Fluorescence Evidences for Non-Homogeneity and Residual Structure of Denatured States

The denaturation of hen egg-white lysozyme has been studied under a variety of denaturing conditions by difference spectroscopy, polarimetry, and viscometry. It has been found that the lysozyme molecule can take up four different denatured conformations, depending on the denaturant used. Urea and guanidinium chloride produce the most completely denatured state, IV, and, listed in the order of increasing residual structure, lithium chloride gives state III, temperature state II, and lithium perchlorate state I. Differences in the spectra at 300 nm have been a valuable aid in relating the different denatured states to each other.

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Effect of Various Polyols on the Acid-Denatured States of Champedak Galactose-Binding Lectin

Protein and Peptide Letters ◽

10.2174/0929866525666180130155007 ◽

2018 ◽

Vol 25 (3) ◽

pp. 314-324 ◽

Cited By ~ 2

Author(s):

Nurul I.A. Kameel ◽

Adawiyah S. Shuib ◽

Saad Tayyab

Keyword(s):

Denatured States ◽

Binding Lectin ◽

Galactose Binding Lectin

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The chemical composition of leucoxene in Cainozoic bauxite from Boolarra, Victoria

Mineralogical Magazine and Journal of the Mineralogical Society ◽

10.1180/minmag.1942.026.179.03 ◽

1942 ◽

Vol 26 (179) ◽

pp. 273-274 ◽

Cited By ~ 1

Author(s):

A. B. Edwards

Keyword(s):

Chemical Composition ◽

Chemical Analysis ◽

Olivine Basalt ◽

Pure Sample ◽

Residual Structure ◽

Aluminium Titanate

During a petrological examination of samples of bauxite from Boolarra, in south Gippsland, Victoria, it was noted that some specimens of the bauxite, which is largely derived from Tertiary olivine-basalt, contained numerous grains of yellow-brown to amber-yellow leucoxene. The leucoxene is clearly pseudo-morphous after ilmenite, residual particles of ilmenite being enclosed in many of the leucoxene grains. Most of the leucoxene grains are opaque, but occasional grains are translucent to transparent, though isotropic. Some of them show parallel markings suggestive of cleavage, but probably a residual structure from the replaced ilmenite. In view of the highly aluminous nature of the enclosing rock, there seemed some possibility that this mineral might be the little-known aluminium titanate, xanthitane. It was thought, therefore, that if a pure sample of the mineral could be prepared, a chemical analysis would establish its identity.

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RLC-GNN: An Improved Deep Architecture for Spatial-Based Graph Neural Network with Application to Fraud Detection

Applied Sciences ◽

10.3390/app11125656 ◽

2021 ◽

Vol 11 (12) ◽

pp. 5656

Author(s):

Yufan Zeng ◽

Jiashan Tang

Keyword(s):

Numerical Experiments ◽

State Of The Art ◽

Single Layer ◽

Fraud Detection ◽

Layer By Layer ◽

Residual Structure ◽

Detection Algorithms ◽

Deep Architecture ◽

Graph Neural Networks ◽

Node Embeddings

Graph neural networks (GNNs) have been very successful at solving fraud detection tasks. The GNN-based detection algorithms learn node embeddings by aggregating neighboring information. Recently, CAmouflage-REsistant GNN (CARE-GNN) is proposed, and this algorithm achieves state-of-the-art results on fraud detection tasks by dealing with relation camouflages and feature camouflages. However, stacking multiple layers in a traditional way defined by hop leads to a rapid performance drop. As the single-layer CARE-GNN cannot extract more information to fix the potential mistakes, the performance heavily relies on the only one layer. In order to avoid the case of single-layer learning, in this paper, we consider a multi-layer architecture which can form a complementary relationship with residual structure. We propose an improved algorithm named Residual Layered CARE-GNN (RLC-GNN). The new algorithm learns layer by layer progressively and corrects mistakes continuously. We choose three metrics—recall, AUC, and F1-score—to evaluate proposed algorithm. Numerical experiments are conducted. We obtain up to 5.66%, 7.72%, and 9.09% improvements in recall, AUC, and F1-score, respectively, on Yelp dataset. Moreover, we also obtain up to 3.66%, 4.27%, and 3.25% improvements in the same three metrics on the Amazon dataset.

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A Multiple and Multi-Level Substructure Method for the Dynamics of Complex Structures

Applied Sciences ◽

10.3390/app11125570 ◽

2021 ◽

Vol 11 (12) ◽

pp. 5570

Author(s):

Binbin Wang ◽

Jingze Liu ◽

Zhifu Cao ◽

Dahai Zhang ◽

Dong Jiang

Keyword(s):

Structural Characteristics ◽

Complex Structure ◽

Complex Structures ◽

System Matrix ◽

Substructure Method ◽

Residual Structure ◽

The Matrix ◽

Multi Level ◽

Fixed Interface ◽

Selection Of

Based on the fixed interface component mode synthesis, a multiple and multi-level substructure method for the modeling of complex structures is proposed in this paper. Firstly, the residual structure is selected according to the structural characteristics of the assembled complex structure. Secondly, according to the assembly relationship, the parts assembled with the residual structure are divided into a group of substructures, which are named the first-level substructure, the parts assembled with the first-level substructure are divided into a second-level substructure, and consequently the multi-level substructure model is established. Next, the substructures are dynamically condensed and assembled on the boundary of the residual structure. Finally, the substructure system matrix, which is replicated from the matrix of repeated physical geometry, is obtained by preserving the main modes and the constrained modes and the system matrix of the last level of the substructure is assembled to the upper level of the substructure, one level up, until it is assembled in the residual structure. In this paper, an assembly structure with three panels and a gear box is adopted to verify the method by simulation and a rotor is used to experimentally verify the method. The results show that the proposed multiple and multi-level substructure modeling method is not unique to the selection of residual structures, and different classification methods do not affect the calculation accuracy. The selection of 50% external nodes can further improve the analysis efficiency while ensuring the calculation accuracy.

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