Artificial life : the proceedings an Interdisciplinary Workshop on the Synthesis and Simulation of Living Systems, held September, 1987, in Los Alamos, New Mexico / by Interdisciplinary Workshop on the Synthesis and Simulation of Living Systems (1987 : Los Alamos, N.M.), Langton, Christopher G.

Subjects: “…Biological systems…”

Kinetic modelling in systems biology / by 258474 Demin Oleg, Goryanin Igor

Subjects: “…Biological systems…”

Advances in Artificial Life [electronic resource] : 9th European Conference, ECAL 2007, Lisbon, Portugal, September 10-14, 2007: Proceedings / by ECAL 2007 (2007 : Lisbon, Portugal), Almeida e Costa, Fernando, SpringerLink (Online service)

Subjects: “…Biological systems…”
Get full text

Performance of stochastic Runge-Kutta Methods in approximating the solution of stochastic model in biological system by Noor Amalina Nisa, Ariffin, Norhayati, Rosli, Mazma Syahidatul Ayuni, Mazlan, Adam, Samsudin

“…Recently, modelling the biological systems by using stochastic differential equations (SDEs) are becoming an interest among researchers. …”
Get full text

GPCRs Are Optimal Regulators of Complex Biological Systems and Orchestrate the Interface between Health and Disease by Hanne Leysen, Deborah Walter, Bregje Christiaenssen, Romi Vandoren, İrem Harputluoğlu, Nore Van Loon, Stuart Maudsley

Get full text

Network analysis of the proteome and peptidome sheds light on human milk as a biological system by Pieter M. Dekker, Sjef Boeren, Edoardo Saccenti, Kasper A. Hettinga

Get full text

Ultrafast X-ray Absorption Studies of the Structural Dynamics of Molecular and Biological Systems in Solution by Christopher J. Milne, Thomas J. Penfold, Susanne Karlsson, Frank van Mourik, Marco Reinhard, Hannelore Rittmann-Frank, Frederico A. Lima, Van-Thai Pham, Renske M. Van der Veen, Majed Chergui

“… We review our recent studies of excited state structures and dynamics of chemical and biological systems with pico- and femtosecond X-ray absorption spectroscopy in the liquid phase. …”
Get full text

Multifidelity Analysis for Predicting Rare Events in Stochastic Computational Models of Complex Biological Systems by Elsje Pienaar

“…Rare events such as genetic mutations or cell-cell interactions are important contributors to dynamics in complex biological systems, eg, in drug-resistant infections. Computational approaches can help analyze rare events that are difficult to study experimentally. …”
Get full text

Edge-based relative entropy as a sensitive indicator of critical transitions in biological systems by Renhao Hong, Yuyan Tong, Huisheng Liu, Pei Chen, Rui Liu

“…Methods In this study, based on the theoretical framework of dynamic network biomarkers (DNBs), we propose a model-free method, edge-based relative entropy (ERE), to identify temporal key biomolecular associations/networks that may serve as DNBs and detect early-warning signals of the drastic state transition during disease progression in complex biological systems. Specifically, by combining gene‒gene interaction (edge) information with the relative entropy, the ERE method converts gene expression values into network entropy values, quantifying the dynamic change in a biomolecular network and indicating the qualitative shift in the system state. …”
Get full text

User-friendly bioorthogonal reactions click to explore glycan functions in complex biological systems by Xi Chen, Ajit Varki

Get full text

The Role of Lipoperoxidation Processes in Structural and Functional Disorganization of Biological Systems in Dynamics of Bacterial Endotoxicosis by G. A. Afanasieva, N. P. Chesnokova, V. V. Kutyrev, G. N. Maslyakova, Yu. F. Khorkin

Get full text

Exploring behaviors of stochastic differential equation models of biological systems using change of measures by Jha Sumit, Langmead Christopher

“…<p>Abstract</p> <p>Stochastic Differential Equations (SDE) are often used to model the stochastic dynamics of biological systems. Unfortunately, rare but biologically interesting behaviors (e.g., oncogenesis) can be difficult to observe in stochastic models. …”

A general framework of persistence strategies for biological systems helps explain domains of life by Liudmila S Yafremava, Monica eWielgos, Suravi eThomas, Arshan eNasir, Minglei eWang, Jay E Mittenthal, Gustavo eCaetano-Anolles

Get full text

Electromagnetic Fields as Structure-Function Zeitgebers in Biological Systems: Environmental Orchestrations of Morphogenesis and Consciousness by Blake T Dotta, Nicolas Y Rouleau

“…Even weak interactions between electromagnetic energies and biological systems display the potential to affect a developing system. …”
Get full text

Some aspects of modeling and analysis of complex biological systems using time Petri nets by J. Olszak, M. Radom, P. Formanowicz

Subjects: “…biological systems…”
Get full text

Micromachined Tools Using Acoustic Wave Triggering for the Interaction with the Growth of Plant Biological Systems by Simone Grasso, Francesca Di Marcello, Anna Sabatini, Alessandro Zompanti, Maria Vittoria Di Loreto, Costanza Cenerini, Francesco Lodato, Laura De Gara, Christian Cherubini, Giorgio Pennazza, Marco Santonico

Subjects: “…plant biological system…”
Get full text

Biomarker-driven feedback control of synthetic biology systems for next-generation personalized medicine by Bozhidar-Adrian Stefanov, Martin Fussenegger, Martin Fussenegger

Get full text

Robotic-biological systems for detection and identification of explosive ordnance: concept, general structure, and models by Gennadiy Fedorenko, Herman Fesenko, Vyacheslav Kharchenko, Ihor Kliushnikov, Ihor Tolkunov

Subjects: “…robotic-biological system…”
Get full text

Multidimensional mechanics: Performance mapping of natural biological systems using permutated radar charts. by Michael M Porter, Pooya Niksiar

“…Comparing the functional performance of biological systems often requires comparing multiple mechanical properties. …”
Get full text

MIWE: detecting the critical states of complex biological systems by the mutual information weighted entropy by Yuke Xie, Xueqing Peng, Peiluan Li

“…Abstract Complex biological systems often undergo sudden qualitative changes during their dynamic evolution. …”
Get full text