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Natural Science

Natural Science

Natural Science

ISSN Print: 2150-4091
ISSN Online: 2150-4105
www.scirp.org/journal/ns
E-mail: ns@scirp.org
"pLoc-mGpos: Incorporate Key Gene Ontology Information into General PseAAC for Predicting Subcellular Localization of Gram-Positive Bacterial Proteins"
written by Xuan Xiao, Xiang Cheng, Shengchao Su, Qi Mao, Kuo-Chen Chou,
published by Natural Science, Vol.9 No.9, 2017
has been cited by the following article(s):
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[14] pLoc_Deep-mEuk: Predict Subcellular Localization of Eukaryotic Proteins by Deep Learning
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[15] Predicting gram-positive bacterial protein subcellular location by using combined features
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[16] Analysis of domain feature of gram-positive bacterial protein.
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[17] ML-RBF: Predict protein subcellular locations in a multi-label system using evolutionary features
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[18] Recent Progresses for Computationally Identifying N 6-methyladenosine Sites in Saccharomyces cerevisiae
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[19] GP4: an integrated Gram-Positive Protein Prediction Pipeline for subcellular localization mimicking bacterial sorting
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[20] The End of Our Earth Is Certainly to Come:“When”? and “Why”?
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[21] RF-MaloSite and DL-Malosite: Methods based on random forest and deep learning to identify malonylation sites
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[22] Enhancing Segmentation Approaches from Oaam to Fuzzy KC-Means
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[23] Use Chou's 5-Steps Rule to Predict Remote Homology Proteins by Merging Grey Incidence Analysis and Domain Similarity Analysis
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[24] Gordon Life Science Institute and Its Impacts on Computational Biology and Drug Development
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[25] Showcase to Illustrate How the Web-server iPTM-mLys is working
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[26] How the artificial intelligence tool iRNA-2methyl is working for RNA 2'-O-methylation sites
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[27] An insightful 20-year recollection since the birth of pseudo amino acid components
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[28] Showcase to illustrate how the web-server iKcr-PseEns is working
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[29] Predicting lncRNA subcellular localization using unbalanced pseudo-k nucleotide compositions
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[30] Sequence-based identification of arginine amidation sites in proteins using deep representations of proteins and PseAAC
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[31] An Effective Multi-Label Protein Sub-Chloroplast Localization Prediction by Skipped-Grams of Evolutionary Profiles Using Deep Neural Network
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[32] cACP: Classifying anticancer peptides using discriminative intelligent model via Chou's 5-step rules and general pseudo components
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[33] Feature selection and classification for gene expression data using novel correlation based overlapping score method via Chou's 5-steps rule
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[34] Some illuminating remarks on molecular genetics and genomics as well as drug development
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[37] A Study for Therapeutic Treatment against Parkinson's Disease via Chou's 5-steps Rule
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[38] Inhibition of α-amylase Activity by Zn2+: Insights from Spectroscopy and Molecular Dynamics Simulations
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[39] A Possible Modulation Mechanism of Intramolecular and Intermolecular Interactions for NCAM Polysialylation and Cell Migration
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[41] Bayesian Polytrees with Learned Deep Features for Multi-Class Cell Segmentation
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[42] Prediction of Apoptosis Protein Subcellular Localization with Multilayer Sparse Coding and Oversampling Approach
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[44] LAIPT: Lysine Acetylation Site Identification with Polynomial Tree
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[45] MULTiPly: a novel multi-layer predictor for discovering general and specific types of promoters
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[46] MFSC: Multi-voting based feature selection for classification of Golgi proteins by adopting the general form of Chou's PseAAC components
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[47] pSSbond-PseAAC: Prediction of disulfide bonding sites by integration of PseAAC and statistical moments
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[48] SPalmitoylC-PseAAC: A sequence-based model developed via Chou's 5-steps rule and general PseAAC for identifying S-palmitoylation sites in proteins
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[49] MsDBP: Exploring DNA-Binding Proteins by Integrating Multiscale Sequence Information via Chou's Five-Step Rule
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[50] iSulfoTyr-PseAAC: Identify Tyrosine Sulfation Sites by Incorporating Statistical Moments via Chou's 5-steps Rule and Pseudo Components
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[51] In Silico Design and Synthesis of Targeted Curcumin Derivatives as Xanthine Oxidase Inhibitors
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[52] Established and In-trial GPCR Families in Clinical Trials: A Review for Target Selection
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[53] iPhosH-PseAAC: Identify phosphohistidine sites in proteins by blending statistical moments and position relative features according to the Chou's 5-step rule and …
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[54] The preliminary efficacy evaluation of the CTLA-4-Ig treatment against Lupus nephritis through in-silico analyses
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[55] MsDBP: Exploring DNA-binding Proteins by Integrating Multi-scale Sequence Information via Chou's 5-steps Rule
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[56] iRSpot-SPI: Deep learning-based recombination spots prediction by incorporating secondary sequence information coupled with physio-chemical properties via …
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[57] Identifying DNase I hypersensitive sites using multi-features fusion and F-score features selection via Chou's 5-steps rule
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[58] Metabolism of Oxalate in Humans: A Potential Role Kynurenine Aminotransferase/Glutamine Transaminase/Cysteine Conjugate Betalyase Plays in Hyperoxaluria
