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Journal articles on the topic 'Structural complex'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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1

Yamasaki, Satoshi, and Kazuhiko Fukui. "2P266 Tertiary structure prediction of RNA-RNA complex structures using secondary structure information(22A. Bioinformatics: Structural genomics,Poster)." Seibutsu Butsuri 53, supplement1-2 (2013): S203. http://dx.doi.org/10.2142/biophys.53.s203_1.

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2

Sun Moon, Kyoung. "Structural Design and Construction of Complex-Shaped Tall Buildings." International Journal of Engineering and Technology 7, no. 1 (2015): 30–35. http://dx.doi.org/10.7763/ijet.2015.v7.761.

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3

Yin, Xiao Wei, Wen Xue Qian, and Li Yang Xie. "Structural Analysis of Complex Aluminum Alloy Structural Component." Applied Mechanics and Materials 602-605 (August 2014): 49–52. http://dx.doi.org/10.4028/www.scientific.net/amm.602-605.49.

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Aluminum alloy structures are widely used in engineering practice. The advantage of aluminum alloy is light weight and corrosion resistance. For different application fields, the structures of aluminum alloy components are very different. They are typically lighter for the same strength and provide better heat conduction. As we know that do FEA (finite element analysis) is necessary before and after the alloy structures have been made. In this paper, a detail analysis was done with FEM (finite element method), and the stress distribution of alloy structures was obtained. Also the FEA results s
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4

Hederstedt, L. "STRUCTURAL BIOLOGY: Enhanced: Complex II Is Complex Too." Science 299, no. 5607 (2003): 671–72. http://dx.doi.org/10.1126/science.1081821.

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5

Zhou, S., and R. J. Mondragón. "Structural constraints in complex networks." New Journal of Physics 9, no. 6 (2007): 173. http://dx.doi.org/10.1088/1367-2630/9/6/173.

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6

Dshemuchadse, J., and W. Steurer. "Structural characteristics of complex intermetallics." Acta Crystallographica Section A Foundations of Crystallography 68, a1 (2012): s64. http://dx.doi.org/10.1107/s0108767312098777.

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7

Livanova, O. V., E. Yu Narusova, and G. A. Filippov. "Complex microalloying of chromonickel structural steels." Steel in Translation 38, no. 11 (2008): 939–42. http://dx.doi.org/10.3103/s0967091208110156.

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8

Kirichenko, I. A., and A. V. Smirnov. "Investment Complex of Russia: Structural Shifts." World of new economy 14, no. 4 (2021): 110–22. http://dx.doi.org/10.26794/2220-6469-2020-14-4-110-122.

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The article presents the results of the analysis of the main parameters of the investment sphere development over the past twelve years. The base year for comparison is pre-crisis 2007. We considered the main trends in the development of investment activity both for the full range of enterprises and organizations, and for large and medium-sized enterprises (without small businesses and the volume of investment that is not observed by direct statistical methods). We concluded that it is advisable to base further research on data collected by Rosstat for large and medium-sized enterprises., We g
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9

Horsefield, Rob, So Iwata, and Bernadette Byrne. "Complex II from a Structural Perspective." Current Protein and Peptide Science 5, no. 2 (2004): 107–18. http://dx.doi.org/10.2174/1389203043486847.

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10

Webb, C. T., M. Gorman, and J. M. Gulbis. "Structural determination of the hTIM10 complex." Acta Crystallographica Section A Foundations of Crystallography 61, a1 (2005): c237. http://dx.doi.org/10.1107/s0108767305089907.

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11

Shevtsova, Olga. "Structural features of complex hydrochemical systems." E3S Web of Conferences 127 (2019): 02029. http://dx.doi.org/10.1051/e3sconf/201912702029.

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The set of non-conservative hydrochemical parameters is considered as a complex system, which displays collective behavior. It is found that the collective behavior is described by the power relation between the time variability (the standard deviations) and the average concentrations of different hydrochemical parameters in the scale range 100 – 0:0001 mg/kg. The exponent can be 0:7 – 0:9. Power law scaling is the mathematical expression of self similarity and fractality. The complex systems of nonconservative chemical parameters have a structure that can be characterized by exponent, normali
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12

Ivic, Nives, Silvija Bilokapic Halic та Mario Halic. "Structural investigation of importinβ:importin7:histone1 complex". Acta Crystallographica Section A Foundations and Advances 71, a1 (2015): s249. http://dx.doi.org/10.1107/s2053273315096205.

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13

Liaw, C. Y., C. G. Koh, and P. K. Fong. "Complex dynamics of simple structural systems." Journal of the Chinese Institute of Engineers 12, no. 4 (1989): 409–14. http://dx.doi.org/10.1080/02533839.1989.9677178.

