Jiang Jin-jian scite author profile

Jiang Jin-jian

4Publications

29Citation Statements Received

114Citation Statements Given

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114

Affiliations

University of Science and Technology of China, Anhui University, Anqing Normal University

Publications

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Prediction of Protein Hotspots from Whole Protein Sequences by a Random Projection Ensemble System

Jin-jian

Wang

Zhang

et al. 2017

IJMS

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Hotspot residues are important in the determination of protein-protein interactions, and they always perform specific functions in biological processes. The determination of hotspot residues is by the commonly-used method of alanine scanning mutagenesis experiments, which is always costly and time consuming. To address this issue, computational methods have been developed. Most of them are structure based, i.e., using the information of solved protein structures. However, the number of solved protein structures is extremely less than that of sequences. Moreover, almost all of the predictors identified hotspots from the interfaces of protein complexes, seldom from the whole protein sequences. Therefore, determining hotspots from whole protein sequences by sequence information alone is urgent. To address the issue of hotspot predictions from the whole sequences of proteins, we proposed an ensemble system with random projections using statistical physicochemical properties of amino acids. First, an encoding scheme involving sequence profiles of residues and physicochemical properties from the AAindex1 dataset is developed. Then, the random projection technique was adopted to project the encoding instances into a reduced space. Then, several better random projections were obtained by training an IBk classifier based on the training dataset, which were thus applied to the test dataset. The ensemble of random projection classifiers is therefore obtained. Experimental results showed that although the performance of our method is not good enough for real applications of hotspots, it is very promising in the determination of hotspot residues from whole sequences.

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DrugECs: An Ensemble System with Feature Subspaces for Accurate Drug-Target Interaction Prediction

Jin-jian

Wang

Zhang

et al. 2017

BioMed Research International

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Background Drug-target interaction is key in drug discovery, especially in the design of new lead compound. However, the work to find a new lead compound for a specific target is complicated and hard, and it always leads to many mistakes. Therefore computational techniques are commonly adopted in drug design, which can save time and costs to a significant extent. Results To address the issue, a new prediction system is proposed in this work to identify drug-target interaction. First, drug-target pairs are encoded with a fragment technique and the software “PaDEL-Descriptor.” The fragment technique is for encoding target proteins, which divides each protein sequence into several fragments in order and encodes each fragment with several physiochemical properties of amino acids. The software “PaDEL-Descriptor” creates encoding vectors for drug molecules. Second, the dataset of drug-target pairs is resampled and several overlapped subsets are obtained, which are then input into kNN (k-Nearest Neighbor) classifier to build an ensemble system. Conclusion Experimental results on the drug-target dataset showed that our method performs better and runs faster than the state-of-the-art predictors.

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A Teaching Evaluation System Based On Visual Recognition Technology

Zhang

Guo

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper designs and implements a student-centered teaching evaluation system based on face recognition and pose estimation technology. Our work firstly combines classroom attendance and behavior analysis in an evaluation system. For checking attendance, we select student faces as the identification object, employing a multi-task cascaded convolutional networks (MTCNN) as a face detector and a deep learning network FaceNet to extract face features. Then the head pose information is analyzed using Ensemble of Regression Trees (ERT) algorithm, which is able to detect 68 key feature points of faces. At last, we design and implement the whole system, including designs of functional modules, service software, database and telecommunication of various parts. This system can check attendance and collect student behavior information automatically, enhancing the intelligent level of the learning and teaching system.

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Transplantation research of the LwIP agreement under the uC/OS-II

Jin-jian

2012

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Jiang Jin-jian

Prediction of Protein Hotspots from Whole Protein Sequences by a Random Projection Ensemble System

DrugECs: An Ensemble System with Feature Subspaces for Accurate Drug-Target Interaction Prediction

A Teaching Evaluation System Based On Visual Recognition Technology

Transplantation research of the LwIP agreement under the uC/OS-II

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