 339 water molecules, refines to a final crystallographic R factor of 16.5%. The polypeptide backbone folds into a large right-handed cylinder, termed a parallel β helix. Loops of various sizes and conformations protrude from the central helix and probably confer function. The largest loop of 53 residues folds into a small domain consisting of three antiparallel β strands, one turn of an α helix, and one turn of a 310 helix. By comparison with the structure of Erwinia chrysanthemi pectate lyase C (PelC), the primary sequence alignment between the pectate and pectin lyase subfamilies has been corrected and the active site region for the pectin lyases deduced. The substrate-binding site in PLB is considerably less hydrophilic than the comparable PelC region and consists of an extensive network of highly conserved Trp and His residues. The PLB structure provides an atomic explanation for the lack of a catalytic requirement for Ca2+ in the pectin lyase family, in contrast to that found in the pectate lyase enzymes. Surprisingly, however, the PLB site analogous to the Ca2+ site in PelC is filled with a positive charge provided by a conserved Arg in the pectin lyases. The significance of the finding with regard to the enzymatic mechanism is discussed. 相似文献
11.
12.
《Journal of molecular biology》1996,260(4):553-569
The pyrogenic toxin toxic shock syndrome toxin-1 fromStaphylococcus aureusis a causative agent of the toxic shock syndrome disease. It belongs to a family of proteins known as superantigens that cross-link major histocompatibility class II molecules and T-cell receptors leading to the activation of a substantial number of T cells. The crystal structure of this protein has been refined to 2.07 Å with anRcrystvalue of 20.4% for 51,240 reflections. The final model contains three molecules in the asymmetric unit with good stereochemistry and a root-mean-square deviation of 0.009 Å and 1.63° from ideality for bond lengths and bond angles, respectively. The overall fold is considerably similar to that of other known microbial superantigens (staphylococcal enterotoxins). However, a detailed structural analysis shows that toxic shock syndrome toxin-1 lacks several structural features that affect its specificity for Vβ elements of the T-cell receptor and also its recognition by major histocompatibility class II molecules. 相似文献
13.
The presenilin/γ-secretase complex, an unusual intramembrane aspartyl protease, plays an essential role in cellular signaling and membrane protein turnover. Its ability to liberate numerous intracellular signaling proteins from the membrane and also mediate the secretion of amyloid-β protein (Aβ) has made modulation of γ-secretase activity a therapeutic goal for cancer and Alzheimer disease. Although the proteolysis of the prototypical substrates Notch and β-amyloid precursor protein (APP) has been intensely studied, the full spectrum of substrates and the determinants that make a transmembrane protein a substrate remain unclear. Using an unbiased approach to substrate identification, we surveyed the proteome of a human cell line for targets of γ-secretase and found a relatively small population of new substrates, all of which are type I transmembrane proteins but have diverse biological roles. By comparing these substrates to type I proteins not regulated by γ-secretase, we determined that besides a short ectodomain, γ-secretase requires permissive transmembrane and cytoplasmic domains to bind and cleave its substrates. In addition, we provide evidence for at least two mechanisms that can target a substrate for γ cleavage: one in which a substrate with a short ectodomain is directly cleaved independent of sheddase association, and a second where a substrate requires ectodomain shedding to instruct subsequent γ-secretase processing. These findings expand our understanding of the mechanisms of substrate selection as well as the diverse cellular processes to which γ-secretase contributes. 相似文献
14.
Thomas Lemmin Mitko Dimitrov Patrick C. Fraering Matteo Dal Peraro 《The Journal of biological chemistry》2014,289(10):6763-6774
The amyloid precursor protein (APP) is a widely expressed type I transmembrane (TM) glycoprotein present at the neuronal synapse. The proteolytic cleavage by γ-secretase of its C-terminal fragment produces amyloid-β (Aβ) peptides of different lengths, the deposition of which is an early indicator of Alzheimer disease. At present, there is no consensus on the conformation of the APP-TM domain at the biological membrane. Although structures have been determined by NMR in detergent micelles, their conformation is markedly different. Here we show by using molecular simulations that the APP-TM region systematically prefers a straight α-helical conformation once embedded in a membrane bilayer. However, APP-TM is highly flexible, and its secondary structure is strongly influenced by the surrounding lipid environment, as when enclosed in detergent micelles. This behavior is confirmed when analyzing in silico the atomistic APP-TM population observed by residual dipolar couplings and double electron-electron resonance spectroscopy. These structural and dynamic features are critical in the proteolytic processing of APP by the γ-secretase enzyme, as suggested by a series of Gly700 mutants. Affecting the hydration and flexibility of APP-TM, these mutants invariantly show an increase in the production of Aβ38 compared with Aβ40 peptides, which is reminiscent of the effect of γ-secretase modulators inhibitors. 相似文献
15.