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[59] iMethylK-PseAAC: Improving Accuracy of Lysine Methylation Sites Identification by Incorporating Statistical Moments and Position Relative Features into General …
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[61] Bioimage-based Prediction of Protein Subcellular Location in Human Tissue with Ensemble Features and Deep Networks
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[63] Glioma stages prediction based on machine learning algorithm combined with protein-protein interaction networks
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[64] Prediction of lysine formylation sites using the composition of k-spaced amino acid pairs via Chou's 5-steps rule and general pseudo components
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[65] Quantitative Structure-activity Relationship of Acetylcholinesterase Inhibitors based on mRMR Combined with Support Vector Regression
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[66] Advance in Predicting Subcellular Localization of Multi-label Proteins and its Implication for Developing Multi-target Drugs
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[67] Proposing Pseudo Amino Acid Components is an Important Milestone for Proteome and Genome Analyses
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[68] Progresses in predicting post-translational modification
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[69] iHyd-PseAAC (EPSV): Identifying Hydroxylation Sites in Proteins by Extracting Enhanced Position and Sequence Variant Feature via Chou's 5-Step Rule and …
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[70] Advances in Predicting Subcellular Localization of Multi-label Proteins and its Implication for Developing Multi-target Drugs
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[71] pLoc_bal-mVirus: predict subcellular localization of multi-label virus proteins by Chou's general PseAAC and IHTS treatment to balance training dataset
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[72] pLoc_bal-mEuk: predict subcellular localization of eukaryotic proteins by general PseAAC and quasi-balancing training dataset
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[76] Artificial intelligence (AI) tools constructed via the 5-steps rule for predicting post-translational modifications
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[78] An insightful 10-year recollection since the emergence of the 5-steps rule.
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[93] iKcr-PseEns: Identify lysine crotonylation sites in histone proteins with pseudo components and ensemble classifier
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[94] iDNA6mA-PseKNC: Identifying DNA N6-methyladenosine sites by incorporating nucleotide physicochemical properties into PseKNC
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[114] iRSpot-ADPM: Identify recombination spots by incorporating the associated dinucleotide product model into Chou's pseudo components
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[116] Identify Gram-negative bacterial secreted protein types by incorporating different modes of PSSM into Chou's general PseAAC via Kullback-Leibler divergence
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[119] Characterization of proteins in different subcellular localizations for Escherichia coli K12
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[120] Improving succinylation prediction accuracy by incorporating the secondary structure via helix, strand and coil, and evolutionary information from profile …
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[123] mLysPTMpred: Multiple Lysine PTM Site Prediction Using Combination of SVM with Resolving Data Imbalance Issue
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[124] iRSpot-PDI: Identification of recombination spots by incorporating dinucleotide property diversity information into Chou's pseudo components
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[125] Prediction and functional analysis of prokaryote lysine acetylation site by incorporating six types of features into Chou's general PseAAC
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[126] iNuc-ext-PseTNC: an efficient ensemble model for identification of nucleosome positioning by extending the concept of Chou's PseAAC to pseudo-tri-nucleotide …
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[128] Analysis and prediction of presynaptic and postsynaptic neurotoxins by Chou's general pseudo amino acid composition and motif features
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[129] Accelerated search for perovskite materials with higher Curie temperature based on the machine learning methods
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[130] iEnhancer-EL: Identifying enhancers and their strength with ensemble learning approach
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[135] Heterodimer binding scaffolds recognition via the analysis of kinetically hot residues
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[136] Analysis and prediction of animal toxins by various Chou's pseudo components and reduced amino acid compositions
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[137] UbiSitePred: A novel method for improving the accuracy of ubiquitination sites prediction by using LASSO to select the optimal Chou's pseudo components
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[138] Identification of protein subcellular localization via integrating evolutionary and physicochemical information into Chou's general PseAAC
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[139] iRO-3wPseKNC: Identify DNA replication origins by three-window-based PseKNC
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[140] pNitro-Tyr-PseAAC: Predict Nitrotyrosine Sites in Proteins by Incorporating Five Features into Chou's General PseAAC
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[141] Simulated protein thermal detection (SPTD) for enzyme thermostability study and an application example for pullulanase from Bacillus deramificans
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[142] pLoc_bal-mPlant: Predict Subcellular Localization of Plant Proteins by General PseAAC and Balancing Training Dataset
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[143] iPSW (2L)-PseKNC: A two-layer predictor for identifying promoters and their strength by hybrid features via pseudo K-tuple nucleotide composition
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[144] pLoc-mHum: predict subcellular localization of multi-location human proteins via general PseAAC to winnow out the crucial GO information
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[145] Intriguing Story about the Birth of Gordon Life Science Institute and its Development and Driving Force. J Retro Virol Anti Retro Virol 2019, 1 (1): 180002 …
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