International Journal of Electrical Machines & Drives

Many physical phenomenon are associated with either a transport of an actual material through a duct or transport of a charge carrier along a conductor. In physical point of view this phenomena involves the movement of thermal energy along the conductors or the flow of charge carriers along nanowires, nanotubes and conductors. This action is equated with fluid flow along the pipes/tubes or narrow constrictions. This research therefore, highlights the phenomena of such transport along the specialized system, frustrated system or topological system. Hence the transport like billiard or ballistic like transports are visualized in frustrated system like proteins, hemoglobin. We therefore, present the nature of spin transport in Myoglobin (Mgb), where the oxygen carrier is red blood cell and Fe plays a central role.

Todde, Hovmöller, Laaksonen. “Influence of antifreeze proteins on the ice/water interface”. The Journal of Physical Chemistry B. 2015; 119(8):3407-3413.

M. Paoli, J. Marles Wright, A. Smith. “Structure function relationships in hemi proteins', DNA and cell biology. 2002; 21(4): 271-80.

H. Richard Leuchtag. “Review: The Physics of Proteins: An Introduction to Biological Physics and Molecular Biophysics and Theoretical Molecular Biophysics”. Citation: Physics Today. 2011; 64(5):46.

Chris Higgins Little Acre. “Hemoglobin and its measurement” (2005). [online] Available from. https://acutecaretesting.org/en/articles/hemoglobin-and-its-measurement

F. C. Wireko, D. J. Abraham, AS Mehanna, et, al. “Vanillin, a potential agent for the treatment of sickle cell anemia”. Blood. 1991; 77(6): 1334-1341.

Alan N. Schechter. “Hemoglobin research and the origins of molecular medicine”. Blood. 2008; 112(10): 3927-3938.

Scheidt, W. R. & Gouterman, M. “Preparation and molecular stereochemistry of metalloporphyrin complexes with cyano ligands. Cyano (pyridine) (meso-tetraphenylporphinato) iron (III) hydrate and cyano (meso-tetraphenylporphinato) manganese (III) chloroform solvate”. Inorganic Chemistry. 1983; 22(10): 1516-1522.

Prof. A. Gamgee, “On behavior of oxyhemoglobin, carbonic Oxide- haemoglobin, mathemoglobin, and certain of their derivatives, in the magnetic field”. Victoria University. June 1901. https://royalsocietypublishing.org/doi/pdf/10.1098/rspl.1901.0079

Herbert Sheinberg et al, “Differential titration by means of paper electrophoresis and the structure of human hemoglobin”. National Academy of Sciences of the United States of America .1954; 40(9): 777-783.

Y-X Huang, Z-J Wu, B-T Huang, M Luo. “Pathway and Mechanism of pH Dependent Human Hemoglobin Tetramer-Dimer-Monomer”. PLoS ONE. 2013; 8(11): e81708.

F. J. Roughwn. “Kinetics of gas transport in blood”. January 1963; 19 (1): 80-89.

Vanja Maric et al. “Resilience of the topological phases to frustration”. , Scientific Reports. 2021; 6508. https://doi.org/10.1038/s41598-021-86009-4

Ferreiro et al., frustration in biomolecules, Quarterly reviews of biophysics. 2014; 47(4): 285–363 https://doi.org/10.1017/S0033583514000092

Zhendong Fu. “Spin Correlations and Excitations in Spin-frustrated Molecular and Molecule-based Magnets.” 2012; 43: 1866-1807

Roderich Moessner, Aurther P Ramirez. “Geometrical frustration”. Physics Today. 2006; 59(2): 24.

Dixit, G. M. Verkhivker, “The Energy Landscape Analysis of Cancer Mutations in Protein Kinases”. PLoS ONE. 2011; 6(10): e26071. https://doi.org/10.1371/journal.pone.0026071

Kees M. Schep, Pauli J. Kelly, Gerrit E. W. Bauer. “Ballistic transport and electronic structure”. Physical Review B. 1998; 57. 15, 8907.

Sayak Subhra Panda et al. “Solid-state electrical applications of protein and peptide based nanomaterials”. Chemical Society Reviews. 2018; 47: 5616-5616. https://doi.org/10.1039/C7CS00817A

Sabyasachi Mukhopadhyay et al. “Solid-State Protein Junctions: Cross-Laboratory Study Shows Preservation of Mechanism at Varying Electronic Coupling”. iScience. 2020; 23(5): 101099. Doi: 10.1016/j.isci.2020.101099

Shiro Takashima. “The dielectric properties of hemoglobin”. Journal of the American Chemical Society. 1957; 80(17): 4474 - 4475.

