Volume 75 (2016) number 2
Mathematical Chemistry

Y. Hou, Q. Tao: Borderenergetic Threshold Graphs, pp. 253262

Z. Shao, F. Deng: Correcting the Number of Borderenergetic Graphs of Order 10, pp. 263266

S. Gong, X. Li, I. Gutman, G. Xu, Y. Tang, Z. Qin, K. Yang: On Maximal Energy of Trees with Fixed Weight Sequence, pp. 267278

I. Gutman, B. Furtula, E. Zogic, E. Glogic: Resolvent Energy of Graphs, pp. 279290

M. R. Oboudi: Energy and Seidel Energy of Graphs, pp. 291303

I. Z. Milovanovic, E. I. Milovanovic: Remarks on the Energy and the Minimum Dominating Energy of a Graph, pp. 305314

L. Chen, J. Liu, Y. Shi: Bounds on the Matching Energy of Unicyclic OddCycle Graphs, pp. 315330

M. A. A. de Freitas, I. Gutman, M. Robbiano: Graphs with Maximum LaplacianEnergyLike Invariant and Incidence Energy, pp. 331342

L. E. Allem, D. P. Jacobs, V. Trevisan: Normalized Laplacian Energy Change and Edge Deletion, pp. 343353

G. Lekishvili: Evaluation of Spectral Moments of Signless Laplacian on the Basis of SubGraph Contributions and Their Applications to the Zagreb Group Indices, pp. 355363

J. L. Palacios: Some Additional Bounds for the Kirchhoff Index, pp. 365372

W. Wang: Estrada Indices of the Trees with a Perfect Matching, pp. 373383
Mathematical Biochemistry

T. Deng, J. W. Duan, W. Li, W. Y. Qiu: A New Euler Formula and Its Characterization of DNA Polyhedra, pp. 387402

Y. Peng, Y. Liu, S. Ruan, Y. Wei: Quantitative Analysis of Genetic Relationship of Species Based on the Network for ProteinCoding DNA Sequences, pp. 403416

J. F. Yu, E. S. Wu, C. L. Wang, H. M. Wang, J. H. Wang: Classification of Ordered/Disordered Regions of Intrinsically Disordered Proteins Based on Comprehensive Sequence Analysis and Chou's Pseudo Amino Acid Composition Method, pp. 417430

D. Sun, C. Xu, Y. Zhang: A Novel Method of 2D Graphical Representation for Proteins and Its Application, pp. 431446

Z. Mu, G. Li, H. Wu, X. Qi: 3DPAF Curve: A Novel Graphical Representation of Protein Sequences for Similarity Analysis, pp. 447462

Z. H. Qi, M. Z. Jin: An Intuitive Graphical Method for Visualizing Protein Sequences Based on Linear Regression and Physicochemical Properties, pp. 463480