3D Finite Element Electrical Model of Larval Zebrafish ECG Signals. by James Crowcombe, Sundeep Singh Dhillon, Rhiannon Mary Hurst, Stuart Egginton, Ferenc Müller, Attila Sík, Edward Tarte

“…Similarly, the electrical model consisted of two parts with the body described by Laplace's equation and the heart using a bidomain ionic model based upon the Fitzhugh-Nagumo equations. …”
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A Magnetoelectric Automotive Crankshaft Position Sensor by Roman Petrov, Viktor Leontiev, Oleg Sokolov, Mirza Bichurin, Slavcho Bozhkov, Ivan Milenov, Penko Bozhkov

“…The layered structure was made from a bidomain lithium niobate monocrystal with a Y + 128° cut and amorphous metal of Metglas. …”
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Parameter variations in personalized electrophysiological models of human heart ventricles. by Konstantin Ushenin, Vitaly Kalinin, Sukaynat Gitinova, Oleg Sopov, Olga Solovyova

“…Ten cases of focal ventricular activation were simulated using the bidomain model and the TNNP 2006 cellular model. The population-based values of electrical conductivities and other model parameters were used for accuracy analysis, and their variations were used for sensitivity analysis. …”
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Electrocardiogram phenotypes in hypertrophic cardiomyopathy caused by distinct mechanisms: apico-basal repolarization gradients vs. Purkinje-myocardial coupling abnormalities by Lyon, A, Bueno Orovio, A, Zacur, E, Ariga, R, Grau, V, Neubauer, S, Watkins, H, Rodriguez, B, Minchole, A

“…High performance computing simulations using bidomain models were conducted to dissect key features explaining the ECG phenotypes with increased HCM Risk-SCD scores, namely Group 1A, characterized by normal QRS but inverted T waves laterally and coexistence of apical and septal hypertrophy; and Group 3 with marked QRS abnormalities (deep and wide S waves laterally) and septal hypertrophy. …”

Human ventricular activation sequence and the simulation of the electrocardiographic QRS complex and its variability in healthy and intraventricular block conditions by Cardone-Noott, L, Bueno Orovio, A, Mincholé, A, Zemzemi, N, Rodriguez, B

“…</p> <h4>Methods</h4> <p>Multiscale bidomain simulations using a detailed heart-torso human anatomical model are performed to investigate the impact of activation sequence characteristics on clinical QRS biomarkers. …”

Enzyme-fusion strategies for redirecting and improving carotenoid synthesis in S. cerevisiae by Hery Rabeharindranto, Sara Castaño-Cerezo, Thomas Lautier, Luis F. Garcia-Alles, Christian Treitz, Andreas Tholey, Gilles Truan

“…Synthetic genes encoding bidomain enzymes composed of CrtI and CrtB domains from the natural CrtYB fusion were connected in the two possible orientations, using natural and synthetic linkers. …”
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Chaste: A test-driven approach to software development for biological modelling by Pitt-Francis, J, Pathmanathan, P, Bernabeu, M, Bordas, R, Cooper, J, Fletcher, A, Mirams, G, Murray, P, Osborne, J, Walter, A, Chapman, S, Garny, A, van Leeuwen, I, Maini, P, Rodriguez, B, Waters, S, Whiteley, J, Byrne, H, Gavaghan, D

“…Up to 16 Gigabytes (distributed across processors) for full resolution bidomain cardiac simulation. Classification: 3. External routines: Boost, CodeSynthesis XSD, CxxTest, HDF5, METIS, MPI, PETSc, Triangle, Xerces. …”

Molecular–Statistical Theory for the Description of Re-Entrant Ferroelectric Phase by Alexander V. Emelyanenko

“…We have shown that in the vicinity of Sm-<inline-formula> <math display="inline"> <semantics> <msubsup> <mi>C</mi> <mi>A</mi> <mo>*</mo> </msubsup> </semantics> </math> </inline-formula>&#8722;Sm-<inline-formula> <math display="inline"> <semantics> <msubsup> <mi>C</mi> <mi>re</mi> <mo>*</mo> </msubsup> </semantics> </math> </inline-formula> phase transition temperature, a very small electric field can cause a transition into the bidomain synclinic phase, where the helical pitch is unwound and the tilt planes have contributions either along or against the electric field. …”
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Structural elements of an NRPS cyclization domain and its intermodule docking domain by Dowling, Daniel P., Kung, Yan, Croft, Anna K., Taghizadeh, Koli, Kelly, Wendy L., Walsh, Christopher T., Drennan, Catherine L.

“…To visualize the structure of a cyclization domain with an accompanying docking domain, we solved a 2.03-Å resolution structure of this bidomain EpoB unit, comprising residues M1-Q497 (62 kDa) of the 160-kDa EpoB protein. …”
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Functional Diversity and Engineering of the Adenylation Domains in Nonribosomal Peptide Synthetases by Mengli Zhang, Zijing Peng, Zhenkuai Huang, Jiaqi Fang, Xinhai Li, Xiaoting Qiu

“…On the basis of introducing the catalytic mechanism and multiple functions of the A domains, this article systematically describes several representative NRPS engineering strategies targeting the A domain, including mutagenesis of substrate-specificity codes, substitution of condensation-adenylation bidomains, the entire A domain or its subdomains, domain insertion, and whole-module rearrangements.…”
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Signaling by a bacterial phytochrome histidine kinase involves a conformational cascade reorganizing the dimeric photoreceptor by E. Sethe Burgie, Katherine Basore, Michael J. Rau, Brock Summers, Alayna J. Mickles, Vadim Grigura, James A. J. Fitzpatrick, Richard D. Vierstra

“…Pr/Pfr comparisons show that bilin phototransformation alters PSM architecture culminating in a scissoring motion of the paired S-helices linking the PSMs to the HK bidomains that ends in reorientation of the paired catalytic ATPase modules relative to the phosphoacceptor histidines. …”
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