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2,415 results on '"Ling, Hao"'

1. MotionWavelet: Human Motion Prediction via Wavelet Manifold Learning

Author

Feng, Yuming, Dou, Zhiyang, Chen, Ling-Hao, Liu, Yuan, Li, Tianyu, Wang, Jingbo, Cao, Zeyu, Wang, Wenping, Komura, Taku, and Liu, Lingjie

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Robotics
Abstract

Modeling temporal characteristics and the non-stationary dynamics of body movement plays a significant role in predicting human future motions. However, it is challenging to capture these features due to the subtle transitions involved in the complex human motions. This paper introduces MotionWavelet, a human motion prediction framework that utilizes Wavelet Transformation and studies human motion patterns in the spatial-frequency domain. In MotionWavelet, a Wavelet Diffusion Model (WDM) learns a Wavelet Manifold by applying Wavelet Transformation on the motion data therefore encoding the intricate spatial and temporal motion patterns. Once the Wavelet Manifold is built, WDM trains a diffusion model to generate human motions from Wavelet latent vectors. In addition to the WDM, MotionWavelet also presents a Wavelet Space Shaping Guidance mechanism to refine the denoising process to improve conformity with the manifold structure. WDM also develops Temporal Attention-Based Guidance to enhance prediction accuracy. Extensive experiments validate the effectiveness of MotionWavelet, demonstrating improved prediction accuracy and enhanced generalization across various benchmarks. Our code and models will be released upon acceptance., Comment: Project Page: https://frank-zy-dou.github.io/projects/MotionWavelet/ Video: https://youtu.be/pyWq0OYJdI0?si=4YHfFNXmLnbPC39g

Published
2024

2. MotionCLR: Motion Generation and Training-free Editing via Understanding Attention Mechanisms

Author

Chen, Ling-Hao, Dai, Wenxun, Ju, Xuan, Lu, Shunlin, and Zhang, Lei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This research delves into the problem of interactive editing of human motion generation. Previous motion diffusion models lack explicit modeling of the word-level text-motion correspondence and good explainability, hence restricting their fine-grained editing ability. To address this issue, we propose an attention-based motion diffusion model, namely MotionCLR, with CLeaR modeling of attention mechanisms. Technically, MotionCLR models the in-modality and cross-modality interactions with self-attention and cross-attention, respectively. More specifically, the self-attention mechanism aims to measure the sequential similarity between frames and impacts the order of motion features. By contrast, the cross-attention mechanism works to find the fine-grained word-sequence correspondence and activate the corresponding timesteps in the motion sequence. Based on these key properties, we develop a versatile set of simple yet effective motion editing methods via manipulating attention maps, such as motion (de-)emphasizing, in-place motion replacement, and example-based motion generation, etc. For further verification of the explainability of the attention mechanism, we additionally explore the potential of action-counting and grounded motion generation ability via attention maps. Our experimental results show that our method enjoys good generation and editing ability with good explainability., Comment: MotionCLR v1 technical report

Published
2024

3. Reading Alphabetic and Nonalphabetic Writing Systems: A Case Study of Bilingual Teachers' Reading Processes through Eye Movement Miscue Analysis

Author

Yang Wang, Ismahan Arslan-Ari, Ling Hao, and Kyungjin Hwang

Abstract

This case study investigates the reading processes of two bilingual teachers who speak English as a second language and use different first languages--Mandarin Chinese and Korean. The two participants read researcher-selected digital texts in English and in their respective first language, retold the texts, and answered comprehension questions about the texts. Their reading aloud and eye movements were recorded for miscue and eye movement analysis. Using Eye Movement Miscue Analysis, the findings showcase the distinctive characteristics of their first-language and second-language reading processes. The cross-linguistic comparison between bilingual reading processes further shows the bilingual participants' similarities and differences in terms of the use of language systems, eye movements, language variations, and image use. This study supports the understanding of non-Roman alphabetical language speakers' reading process, adds to our understanding of the bilingual reading process, and provides teaching and research implications for bilingual teachers and educators.