The γ-secretase complex is a prime target for pharmacological intervention in Alzheimer’s disease and so far drug discovery efforts have yielded a large variety of potent and rather specific inhibitors of this enzymatic activity. However, as γ-secretase is able to cleave a wide variety of physiological important substrates, the real challenge is to develop substrate-specific compounds. Therefore, obtaining structural information about γ-secretase is indispensable. As crystal structures of the complex will be difficult to achieve, applied biochemical approaches need to be integrated with structural information obtained from other intramembrane-cleaving proteases. Here we review current knowledge about the structure and function of γ-secretase and discuss the value of these findings for the mechanistic understanding of this unusual protease. 相似文献
16.
17.
《Journal of molecular biology》1996,260(3):395-408
The crystallographic structure of the CAP-DNA complex at 3.0 Å resolution has been reported previously. For technical reasons, the reported structure had been determined using a gapped DNA molecule lacking two phosphates important for CAP-DNA interaction. In this work, we report the crystallographic structure of the CAP-DNA complex at 2.5 Å resolution using a DNA molecule having all phosphates important for CAP-DNA interaction. The present resolution permits unambiguous identification of amino acid-base and amino acid-phosphate hydrogen bonded contacts in the CAP-DNA complex. In addition, the present resolution permits accurate definition of the kinked DNA conformation in the CAP-DNA complex. 相似文献
18.
Chávez-Gutiérrez L Bammens L Benilova I Vandersteen A Benurwar M Borgers M Lismont S Zhou L Van Cleynenbreugel S Esselmann H Wiltfang J Serneels L Karran E Gijsen H Schymkowitz J Rousseau F Broersen K De Strooper B 《The EMBO journal》2012,31(10):2261-2274
The mechanisms by which mutations in the presenilins (PSEN) or the amyloid precursor protein (APP) genes cause familial Alzheimer disease (FAD) are controversial. FAD mutations increase the release of amyloid β (Aβ)42 relative to Aβ40 by an unknown, possibly gain‐of‐toxic‐function, mechanism. However, many PSEN mutations paradoxically impair γ‐secretase and ‘loss‐of‐function’ mechanisms have also been postulated. Here, we use kinetic studies to demonstrate that FAD mutations affect Aβ generation via three different mechanisms, resulting in qualitative changes in the Aβ profiles, which are not limited to Aβ42. Loss of ε‐cleavage function is not generally observed among FAD mutants. On the other hand, γ‐secretase inhibitors used in the clinic appear to block the initial ε‐cleavage step, but unexpectedly affect more selectively Notch than APP processing, while modulators act as activators of the carboxypeptidase‐like (γ) activity. Overall, we provide a coherent explanation for the effect of different FAD mutations, demonstrating the importance of qualitative rather than quantitative changes in the Aβ products, and suggest fundamental improvements for current drug development efforts. 相似文献
19.
20.
Kye-Won Kim Clyde A. Smith Michael D. Daily John R. Cort Laurence B. Davin Norman G. Lewis 《The Journal of biological chemistry》2015,290(3):1308-1318
Control over phenoxy radical-radical coupling reactions in vivo in vascular plants was enigmatic until our discovery of dirigent proteins (DPs, from the Latin dirigere, to guide or align). The first three-dimensional structure of a DP ((+)-pinoresinol-forming DP, 1.95 Å resolution, rhombohedral space group H32)) is reported herein. It has a tightly packed trimeric structure with an eight-stranded β-barrel topology for each DP monomer. Each putative substrate binding and orientation coupling site is located on the trimer surface but too far apart for intermolecular coupling between sites. It is proposed that each site enables stereoselective coupling (using either two coniferyl alcohol radicals or a radical and a monolignol). Interestingly, there are six differentially conserved residues in DPs affording either the (+)- or (−)-antipodes in the vicinity of the putative binding site and region known to control stereoselectivity. DPs are involved in lignan biosynthesis, whereas dirigent domains/sites have been implicated in lignin deposition. 相似文献