Mengwei Si et al., “ferroelectric semiconductor field effect transistor”. Nature Electronics 2019; 2: 580- 586.

Wiebe Wagemans, Bert Koopmans. “Spin transport & MR organic semiconductors”. Physical Status of Solid. 2011; 248(5): 1029 -1041.

Youxun Liu et al. Selective Removal of Hemoglobin from Blood Using Hierarchical Copper Shells Anchored to Magnetic Nanoparticles. Bio Medical Research International. 2017; 11: Article ID 7309481

Robert E. Ulanowicz, George Frazier JR. “The transport of oxygen and carbon dioxide in hemoglobin system”. Mathematical Biosciences. 1970; 7(1-2): 111-129.

R. A. Caetano. Spin-Current and Spin-Splitting in Helicoidally Molecules due to spin orbit Coupling Scientific Reports. 2015; 6:23452

L. Kubisz, D. Hojan Jezierska DC, electrical Conductivity in Studies on Solid–State Proteins. Acta Physica Polonica. 2010; 118 (1): 103-105.

Barnett Rosenberg. “Electrical conductivity of proteins”. Nature. 1962; 193: 364–365.

Solomon Adugna et al, “Amino acids and Proteins”. 2004; No 663-A-00-00-0358-00: 105-159

Linus Pauling, Charles D. Coryell. “The magnetic properties and structure of hemoglobin, oxyhemoglobin and carbonmonoxyhemoglobin”. Chemistry; 1936; 22(4): 210 – 217.

Alaa Eldin F. Nasser, James F. Rusling. “Electron Transfer between Electrodes and Heme Proteins in Protein−DNA Films”. Journal of American Chemistry. 1996; 118: 3043-3044

George Datseris, Lukas Hupe, Ragnar Fleischmann. “Estimating Lyapunov exponents in billiard”. Chaos. 2019; 29: 093115

Linus Pauling, Charles D. Coryell. “Magnetic and structure properties of oxyhemoglobin”. Chemistry. 1977; 74(7): 2612-2613.

Daniel M. Free, et al., “Conformation exchange in membrane transport of protein altered by protein crystals”. 2010; 99(5): 1604-1610.

C-X Liu, S-C Zhang, X-L Qi. “The Quantum Anomalous Hall Effect: Theory and Experiment”. Annual Review of Condensed Matter Physics. 2016; 7: 301-21

Izhar Rona, Lior Sepunaroa, Stella Izhakova, Noga Friedmanb, et, al. “PROTEINS AS BIOELECTRONIC MATERIALS: ELECTRON TRANSPORT THROUGH SOLID-STATE, PROTEIN MONOLAYER JUNCTIONS” Weizmann Institute of Science, POB 2. 6, Rehovot 76100. https://arxiv.org/ftp/arxiv/papers/0903/0903.4255.pdf

Jai-Yul Kong, Osato Miyawaki, Kozo Nakamura, Toshimasa Yano. “The “Intrinsic” Thermal Conductivity of Some Wet Proteins in Relation to Their Average Hydrophobicity: Analyses on Gels of Egg-albumin, Wheat Gluten and Milk Casein”. Agricultural and Biological Chemistry. March 1982; 46(3): 789 - 794.

Martha H. Redi et al. “Hemoglobin-carbon monoxide binding rate low temperature magneto-optical detection of spin tunneling”. Biophysical Journal. 1981; 35(2): 471- 484.

Birgül Sena Mayda. “The effect of childhood trauma on early maladaptive schemas and coping style” 2020; Master Thesis Collection. https://hdl.handle.net/20.500.12780/20

Kara. L. Brena, Richard Eisenberga, Harry B. Gray. “Discovery of the magnetic behavior of hemoglobin: A beginning of bioinorganic chemistry”. PNAS. 2015; 112 (43): 13123–13127.

M. Z. Hasan, C. L. Kane. “Colloquium: Topological insulators”. Reviews of Modern Physics. 2010; 82: 3045 – 3067.

J E Moore. “The birth of topological insulators” Nature. 2010; 464: 194–198.

Markus Meuwly, Martin Karplus. “The Functional Role of the Hemoglobin-Water

Interface” Molecular Aspects of Medicine. 2022; 84 :101042.

Frederic G. Hirsch et al. electrical conductivity of blood. Blood. 1950; 5(11): 1017- 1033

Heinrich Roder, et al., “Comparison of the magnetic properties of deoxy- and

photo dissociated myoglobin”. 1984; 81(8): 2359-2363