Published
2024
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4. MotionLLM: Understanding Human Behaviors from Human Motions and Videos

Author

Chen, Ling-Hao, Lu, Shunlin, Zeng, Ailing, Zhang, Hao, Wang, Benyou, Zhang, Ruimao, and Zhang, Lei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This study delves into the realm of multi-modality (i.e., video and motion modalities) human behavior understanding by leveraging the powerful capabilities of Large Language Models (LLMs). Diverging from recent LLMs designed for video-only or motion-only understanding, we argue that understanding human behavior necessitates joint modeling from both videos and motion sequences (e.g., SMPL sequences) to capture nuanced body part dynamics and semantics effectively. In light of this, we present MotionLLM, a straightforward yet effective framework for human motion understanding, captioning, and reasoning. Specifically, MotionLLM adopts a unified video-motion training strategy that leverages the complementary advantages of existing coarse video-text data and fine-grained motion-text data to glean rich spatial-temporal insights. Furthermore, we collect a substantial dataset, MoVid, comprising diverse videos, motions, captions, and instructions. Additionally, we propose the MoVid-Bench, with carefully manual annotations, for better evaluation of human behavior understanding on video and motion. Extensive experiments show the superiority of MotionLLM in the caption, spatial-temporal comprehension, and reasoning ability., Comment: MotionLLM version 1.0, project page see https://lhchen.top/MotionLLM

Published
2024

5. MotionLCM: Real-time Controllable Motion Generation via Latent Consistency Model

Author

Dai, Wenxun, Chen, Ling-Hao, Wang, Jingbo, Liu, Jinpeng, Dai, Bo, and Tang, Yansong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This work introduces MotionLCM, extending controllable motion generation to a real-time level. Existing methods for spatial-temporal control in text-conditioned motion generation suffer from significant runtime inefficiency. To address this issue, we first propose the motion latent consistency model (MotionLCM) for motion generation, building upon the latent diffusion model. By adopting one-step (or few-step) inference, we further improve the runtime efficiency of the motion latent diffusion model for motion generation. To ensure effective controllability, we incorporate a motion ControlNet within the latent space of MotionLCM and enable explicit control signals (e.g., initial poses) in the vanilla motion space to control the generation process directly, similar to controlling other latent-free diffusion models for motion generation. By employing these techniques, our approach can generate human motions with text and control signals in real-time. Experimental results demonstrate the remarkable generation and controlling capabilities of MotionLCM while maintaining real-time runtime efficiency., Comment: MotionLCM project version 1.0 (ECCV 2024)

Published
2024

7. MotionLCM: Real-Time Controllable Motion Generation via Latent Consistency Model

Author

Dai, Wenxun, Chen, Ling-Hao, Wang, Jingbo, Liu, Jinpeng, Dai, Bo, Tang, Yansong, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published
2025
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9. One-Shot Learning as Instruction Data Prospector for Large Language Models

Author

Li, Yunshui, Hui, Binyuan, Xia, Xiaobo, Yang, Jiaxi, Yang, Min, Zhang, Lei, Si, Shuzheng, Chen, Ling-Hao, Liu, Junhao, Liu, Tongliang, Huang, Fei, and Li, Yongbin

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Contemporary practices in instruction tuning often hinge on enlarging data scaling without a clear strategy for ensuring data quality, inadvertently introducing noise that may compromise model performance. To address this challenge, we introduce \textsc{Nuggets}, a novel and efficient methodology that leverages one-shot learning to discern and select high-quality instruction data from extensive datasets. \textsc{Nuggets} assesses the potential of individual instruction examples to act as effective one-shot learning instances, thereby identifying those that can significantly improve performance across diverse tasks. \textsc{Nuggets} utilizes a scoring system based on the impact of candidate examples on the perplexity of a diverse anchor set, facilitating the selection of the most advantageous data for instruction tuning. Through comprehensive evaluations on two benchmarks, including MT-Bench and Alpaca-Eval, we show that instruction tuning with the top 1\% of examples curated by \textsc{Nuggets} substantially outperforms conventional methods employing the entire dataset., Comment: ACL 2024