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14

Yuan, Hai-Xin, and Kun-Liang Guan. "Structural insights of mTOR complex 1." Cell Research 26, no. 3 (2016): 267–68. http://dx.doi.org/10.1038/cr.2016.10.

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15

Bravo, Jerónimo, and Patrick Aloy. "Target selection for complex structural genomics." Current Opinion in Structural Biology 16, no. 3 (2006): 385–92. http://dx.doi.org/10.1016/j.sbi.2006.05.003.

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16

Zhilyukas, A. Yu. "Complex fracture criterion of structural elements." Strength of Materials 19, no. 12 (1987): 1655–60. http://dx.doi.org/10.1007/bf01523122.

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17

Dupont, B., E. Pillet, and S. Cogan. "Superelement Verification in Complex Structural Models." Shock and Vibration 15, no. 3-4 (2008): 369–81. http://dx.doi.org/10.1155/2008/237124.

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The objective of this article is to propose decision indicators to guide the analyst in the optimal definition of an ensemble of superelements in a complex structural assembly. These indicators are constructed based on comparisons between the unreduced physical model and the approximate solution provided by a nominally reduced superelement model. First, the low contribution substructure slave modes are filtered. Then, the minimum dynamical residual expansion is used to localize the superelements which are the most responsible for the response prediction errors. Moreover, it is shown that stati
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18

Ducroux, J. P., S. M. Rekhson, and F. L. Merat. "Structural relaxation in thermorheologically complex materials." Journal of Non-Crystalline Solids 172-174 (September 1994): 541–53. http://dx.doi.org/10.1016/0022-3093(94)90486-3.

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19

Neov, S., I. Gerasimova, V. Kozhukharov, P. Mikula, and P. Lukas. "Structural study of complex tellurite glasses." Journal of Non-Crystalline Solids 192-193 (December 1995): 53–56. http://dx.doi.org/10.1016/0022-3093(95)00331-2.

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20

Schuëller, G. I., and H. J. Pradlwarter. "Uncertainty analysis of complex structural systems." International Journal for Numerical Methods in Engineering 80, no. 6‒7 (2009): 881–913. http://dx.doi.org/10.1002/nme.2549.

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21

Gautam, Narayan, and Narayan Prasad Adhikari. "Structural characterization of HDAC2-MTA1 complex." BIBECHANA 22, no. 2 (2025): 108–15. https://doi.org/10.3126/bibechana.v22i2.74254.

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Histone deacetylases are recruited to specific transcriptional repression complexes through interactions with corepressor proteins. This recruitment leads to chromatin condensation and transcriptional silencing. In this study, we modeled the complex structure of HDAC2 with MTA1 and investigated the HDAC2 and MTA1 interactions using all-atom molecular dynamics (MD) simulation. Our results show that the ELM2-SANT domains of MTA1 wrap completely around HDAC2. We identified the different types of interactions such as hydrogen bonds, salt bridges, and hydrophobic interactions. Specifically, GLU186,
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22

Stambouli, Nejla, Mehdi Dridi, Ning-Ning Wei, Asma Jlizi, Abderahmen Bouraoui та Amel Ben Ammar Elgaaied. "Structural insight into the binding complex: β-arrestin/CCR5 complex". Journal of Biomolecular Structure and Dynamics 32, № 6 (2013): 866–75. http://dx.doi.org/10.1080/07391102.2013.794373.

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23

Ermolova, Olga. "Assessment of Structural Transformations Factors in the Agro-food Complex of Russia." Revista Gestão Inovação e Tecnologias 11, no. 3 (2021): 2172–85. http://dx.doi.org/10.47059/revistageintec.v11i3.2083.

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24

Tian, Yu, and Renaud Lambiotte. "Structural Balance and Random Walks on Complex Networks with Complex Weights." SIAM Journal on Mathematics of Data Science 6, no. 2 (2024): 372–99. http://dx.doi.org/10.1137/23m1584265.

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25

Ayomide, I. E. "Synthesis, Structural Analysis, and Characterization of Glimepiride Complexed with Yttrium." International Journal of Cell Biology and Physiology 04, no. 01 (2021): 23–27. http://dx.doi.org/10.55640/ijcbp-411.

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This study aims to synthesize, structurally analyze, and characterize a novel complex of glimepiride with yttrium, exploring its potential properties and applications. The glimepiride-yttrium complex was synthesized through a controlled reaction process involving glimepiride and yttrium chloride under specified conditions. The synthesized complex was subjected to a range of analytical techniques to determine its structural and chemical properties. These techniques included X-ray diffraction (XRD) for crystallographic analysis, Fourier-transform infrared spectroscopy (FTIR) for functional group
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26

Lin, Bin, Jie Wang, Xia Yang, et al. "Defect Contour Detection of Complex Structural Chips." Mathematical Problems in Engineering 2021 (May 27, 2021): 1–11. http://dx.doi.org/10.1155/2021/5518675.

