scholarly journals Macromolecule Translocation in a Nanopore: Center of Mass Drift–Diffusion over an Entropic Barrier

2019 ◽  
Author(s):  
Z. E. Dell ◽  
M. Muthukumar
Keyword(s):  
Single Molecule ◽  
Theoretical Approach ◽  
Center Of Mass ◽  
Diffusion Constant ◽  
Hydrodynamic Interactions ◽  
Biological Processes ◽  
Theoretical Approaches ◽  
Direct Interpretation ◽  
Synthetic Macromolecules ◽  
A Chain

ABSTRACTMany fundamental biological processes involve moving macromolecules across membranes, through nanopores, in a process called translocation. Such motion is necessary for gene expression and regulation, tissue formation, and viral infection. Furthermore, in recent years nanopore technologies have been developed for single molecule detection of biological and synthetic macromolecules, which have been most notably employed in next generation DNA sequencing devices. Many successful theories have been established, which calculate the entropic barrier required to elongate a chain during translocation. However, these theories are at the level of the translocation coordinate (number of forward steps) and thus lack a clear connection to experiments and simulations. Furthermore, the proper diffusion coefficient for such a coordinate is unclear. In order to address these issues, we propose a center of mass (CM) theory for translocation. We start with the entropic barrier approach and show that the translocation coordinate is equivalent to the center of mass of the chain, providing a direct interpretation of previous theoretical studies. We thus recognize that the appropriate dynamics is given by CM diffusion, and calculate the appropriate diffusion constant (Rouse or Zimm) as the chain translocates. We illustrate our theoretical approach with a planar nanopore geometry and calculate some characteristic dynamical predictions. Our main result is the connection between the translocation coordinate and the chain CM, however, we also find that the translocation time is sped up by 1–2 orders of magnitude if hydrodynamic interactions are present. Our approach can be extended to include the details included in previous translocation theories. Most importantly this work provides a direct connection between theoretical approaches and experiments or simulations.SIGNIFICANCEMacromolecule motion through nanopores is critical for many biological processes, and has been recently employed for nucleic acid sequencing. Despite this, direct theoretical understandings of translocation are difficult to evaluate due to the introduction of the translocation coordinate. In this manuscript, we propose a theory for translocation written at the center of mass level of the polymer chain. This theoretical approach is more easily compared to experimental and simulation results, and additionally allows one to accurately account for hydrodynamic interactions on the macromolecule dynamics.

scholarly journals Towards an integrated experimental–theoretical approach for assessing the mechanistic basis of hair and feather morphogenesis

2012 ◽  
Vol 2 (4) ◽  
pp. 433-450 ◽  
Author(s):  
K. J. Painter ◽  
G. S. Hunt ◽  
K. L. Wells ◽  
J. A. Johansson ◽  
D. J. Headon
Keyword(s):  
Pattern Formation ◽  
Theoretical Approach ◽  
Spatial Patterning ◽  
Biological Processes ◽  
Chemical Basis ◽  
Alan Turing ◽  
Theoretical Approaches ◽  
Simple Demonstration ◽  
Mechanistic Basis ◽  
Elegant Solution

In his seminal 1952 paper, ‘The Chemical Basis of Morphogenesis’, Alan Turing lays down a milestone in the application of theoretical approaches to understand complex biological processes. His deceptively simple demonstration that a system of reacting and diffusing chemicals could, under certain conditions, generate spatial patterning out of homogeneity provided an elegant solution to the problem of how one of nature's most intricate events occurs: the emergence of structure and form in the developing embryo. The molecular revolution that has taken place during the six decades following this landmark publication has now placed this generation of theoreticians and biologists in an excellent position to rigorously test the theory and, encouragingly, a number of systems have emerged that appear to conform to some of Turing's fundamental ideas. In this paper, we describe the history and more recent integration between experiment and theory in one of the key models for understanding pattern formation: the emergence of feathers and hair in the skins of birds and mammals.

Momentum Removal to Obtain the Position-Dependent Diffusion Constant in Constrained Molecular Dynamics Simulation

2021 ◽  
Author(s):  
Kazushi Fujimoto ◽  
Tetsuro Nagai ◽  
Tsuyoshi Yamaguchi
Keyword(s):  
Molecular Dynamics ◽  
Diffusion Coefficient ◽  
Mass Velocity ◽  
Center Of Mass ◽  
Heterogeneous Systems ◽  
Diffusion Constant ◽  
Dynamics Simulation ◽  
Coulombic Interaction ◽  
Ewald Method ◽  
Theoretical Predictions