Published
2023

10. ERASE: Error-Resilient Representation Learning on Graphs for Label Noise Tolerance

Author

Chen, Ling-Hao, Zhang, Yuanshuo, Huang, Taohua, Su, Liangcai, Lin, Zeyi, Xiao, Xi, Xia, Xiaobo, and Liu, Tongliang

Subjects
Computer Science - Machine Learning
Abstract

Deep learning has achieved remarkable success in graph-related tasks, yet this accomplishment heavily relies on large-scale high-quality annotated datasets. However, acquiring such datasets can be cost-prohibitive, leading to the practical use of labels obtained from economically efficient sources such as web searches and user tags. Unfortunately, these labels often come with noise, compromising the generalization performance of deep networks. To tackle this challenge and enhance the robustness of deep learning models against label noise in graph-based tasks, we propose a method called ERASE (Error-Resilient representation learning on graphs for lAbel noiSe tolerancE). The core idea of ERASE is to learn representations with error tolerance by maximizing coding rate reduction. Particularly, we introduce a decoupled label propagation method for learning representations. Before training, noisy labels are pre-corrected through structural denoising. During training, ERASE combines prototype pseudo-labels with propagated denoised labels and updates representations with error resilience, which significantly improves the generalization performance in node classification. The proposed method allows us to more effectively withstand errors caused by mislabeled nodes, thereby strengthening the robustness of deep networks in handling noisy graph data. Extensive experimental results show that our method can outperform multiple baselines with clear margins in broad noise levels and enjoy great scalability. Codes are released at https://github.com/eraseai/erase., Comment: 24 pages, 14 figures, 15 tables and a project page at https://eraseai.github.io/ERASE-page

Published
2023

11. HumanTOMATO: Text-aligned Whole-body Motion Generation

Author

Lu, Shunlin, Chen, Ling-Hao, Zeng, Ailing, Lin, Jing, Zhang, Ruimao, Zhang, Lei, and Shum, Heung-Yeung

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This work targets a novel text-driven whole-body motion generation task, which takes a given textual description as input and aims at generating high-quality, diverse, and coherent facial expressions, hand gestures, and body motions simultaneously. Previous works on text-driven motion generation tasks mainly have two limitations: they ignore the key role of fine-grained hand and face controlling in vivid whole-body motion generation, and lack a good alignment between text and motion. To address such limitations, we propose a Text-aligned whOle-body Motion generATiOn framework, named HumanTOMATO, which is the first attempt to our knowledge towards applicable holistic motion generation in this research area. To tackle this challenging task, our solution includes two key designs: (1) a Holistic Hierarchical VQ-VAE (aka H$^2$VQ) and a Hierarchical-GPT for fine-grained body and hand motion reconstruction and generation with two structured codebooks; and (2) a pre-trained text-motion-alignment model to help generated motion align with the input textual description explicitly. Comprehensive experiments verify that our model has significant advantages in both the quality of generated motions and their alignment with text., Comment: 31 pages, 15 figures, 16 tables. Project page: https://lhchen.top/HumanTOMATO

Published
2023

12. IDEAL: Influence-Driven Selective Annotations Empower In-Context Learners in Large Language Models

Author

Zhang, Shaokun, Xia, Xiaobo, Wang, Zhaoqing, Chen, Ling-Hao, Liu, Jiale, Wu, Qingyun, and Liu, Tongliang

