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SAR and QSAR in Environmental Research Volume 15, 2004 - Issue 3
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Original Articles

2-D Graphical representation of proteins based on virtual genetic code

M. Randić*Correspondence[email protected]
Pages 147-157 | Received 27 Oct 2003, Accepted 28 Feb 2004, Published online: 01 Feb 2007

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A. El-Lakkani & H. Mahran. (2015) An efficient numerical method for protein sequences similarity analysis based on a new two-dimensional graphical representation. SAR and QSAR in Environmental Research 26:2, pages 125-137.
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M.K. Gupta, R. Niyogi & M. Misra. (2013) An alignment-free method to find similarity among protein sequences via the general form of Chou’s pseudo amino acid composition. SAR and QSAR in Environmental Research 24:7, pages 597-609.
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M. Randić, M. Novič, A. Roy Choudhury & D. Plavšić. (2012) On graphical representation of trans-membrane proteins. SAR and QSAR in Environmental Research 23:3-4, pages 327-343.
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P. He. (2010) A new graphical representation of similarity/dissimilarity studies of protein sequences. SAR and QSAR in Environmental Research 21:5-6, pages 571-580.
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M. Randić, M. Novič, D. Vikić-Topić & D. Plavšić. (2006) Novel numerical and graphical representation of DNA sequences and proteins. SAR and QSAR in Environmental Research 17:6, pages 583-595.
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Fenglan Bai & Tianming Wang. (2006) On Graphical and Numerical Representation of Protein Sequences. Journal of Biomolecular Structure and Dynamics 23:5, pages 537-545.
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Jiahe Huang, Qi Dai, Yuhua Yao & Ping-An He. (2022) A Generalized Iterative Map for Analysis of Protein Sequences. Combinatorial Chemistry & High Throughput Screening 25:3, pages 381-391.
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Ping-An He, Linlin Yan & Tianyu Zhu. (2020) A Graphical Representation of Protein Sequences and Its Applications. A Graphical Representation of Protein Sequences and Its Applications.
Mervat M. Abo-Elkhier, Marwa A. Abd Elwahaab & Moheb I. Abo El Maaty. (2019) Measuring Similarity among Protein Sequences Using a New Descriptor. BioMed Research International 2019, pages 1-10.
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Milan Randić. (2018) Mathematical chemistry illustrations: a personal view of less known results. Journal of Mathematical Chemistry 57:1, pages 280-314.
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Mehri Mahmoodi-Reihani, Fatemeh Abbasitabar & Vahid Zare-Shahabadi. (2018) A novel graphical representation and similarity analysis of protein sequences based on physicochemical properties. Physica A: Statistical Mechanics and its Applications 510, pages 477-485.
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Dorota Bielińska-Wąż & Piotr Wąż. (2017) Spectral-dynamic representation of DNA sequences. Journal of Biomedical Informatics 72, pages 1-7.
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华 王. (2017) Clustering of G Protein-Coupled Receptor Sequences Based on Factor Model. Hans Journal of Computational Biology 07:03, pages 31-38.
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Chun Li, Xueqin Li & Yan-Xia Lin. (2016) Numerical Characterization of Protein Sequences Based on the Generalized Chou’s Pseudo Amino Acid Composition. Applied Sciences 6:12, pages 406.
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Wenbing Hou, Qiuhui Pan & Mingfeng He. (2016) A new graphical representation of protein sequences and its applications. Physica A: Statistical Mechanics and its Applications 444, pages 996-1002.
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Agata Czerniecka, Dorota Bielińska-Wąż, Piotr Wąż & Tim Clark. (2016) 20D-dynamic representation of protein sequences. Genomics 107:1, pages 16-23.
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Lei Wang, Hui Peng, Jinhua Zheng & Yanzi Qiu. (2015) A new 2D graphical representation of protein sequence and its application. International Journal of Biomathematics 08:05, pages 1550063.
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Jayanta Pal, Anilesh Dey, Soumen Ghosh, D. K. Bhattacharya & Tarunima Mukherjee. 2015. Computational Advancement in Communication Circuits and Systems. Computational Advancement in Communication Circuits and Systems 197 214 .
Qian Jun Xiao & Zong Gang Deng. (2014) 3D Graphical Representation of Protein Sequences Based on Conformational Parameters of Amino Acids. Advanced Materials Research 989-994, pages 3599-3604.
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Tingting Ma, Yuxin Liu, Qi Dai, Yuhua Yao & Ping-an He. (2014) A graphical representation of protein based on a novel iterated function system. Physica A: Statistical Mechanics and its Applications 403, pages 21-28.
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Yuhua Yao, Shoujiang Yan, Jianning Han, Qi Dai & Ping-an He. (2014) A novel descriptor of protein sequences and its application. Journal of Theoretical Biology 347, pages 109-117.
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Yushuang Li, Qian Liu, Xiaoqi Zheng & Ping-an He. (2014) UC-Curve: A highly compact 2D graphical representation of protein sequences. International Journal of Quantum Chemistry 114:6, pages 409-415.
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Yuhua YaoShoujiang YanHuimin XuJianning HanXuying NanPing-an HeQi Dai. (2014) Similarity/Dissimilarity Analysis of Protein Sequences Based on a New Spectrum-Like Graphical Representation. Evolutionary Bioinformatics 10, pages EBO.S14713.
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Zhujin Zhang, Xiangxiang Zeng, Zhihua Chen & Eric Ke Wang. 2014. Bio-Inspired Computing - Theories and Applications. Bio-Inspired Computing - Theories and Applications 629 632 .
Yan-ping Zhang, Ji-shuo Ruan & Ping-an He. (2013) Analyzes of the similarities of protein sequences based on the pseudo amino acid composition. Chemical Physics Letters 590, pages 239-244.
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Milan Randić, Marjana Novič & Dejan Plavšić. (2013) Milestones in graphical bioinformatics. International Journal of Quantum Chemistry 113:22, pages 2413-2446.
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Amrita Roy Choudhury, Nikolay Zhukov & Marjana Novič. (2013) Mathematical Characterization of Protein Transmembrane Regions. The Scientific World Journal 2013, pages 1-6.
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Fen Kong, Xu-ying Nan, Ping-an He, Qi Dai & Yu-hua Yao. (2012) A sequence-segmented method applied to the similarity analysis of proteins. A sequence-segmented method applied to the similarity analysis of proteins.
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Mervat M. Abo-Elkhier. (2012) Similarity/dissimilarity analysis of protein sequences using the spatial median as a descriptor. Journal of Biophysical Chemistry 03:02, pages 142-148.
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Alexandru T. Balaban & Milan Randic. (2008) New Chessboard (8×8) Representation of the Standard Genetic Code, and Its Application for Representing Primary Structures of Proteins. New Chessboard (8×8) Representation of the Standard Genetic Code, and Its Application for Representing Primary Structures of Proteins.
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