Your search keyword '"Shu, Kunxian"' showing total 3 results

1. Panda-UV Unlocks Deeper Protein Characterization with Internal Fragments in Ultraviolet Photodissociation Mass Spectrometry

Author

Zhu, Yinlong, Liu, Zheyi, Liu, Jialiang, Zhao, Heng, Feng, Rui, Shu, Kunxian, Wang, Fangjun, and Chang, Cheng

Abstract

Ultraviolet photodissociation (UVPD) mass spectrometry unlocks insights into the protein structure and sequence through fragmentation patterns. While N- and C-terminal fragments are traditionally relied upon, this work highlights the critical role of internal fragments in achieving near-complete sequencing of protein. Previous limitations of internal fragment utilization, owing to their abundance and potential for random matching, are addressed here with the development of Panda-UV, a novel software tool combining spectral calibration, and Pearson correlation coefficient scoring for confident fragment assignment. Panda-UV showcases its power through comprehensive benchmarks on three model proteins. The inclusion of internal fragments boosts identified fragment numbers by 26% and enhances average protein sequence coverage to a remarkable 93% for intact proteins, unlocking the hidden region of the largest protein carbonic anhydrase II in model proteins. Notably, an average of 65% of internal fragments can be identified in multiple replicates, demonstrating the high confidence of the fragments Panda-UV provided. Finally, the sequence coverages of mAb subunits can be increased up to 86% and the complementary determining regions (CDRs) are nearly completely sequenced in a single experiment. The source codes of Panda-UV are available at https://github.com/PHOENIXcenter/Panda-UV.

Published

2024

2. Convolutional Neural Network Visualization for Identification of Risk Genes in Bipolar Disorder

Author

Yue, Qixuan, Yang, Jie, Shu, Qian, Bai, Mingze, and Shu, Kunxian

Abstract

Background: Bipolar disorder (BD) is a type of chronic emotional disorder with a complex genetic structure. However, its genetic molecular mechanism is still unclear, which makes it insufficient to be diagnosed and treated. Methods and Results: In this paper, we proposed a model for predicting BD based on single nucleotide polymorphisms (SNPs) screening by genome-wide association study (GWAS), which was constructed by a convolutional neural network (CNN) that predicted the probability of the disease. According to the difference of GWAS threshold, two sets of data were named: group P001 and group P005. And different convolutional neural networks are set for the two sets of data. The training accuracy of the model trained with group P001 data is 96%, and the test accuracy is 91%. The training accuracy of the model trained with group P005 data is 94.5%, and the test accuracy is 92%. At the same time, we used gradient weighted class activation mapping (Grad-CAM) to interpret the prediction model, indirectly to identify high-risk SNPs of BD. In the end, we compared these high-risk SNPs with human gene annotation information. Conclusion: The model prediction results of the group P001 yielded 137 risk genes, of which 22 were reported to be associated with the occurrence of BD. The model prediction results of the group P005 yielded 407 risk genes, of which 51 were reported to be associated with the occurrence of BD.

Published

2020

3. A pipeline for identifying endogenous neuropeptides from spectral archives

Author

Bai, Mingze, He, Mingmin, Sun, Qifeng, Liao, Huadong, Shu, Kunxian, and Hermjakob, Henning

Abstract

Shotgun proteomics experiments often provide a big amount of spectra data; however, a big part of them remain unidentified. Many unidentified spectra that are high probably from peptides could be revealed by data mining methods such as clustering. This idea motivates researchers to build 'spectral archives' to identify more peptides from the previously analysed resources. The objective is to build a general way to identify peptides for these high possibility spectra in spectral archives, to help biologists to get more output from the data. We here propose a novel generic pipeline for this approach, based on the PRIDE cluster resources, rather than building a complete archive from scratch. We applied our pipeline to test the identification of endogenous neuropeptides in rat. 33 high probability peptide-induced spectra have been exposed from rat's unidentified spectra in PRIDE cluster's archive.

Published

2018