Subjects
Computer Science - Computation and Language
Abstract

In-context learning is a promising paradigm that utilizes in-context examples as prompts for the predictions of large language models. These prompts are crucial for achieving strong performance. However, since the prompts need to be sampled from a large volume of annotated examples, finding the right prompt may result in high annotation costs. To address this challenge, this paper introduces an influence-driven selective annotation method that aims to minimize annotation costs while improving the quality of in-context examples. The essence of our method is to select a pivotal subset from a large-scale unlabeled data pool to annotate for the subsequent sampling of prompts. Specifically, a directed graph is first constructed to represent unlabeled data. Afterward, the influence of candidate unlabeled subsets is quantified with a diffusion process. A simple yet effective greedy algorithm for unlabeled data selection is lastly introduced. It iteratively selects the data if it provides a maximum marginal gain with respect to quantified influence. Compared with previous efforts on selective annotations, our influence-driven method works in an end-to-end manner, avoids an intractable explicit balance between data diversity and representativeness, and enjoys theoretical support. Experiments confirm the superiority of the proposed method on various benchmarks, achieving better performance under lower time consumption during subset selection. The project page is available at https://skzhang1.github.io/IDEAL/., Comment: Accepted by ICLR 2024

Published
2023

14. Analysis of a resonance accident from the no-load closing of AC cable in an offshore wind farm and corresponding countermeasures

Author

LIU Shidan, LI Yiquan, YU Weiguo, LIU Hongjun, LIN Sajia, GAO Xiaoquan, and LING Hao

Subjects
offshore wind power, resonant overcurrent, capacitive current, no-load closing of submarine cable, current compensation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Under the same conditions, the ground capacitance of high-voltage AC submarine cables is over 20 times greater than that of overhead lines, making resonance phenomena more likely during no-load closing of submarine cables. This paper addresses an incident during the no-load closing of a 500 kV AC submarine cable in an offshore wind farm, where resonance caused a malfunction of the line differential protection. The paper analyzes the fault recording data and investigates the resonance mechanism during the closing process based on circuit theory. Simulation results indicate that the incident was caused by the integration of long-distance high-voltage AC cables into a weak system, leading to resonance overcurrents that were below 1.5 times the power frequency but of high magnitude. Despite current compensation from the protection device, significant capacitive resonant differential currents remained, resulting in the malfunction of the differential protection. In light of the engineering context, the paper proposes a response strategy that optimizes the wiring of the secondary circuit of the protection device and dynamically adjusts the threshold for differential current action based on system conditions and the magnitude of line capacitive currents. Finally, the effectiveness of the proposed countermeasures is validated through RTDS closed-loop testing.

Published
2024
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15. Governance of rural solid waste under a multi-subject governance model

Author

Dongshi Sun, Ling Hao, and Danlan Xie

Subjects
Rural solid waste, Multi-subject governance, The best-worst method, VIKOR, Medicine, Science
Abstract

Abstract Rural solid waste (RSW) exhibits distinct characteristics compared to municipal solid waste (MSW), such as dispersed distribution, long governance chains, and low recycling value, making it unsuitable to apply the same management measures as MSW. Government-led RSW management results in excessive administrative costs, and the inherent characteristics of RSW reduce market enthusiasm for its management. To address these issues, this paper integrates the “ multi-subject governance “ model with RSW management and establishes a systematic evaluation index system for RSW governance. Utilizing the Best-Worst Method (BWM), key factors were identified. Utilizing the VIKOR method, representative provinces in China were used as case studies to validate the scientific nature of the evaluation indices. The research findings indicate that the multi-subject governance model is an effective approach for RSW management. Key factors influencing RSW management effectiveness include various governmental measures, waste sorting, and a long-term multi-subject governance mechanism. Case analysis reveals a strong correlation between the level of economic development and the effectiveness of RSW management. However, constructing a government-led, multi-subject collaborative urban-rural interconnected RSW management model can effectively address RSW management issues in economically underdeveloped areas. This research provides innovative solutions for RSW management, contributing to high-quality and sustainable development in rural areas.