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In the manufacture of chips, it is important to detect defects to assess whether the chip is potentially damageable that could cause unnecessary cost. Most assessment rules are set in light of characteristics determined by defect contours, such as area and range. However, conventional image process methods seldom show a satisfactory performance on chips with complex structures because they are difficult to distinguish defect contours from edges of structures. To solve this issue, this study proposes a method based on region segmentation search. The positions of structures in the image are calc
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27

Ishimaru, Manabu. "Radiation Induced Structural Changes in Complex Oxides." Materia Japan 47, no. 12 (2008): 613. http://dx.doi.org/10.2320/materia.47.613.

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28

Zhang, Qi, and Meizhu Li. "A betweenness structural entropy of complex networks." Chaos, Solitons & Fractals 161 (August 2022): 112264. http://dx.doi.org/10.1016/j.chaos.2022.112264.

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29

Ĉelikovsky, Sergej, Volodymyr Lynnyk, and Guanrong Chen. "ROBUST STRUCTURAL SYNCHRONIZATION IN DYNAMICAL COMPLEX NETWORKS." IFAC Proceedings Volumes 40, no. 12 (2007): 264–69. http://dx.doi.org/10.3182/20070822-3-za-2920.00044.

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30

Cheban, A., and G. Sekisov. "COMPLEX STRUCTURAL ORE BLOCKS AND THEIR SYSTEMATIZATION." Transbaikal State University Journal 26, no. 6 (2020): 43–53. http://dx.doi.org/10.21209/2227-9245-2020-26-6-43-53.

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31

Bila, Jiri, Ali H. Reshak, and Jan Chysky. "Modeling Complex Systems by Structural Invariants Approach." Complexity 2021 (September 4, 2021): 1–17. http://dx.doi.org/10.1155/2021/6650619.

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When modeling complex systems, we usually encounter the following difficulties: partiality, large amount of data, and uncertainty of conclusions. It can be said that none of the known approaches solves these difficulties perfectly, especially in cases where we expect emergences in the complex system. The most common is the physical approach, sometimes reinforced by statistical procedures. The physical approach to modeling leads to a complicated description of phenomena associated with a relatively simple geometry. If we assume emergences in the complex system, the physical approach is not appr
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32

Wiedmer, Robert, and Stanley E. Griffis. "Structural characteristics of complex supply chain networks." Journal of Business Logistics 42, no. 2 (2021): 264–90. http://dx.doi.org/10.1111/jbl.12283.

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33

MUTOH, Risa, Hisako KAWAI-KUBOTA, and Takahisa IKEGAMI. "Structural Analyses of Photosystem I-Ferredoxin Complex." Seibutsu Butsuri 59, no. 1 (2019): 032–34. http://dx.doi.org/10.2142/biophys.59.032.

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34

Grosh, Karl, and Earl G. Williams. "Complex wave‐number decomposition of structural vibrations." Journal of the Acoustical Society of America 93, no. 2 (1993): 836–48. http://dx.doi.org/10.1121/1.405445.

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35

Muthen, Bengt O., and Albert Satorra. "Complex Sample Data in Structural Equation Modeling." Sociological Methodology 25 (1995): 267. http://dx.doi.org/10.2307/271070.

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36

Hayek, S. I., A. Miller, and V. Agarwala. "Analysis of structural intensity of complex structures." Journal of the Acoustical Society of America 100, no. 4 (1996): 2722–23. http://dx.doi.org/10.1121/1.416169.

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37

Chen, Yong. "The structural biology of the shelterin complex." Biological Chemistry 400, no. 4 (2019): 457–66. http://dx.doi.org/10.1515/hsz-2018-0368.

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Abstract The shelterin complex protects telomeric DNA and plays critical roles in maintaining chromosome stability. The structures and functions of the shelterin complex have been extensively explored in the past decades. This review summarizes the current progress on structural studies of shelterin complexes from different species. It focuses on the structural features and assembly of common structural domains, highlighting the evolutionary plasticity and conserved roles of shelterin proteins in telomere homeostasis and protection.
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38

Branagan, D. F., and H. Pedram. "The Lapstone structural complex, New South Wales." Australian Journal of Earth Sciences 37, no. 1 (1990): 23–36. http://dx.doi.org/10.1080/08120099008727902.

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39

CUNEFARE, KENNETH A., and BRIAN S. DATER. "STRUCTURAL ACOUSTIC OPTIMIZATION USING THE COMPLEX METHOD." Journal of Computational Acoustics 11, no. 01 (2003): 115–37. http://dx.doi.org/10.1142/s0218396x03001833.

