analysis of the stability and function of nucleoplasmin

Biophysical analysis of the effect of chemical

Sep 08, 2017 · Earlier proteomic analysis indicated that BiP is a key protein that is modified by 4-ONE . In this manuscript, we examined how this chemical modification affects the structure, stability, and function of BiP, which might lead to a mechanistic understanding of the ER homeostasis failure in response to external factors such as alcohol and smoking.

Control System Design Based on Frequency Response

Some of the important properties of the Bode stability criterion are:1. It provides a necessary and sufficient condition for closed-loop stability based on the properties of the open-loop transfer function. 2. Unlike the Routh stability criterion of Chapter 11, the Bode stability criterion is applicable to systems that contain time delays. Describing Function Method Based Power Oscillation Dec 17, 2018 · Hence, its influence is completely ignored in the existing stability analysis methods. Second, considering the nonlinear discontinuous link, the describing function method is adopted to analyze the whole system stability based on the established complete model. In this way, the accuracy and completeness of the stability analysis are enhanced.

Function of homo- and hetero-oligomers of human

Feb 22, 2012 · Crystal structural analyses of the N-terminal domains of nucleoplasmin, Drosophila nucleoplasmin-like protein dNLP, Xenopus NO38/NPM1 and human NPM1 and NPM2, demonstrated that the core domain forms a pentameric ring, while two pentamers associate in a head-to-head fashion to form a decamer ( 913). Global Stability of Infectious Disease Models Using (2020) stability analysis and approximate solution of sir epidemic model with crowley-martin type functional response and holling type- treatment rate by using homotopy analysis method. journal of applied analysis & computation 10:4, 1482-1515.


stability analysis. In this paper, we will consider a discrete-time system with multiple nonlinear components, each of which is bounded by a piecewise linear sector. We will use the composite quadratic Lyapunov functions to perform absolute stability analysis for such a system. The rst step toward this goal (contained in Sec- Implicit Lyapunov-Krasovski Functionals For Stability function dened in the implicit form by some algebraic equa-tions. Stability analysis in this case does not require solution of this equation, since the Implicit function theorem (see, for example, [6]) helps to check all stability conditions by analyzing the algebraic equation directly.


In this paper, Laplace transforms has been used to solve the wage equation. The subsequent wage function is analyzed and interpreted for stability. The equation incorporates speculative parameters operating in free range. Restricting these parameters Lecture 9:Stability of Elastic Structuresanalysis did not say anything about the stability of equilibrium. The present lecture will give an answer to that question by looking more carefully what is happening in the vicinity of the equilibrium state. To illustrate the concept, consider a rigid body (a ball) siting in an axisymmetric paraboloid. shown in Fig. (9.1).! u !u C > 0 ! u C

Linear Stability Analysis

Introduction Linear Stability Analysis Illustrative Examples One Dimension (one variable):Non-Linear Systems Example 2:Modeling the population growth (P.-F. Verhulst, 1838) Let N represents the population size, the population growth is described by the Verhulst-Pearl equation:dN dt = rN 1 N K (11) where r de nes the growth rate and K is the Modeling and stability analysis methods of neutrosophic Oct 15, 2019 · The roots of the neutrosophic characteristic equation (generally neutrosophic characteristic roots) determine the stability of the system and the general nature of the transient response to any input. The numerator neutrosophic polynomial N

Nucleoplasmin - Xenopus laevis (African clawed frog)

Acts as a chaperone for histones, such as histone H2A-H2B, and thus regulates the assembly of nucleosome cores (PubMed:11684019, PubMed:19055325). Involved in chromatin remodeling, especially during fertilization and early embryonic development (By similarity). May be involved in sperm chromatin decondensation during fertilization (PubMed:17510054). Stability Analysis for RF and Microwave Circuit Design First, forget everything you learned about the popular stability factor k. Second, re-read the previous sentence!! OK, now that that has sunk in A separate test is required (like the Normalized Determinant Function) to assure the stability of a network before the Linvill or Rollett stability

Stability analysis of deterministic and stochastic

(2020) Asymptotic Stability Analysis for Switched Stochastic Nonlinear Systems Using Mode-dependent Uniformly Stable Functions. International Journal of Control, Automation and Systems 19 . (2020) Robust stabilization of non-linear non-autonomous control systems with periodic linear approximation. Stability analysis of pulses via the Evans function Stability analysis of pulses via the Evans function:dissipative systems Todd Kapitula Department of Mathematics and Statistics University of New Mexico Albuquerque, NM 87131 October 19, 2003 Abstract. The linear stability analysis of pulses is considered in this review article. It is shown herein


TUTORIAL 8 STABILITY AND THE s PLANE This tutorial is of interest to any student studying control systems and in particular the EC module D227 Control System Engineering. On completion of this tutorial, you should be able to do the following. Define Poles and Zeros Explain the Characteristic Equation of a Transfer Function. Tools for Analysis of Dynamic Systems:Lyapunov s Objectives of Analysis of Nonlinear Systems Similar to the objectives pursued when investigating complex linear systems Not interested in detailed solutions, rather one seeks to characterize the system behavior---equilibrium points and their stability properties A device needed for nonlinear system analysis summarizing the system

What is the meaning of stability in numerical analysis

Feb 09, 2017 · With respect to differential equations, stability usually refers to numerical schemes producing bounded solution errors based on the approximation scheme being used. Stability analysis can be done to see for what values of approximation variables allow the errors in the solution to be bounded. $\endgroup$ spektr Feb 7 '17 at 20:19Stability Analysis - University of Arizonastability, in addition x(t) converges to the equilibrium state as t ! 1. If equilibrium state is globally asymptotically stable, then x(t) converges to the equilibrium state regardless of how the initial state x 0 is selected. These stability concepts are called internal, because they represent properties of the state of the system. They