Published
2024
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16. Make Explicit Calibration Implicit: Calibrate Denoiser Instead of the Noise Model

Author

Jin, Xin, Xiao, Jia-Wen, Han, Ling-Hao, Guo, Chunle, Liu, Xialei, Li, Chongyi, and Cheng, Ming-Ming

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Explicit calibration-based methods have dominated RAW image denoising under extremely low-light environments. However, these methods are impeded by several critical limitations: a) the explicit calibration process is both labor- and time-intensive, b) challenge exists in transferring denoisers across different camera models, and c) the disparity between synthetic and real noise is exacerbated by digital gain. To address these issues, we introduce a groundbreaking pipeline named Lighting Every Darkness (LED), which is effective regardless of the digital gain or the camera sensor. LED eliminates the need for explicit noise model calibration, instead utilizing an implicit fine-tuning process that allows quick deployment and requires minimal data. Structural modifications are also included to reduce the discrepancy between synthetic and real noise without extra computational demands. Our method surpasses existing methods in various camera models, including new ones not in public datasets, with just a few pairs per digital gain and only 0.5% of the typical iterations. Furthermore, LED also allows researchers to focus more on deep learning advancements while still utilizing sensor engineering benefits. Code and related materials can be found in https://srameo.github.io/projects/led-iccv23/ .

Published
2023

18. AMT: All-Pairs Multi-Field Transforms for Efficient Frame Interpolation

Author

Li, Zhen, Zhu, Zuo-Liang, Han, Ling-Hao, Hou, Qibin, Guo, Chun-Le, and Cheng, Ming-Ming

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present All-Pairs Multi-Field Transforms (AMT), a new network architecture for video frame interpolation. It is based on two essential designs. First, we build bidirectional correlation volumes for all pairs of pixels, and use the predicted bilateral flows to retrieve correlations for updating both flows and the interpolated content feature. Second, we derive multiple groups of fine-grained flow fields from one pair of updated coarse flows for performing backward warping on the input frames separately. Combining these two designs enables us to generate promising task-oriented flows and reduce the difficulties in modeling large motions and handling occluded areas during frame interpolation. These qualities promote our model to achieve state-of-the-art performance on various benchmarks with high efficiency. Moreover, our convolution-based model competes favorably compared to Transformer-based models in terms of accuracy and efficiency. Our code is available at https://github.com/MCG-NKU/AMT., Comment: Accepted to CVPR2023

Published
2023

19. Renal autocrine neuropeptide FF (NPFF) signaling regulates blood pressure

Author

Hewang Lee, Bibhas Amatya, Van Anthony M. Villar, Laureano D. Asico, Jin Kwon Jeong, Jun Feranil, Shaun C. Moore, Xiaoxu Zheng, Michael Bishop, Jerald P. Gomes, Jacob Polzin, Noah Smeriglio, Pedro A. S. Vaz de Castro, Ines Armando, Robin A. Felder, Ling Hao, and Pedro A. Jose

Subjects
Blood pressure, Brain, Dopamine D1-like receptor, Kidney, Neuropeptide FF, Medicine, Science
Abstract

Abstract The kidney and brain play critical roles in the regulation of blood pressure. Neuropeptide FF (NPFF), originally isolated from the bovine brain, has been suggested to contribute to the pathogenesis of hypertension. However, the roles of NPFF and its receptors, NPFF-R1 and NPFF-R2, in the regulation of blood pressure, via the kidney, are not known. In this study, we found that the transcripts and proteins of NPFF and its receptors, NPFF-R1 and NPFF-R2, were expressed in mouse and human renal proximal tubules (RPTs). In mouse RPT cells (RPTCs), NPFF, but not RF-amide-related peptide-2 (RFRP-2), decreased the forskolin-stimulated cAMP production in a concentration- and time-dependent manner. Furthermore, dopamine D1-like receptors colocalized and co-immunoprecipitated with NPFF-R1 and NPFF-R2 in human RPTCs. The increase in cAMP production in human RPTCs caused by fenoldopam, a D1-like receptor agonist, was attenuated by NPFF, indicating an antagonistic interaction between NPFF and D1-like receptors. The renal subcapsular infusion of NPFF in C57BL/6 mice decreased renal sodium excretion and increased blood pressure. The NPFF-mediated increase in blood pressure was prevented by RF-9, an antagonist of NPFF receptors. Taken together, our findings suggest that autocrine NPFF and its receptors in the kidney regulate blood pressure, but the mechanisms remain to be determined.