<div>The position-dependent diffusion coefficient along with free energy profile are important parameters needed to study mass transport in heterogeneous systems such as biological and polymer membranes, and molecular dynamics (MD) calculation is a popular tool to obtain them. Among many methodologies, the Marrink-Berendsen (MB) method is often employed to calculate the position-dependent diffusion coefficient, in which the autocorrelation function of the force on a fixed molecule is related to the friction on the molecule. However, the diffusion coefficient is shown to be affected by the period of the removal of the center-of-mass velocity, which is necessary when performing MD calculations using the Ewald method for Coulombic interaction. We have clarified theoretically in this study how this operation affects the diffusion coefficient calculated by the MB method, and the theoretical predictions are proven by MD calculations. Therefore, we succeeded in providing guidance on how to select an appropriate the period of the removal of the center-of-mass velocity in estimating the position-dependent diffusion coefficient by the MB method. This guideline is applicable also to the Woolf-Roux method.</div>

scholarly journals Biochemistry: one molecule at a time

2021 ◽  
Vol 65 (1) ◽  
pp. 1-3
Author(s):  
Dominika T. Gruszka
Keyword(s):  
Complex Networks ◽  
Single Molecule ◽  
Population Level ◽  
Early Career ◽  
Molecular Heterogeneity ◽  
Biological Processes ◽  
Biological Macromolecule ◽  
Exciting Field ◽  
Early Career Researchers ◽  
Mechanistic Basis

Abstract Biological processes are orchestrated by complex networks of molecules. Conventional approaches for studying the action of biomolecules operate on a population level, averaging out any inhomogeneities within the ensemble. Investigating one biological macromolecule at a time allows researchers to directly probe individual behaviours, and thus characterise the intrinsic molecular heterogeneity of the system. Single-molecule methods have unravelled unexpected modes of action for many seemingly well-characterised biomolecules and often proved instrumental in understanding the intricate mechanistic basis of biological processes. This collection of reviews aims to showcase how single-molecule techniques can be used to address important biological questions and to inspire biochemists to ‘zoom in’ to the population and probe individual molecular behaviours, beyond the ensemble average. Furthermore, this issue of Essays in Biochemistry is the very first written and edited entirely by early career researchers, and so it also highlights the strength, diversity and excellence of the younger generation single-molecule scientists who drive this exciting field of research forward.

scholarly journals Variety of theoretical approaches to legal interpretation

2021 ◽  
pp. 109-114
Author(s):  
A. Yе. Shevchenko ◽  
S. V. Kudin
Keyword(s):  
Social Relations ◽  
Theoretical Approach ◽  
Special Kind ◽  
Integrative Approach ◽  
Legal Interpretation ◽  
True Nature ◽  
Theoretical Approaches ◽  
The Will ◽  
The Subject ◽  
The Law

The article explores the variety of theoretical approaches to legal interpretation. It has been determined that the variety of approaches to legal interpretation is due to the complexity of the nature of the origin of this phenomenon, the conditions for the development of post-non-classical science, and the recent influence of the paradigm of comparism, which assumes pluralism of opinions and ideas in legal research. It was found that in modern science there are four traditional theoretical approaches to the essence of legal interpretation. It has been determined that the content of the first approach is revealed within the framework of legal hermeneutics through a number of categories. The essence of the second approach (formal dogmatic or static) is expressed in the fact that the subject of interpretation must strictly and rigorously follow the letter of the law, establish only the meaning of the normative legal act, which the lawmaking body enshrined in it at the time of the publication of the act. That is why normative legal acts cannot, through interpretation, adapt to the changing economic, social, political, cultural internal and external conditions of public life. It is proved that the essence of the dynamic theoretical approach lies in the fact that the subject of legal interpretation adapts the normative legal act to the changes that occur in various social relations. It was found that there is a contradiction between the dynamic and static approaches in legal interpretation, which is reflected in the traditionally called objective and subjective theories of interpretation. According to the subjective theory, the purpose of legal interpretation is to establish the «will of the legislator», and according to the objective theory – to establish the «will of the law». It has been substantiated that the essence of the activity approach is that interpretation is considered as a special kind of legal activity aimed at understanding and clarifying the content of legal texts. The authors of this article point out that in order to establish the true nature of legal interpretation, the methodological foundations of the study should be presented much broader and more diverse, and not be limited only to traditional approaches. When studying it, a comprehensive, integrative approach is needed, which, based on the relevance of interdisciplinary relationships, would include logical, language (linguistic), philosophical, sociological, psychological, axiological (value), ethical, legal, historical, economic, political, mathematical and other substantiation of legal interpretation. Keywords: diversity, theoretical approach, legal interpretation, interpretive practice, integrative approach

Ion Channel Permeation and Selectivity

2019 ◽  
Author(s):  
Juan J. Nogueira ◽  
Ben Corry
Keyword(s):  
Ion Channels ◽  
Ion Channel ◽  
Ion Selectivity ◽  
Ionic Currents ◽  
Biological Processes ◽  
Ion Permeation ◽  
Voltage Gated ◽  
Physical Mechanisms ◽  
Theoretical Approaches ◽  
Mechanistic Insight

Many biological processes essential for life rely on the transport of specific ions at specific times across cell membranes. Such exquisite control of ionic currents, which is regulated by protein ion channels, is fundamental for the proper functioning of the cells. It is not surprising, therefore, that the mechanism of ion permeation and selectivity in ion channels has been extensively investigated by means of experimental and theoretical approaches. These studies have provided great mechanistic insight but have also raised new questions that are still unresolved. This chapter first summarizes the main techniques that have provided significant knowledge about ion permeation and selectivity. It then discusses the physical mechanisms leading to ion permeation and the explanations that have been proposed for ion selectivity in voltage-gated potassium, sodium, and calcium channels.