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An optimization program based on M. J. Box's Complex Method was implemented in a computational design tool for constrained optimization of acoustic environments produced by vibrating structures. The tool can treat interior and exterior environments, and can consider acoustic and structural excitations. The tool integrates finite element and boundary element methods to perform the requisite structural acoustic analyses. The new optimization component described in this paper contains unique additions to Box's original algorithm. The optimizer executes stand-alone, or can be used as a starting po
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40

Arif, Atta M., Alan H. Cowley, Christine M. Nunn, and Marek Pakulski. "Structural isomers of a terminal phosphinidene complex." Journal of the Chemical Society, Chemical Communications, no. 13 (1987): 994. http://dx.doi.org/10.1039/c39870000994.

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41

Barford, D., A. Schreiber, F. Stengel, et al. "Structural basis of the anaphase promoting complex." Acta Crystallographica Section A Foundations of Crystallography 67, a1 (2011): C23. http://dx.doi.org/10.1107/s0108767311099557.

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42

Verger, Alexis, Didier Monté, and Vincent Villeret. "Twenty years of Mediator complex structural studies." Biochemical Society Transactions 47, no. 1 (2019): 399–410. http://dx.doi.org/10.1042/bst20180608.

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Abstract Mediator is a large multiprotein complex conserved in all eukaryotes that plays an essential role in transcriptional regulation. Mediator comprises 25 subunits in yeast and 30 subunits in humans that form three main modules and a separable four-subunit kinase module. For nearly 20 years, because of its size and complexity, Mediator has posed a formidable challenge to structural biologists. The first two-dimensional electron microscopy (EM) projection map of Mediator leading to the canonical view of its division in three topological modules named Head, Middle and Tail, was published in
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43

Solozhentsev, Eugene, and Vasily Karasev. "Risk management technologies in structural complex systems." International Journal of Risk Assessment and Management 18, no. 3/4 (2015): 307. http://dx.doi.org/10.1504/ijram.2015.071217.

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44

Nielsen, Maja, Rune Kidmose, Rasmus Flygaard, and Lasse Jenner. "Structural Studies of the DCC-Ribosome Complex." Acta Crystallographica Section A Foundations and Advances 70, a1 (2014): C1402. http://dx.doi.org/10.1107/s2053273314085970.

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During neuronal development axons are guided by a gradient of the signal molecule netrin, which attracts extending neurons by binding to the DCC (Deleted in Colorectal Cancer) Receptor. It has been shown that the intracellular domain of the DCC receptor interacts directly with the ribosome, and that this interaction is crucial for axon guidance(1). However structural insights into this interaction are still lacking. Our aim is therefore to determine the crystal structure of the DCC-ribosome complex. As membrane proteins can be challenging to crystalize, especially together with a huge macromol
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45

Valeš, V., M. Buljan, V. Janicki, et al. "Fe2O3/TiO2 nanoparticles—a complex structural study." Thin Solid Films 564 (August 2014): 65–72. http://dx.doi.org/10.1016/j.tsf.2014.05.016.

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46

Akey, Christopher W. "Structural plasticity of the nuclear pore complex." Journal of Molecular Biology 248, no. 2 (1995): 273–93. http://dx.doi.org/10.1016/s0022-2836(95)80050-6.

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47

Boissier, Fanny, Hélène Dumay-Odelot, Martin Teichmann та Sébastien Fribourg. "Structural analysis of human RPC32β–RPC62 complex". Journal of Structural Biology 192, № 3 (2015): 313–19. http://dx.doi.org/10.1016/j.jsb.2015.09.004.

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48

Sakiyama, Yusuke, Radhakrishnan Panatala, and Roderick Y. H. Lim. "Structural dynamics of the nuclear pore complex." Seminars in Cell & Developmental Biology 68 (August 2017): 27–33. http://dx.doi.org/10.1016/j.semcdb.2017.05.021.

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49

Glaser, Charles L. "Structural Realism in a more complex world." Review of International Studies 29, no. 3 (2003): 403–14. http://dx.doi.org/10.1017/s0260210503004030.

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The editors of the Review of International Studies have posed a timely challenge to what they term American realism. In broad terms, their editorial makes two points: first, realism has lost its relevance to current international policy; and second, realism does a poor job of explaining the behaviour of the world's major powers. In this brief essay I argue that both of these points are greatly overstated, if not simply wrong. At the same time, I accept that realism provides less leverage in addressing the full spectrum of issues facing the major powers in the post-Soviet and now the post-9/11
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50

Belik, Alexei A., Yoshitaka Matsushita, Yu Kumagai, et al. "Complex Structural Behavior of BiMn7O12 Quadruple Perovskite." Inorganic Chemistry 56, no. 20 (2017): 12272–81. http://dx.doi.org/10.1021/acs.inorgchem.7b01723.

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