Formation of a Chain-like Water Single Molecule Junction with Pd Electrodes

2018 ◽  
Vol 122 (8) ◽  
pp. 4698-4703 ◽  
Author(s):  
Risa Fukuzumi ◽  
Satoshi Kaneko ◽  
Shintaro Fujii ◽  
Tomoaki Nishino ◽  
Manabu Kiguchi
Keyword(s):  
Single Molecule ◽  
Molecule Junction ◽  
Single Molecule Junction ◽  
A Chain

Nanomechanochemical Delivery of Nanoparticles for Nanomechanics Inside Living Cells

2010 ◽  
Author(s):  
Kyungsuk Yum ◽  
Sungsoo Na ◽  
Yang Xiang ◽  
Ning Wang ◽  
Min-Feng Yu
Keyword(s):  
Single Molecule ◽  
Living Cells ◽  
Endocytic Pathway ◽  
Great Promise ◽  
Biological Processes ◽  
Temporal Precision ◽  
Single Molecule Level ◽  
Cellular Processes ◽  
Cellular Environment ◽  
Biological Studies

Studying biological processes and mechanics in living cells is challenging but highly rewarding. Recent advances in experimental techniques have provided numerous ways to investigate cellular processes and mechanics of living cells. However, most of existing techniques for biomechanics are limited to experiments outside or on the membrane of cells, due to the difficulties in physically accessing the interior of living cells. On the other hand, nanomaterials, such as fluorescent quantum dots (QDs) and magnetic nanoparticles, have shown great promise to overcome such limitations due to their small sizes and excellent functionalities, including bright and stable fluorescence and remote manipulability. However, except a few systems, the use of nanoparticles has been limited to the study of biological studies on cell membranes or related to endocytosis, because of the difficulty of delivering dispersed and single nanoparticles into living cells. Various strategies have been explored, but delivered nanoparticles are often trapped in the endocytic pathway or form aggregates in the cytoplasm, limiting their further use. Here we show a nanoscale direct delivery method, named nanomechanochemical delivery, where we manipulate a nanotube-based nanoneedle, carrying “cargo” (QDs in this study), to mechanically penetrate the cell membrane, access specific areas inside cells, and release the cargo [1]. We selectively delivered well-dispersed QDs into either the cytoplasm or the nucleus of living cells. We quantified the dynamics of the delivered QDs by single-molecule tracking and demonstrated the applicability of the QDs as a nanoscale probe for studying nanomechanics inside living cells (by using the biomicrorhology method), revealing the biomechanical heterogeneity of the cellular environment. This method may allow new strategies for studying biological processes and mechanics in living cells with spatial and temporal precision, potentially at the single-molecule level.

A “Global Theory of Federalism”: The Nature and Challenges of a Federal State

2005 ◽  
Vol 6 (10) ◽  
pp. 1297-1318 ◽  
Author(s):  
Anna Gamper
Keyword(s):  
Theoretical Approach ◽  
Constitutional Law ◽  
Federal State ◽  
Common Denominator ◽  
Global Theory ◽  
Theoretical Approaches ◽  
Interdisciplinary Character ◽  
Or Economics ◽  
Definition Of ◽  
Concrete Concept

Innumerable attempts have been made to explore the theoretical nature of federalism. Due to the long history, worldwide existence and interdisciplinary character of federalism, a plethora of literature has been written on the topic. Yet, these endeavours have not even resulted in a clear and commonly used definition of the term. Surely, it is one of the great dilemmas of this field of research that despite so much discussion, there is no settled common denominator of ‘federalism'. Whereas practical studies and exchange of experience between the various federal systems offer a more conventional research arena, comparative theoretical approaches are much more seldom. This is not the least because of the tremendous semantic challenges of a comparative theoretical approach. At first glance, it is sometimes difficult to understand the terminology of federalism, the meaning of which differs according to the perspectives of constitutional law, political science or economics. Even more difficulty arises when the substance of federal theories is discussed. Again, differences between theories may be due to different academic approaches, particularly between understanding federalism as an overall principle or as a more concrete concept of a federal state and, in particular, whether the constituent units of a federal state are states, and, if states, whether they are sovereign.

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