Published
2024
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20. HumanMAC: Masked Motion Completion for Human Motion Prediction

Author

Chen, Ling-Hao, Zhang, Jiawei, Li, Yewen, Pang, Yiren, Xia, Xiaobo, and Liu, Tongliang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Human motion prediction is a classical problem in computer vision and computer graphics, which has a wide range of practical applications. Previous effects achieve great empirical performance based on an encoding-decoding style. The methods of this style work by first encoding previous motions to latent representations and then decoding the latent representations into predicted motions. However, in practice, they are still unsatisfactory due to several issues, including complicated loss constraints, cumbersome training processes, and scarce switch of different categories of motions in prediction. In this paper, to address the above issues, we jump out of the foregoing style and propose a novel framework from a new perspective. Specifically, our framework works in a masked completion fashion. In the training stage, we learn a motion diffusion model that generates motions from random noise. In the inference stage, with a denoising procedure, we make motion prediction conditioning on observed motions to output more continuous and controllable predictions. The proposed framework enjoys promising algorithmic properties, which only needs one loss in optimization and is trained in an end-to-end manner. Additionally, it accomplishes the switch of different categories of motions effectively, which is significant in realistic tasks, e.g., the animation task. Comprehensive experiments on benchmarks confirm the superiority of the proposed framework. The project page is available at https://lhchen.top/Human-MAC., Comment: Accepted by ICCV 2023

Published
2023

21. Fecal microbiota transplantation derived from mild cognitive impairment individuals impairs cerebral glucose uptake and cognitive function in wild-type mice: Bacteroidetes and TXNIP-GLUT signaling pathway

Author

Tao Wang, Ling Hao, Kexin Yang, Wenjing Feng, Zhiting Guo, Miao Liu, and Rong Xiao

Subjects
Fecal microbiota transplantation, Bacteroidetes, cognitive decline, 27-hydroxycholesterol, cerebral glucose uptake, TXNIP, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Gut microbiome dysbiosis has been widely implicated in cognitive impairment, but the identity of the specific bacterial taxa and mechanisms are not fully elucidated. Brain glucose hypometabolism coincides with the cognitive decline. This study explored the link among cognition, gut microbiota and glucose uptake based on the fecal microbiota transplantation from mild cognitive impairment individuals (MCI-FMT) and investigated whether similar mechanisms were involved in 27-hydroxycholesterol (27-OHC)-induced cognitive decline. Our results showed that the MCI-FMT mice exhibited learning and memory decline and morphological lesions in the brain and colon tissues. There were reduced 18F-fluorodeoxyglucose uptake, downregulated expression of glucose transporters (GLUT1,3,4) and upregulated negative regulator of glucose uptake (TXNIP) in the brain. MCI-FMT altered the bacterial composition and diversity of the recipient mice, and the microbial signatures highlighted by the increased abundance of Bacteroides recapitulated the negative effects of MCI bacterial colonization. However, inhibiting Bacteroidetes or TXNIP increased the expression of GLUT1 and GLUT4, significantly improving brain glucose uptake and cognitive performance in 27-OHC-treated mice. Our study verified that cognitive decline and abnormal cerebral glucose uptake were associated with gut microbiota dysbiosis; we also revealed the involvement of Bacteroidetes and molecular mechanisms of TXNIP-related glucose uptake in cognitive deficits caused by 27-OHC.

Published
2024
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22. SntB triggers the antioxidant pathways to regulate development and aflatoxin biosynthesis in Aspergillus flavus

Author

Dandan Wu, Chi Yang, Yanfang Yao, Dongmei Ma, Hong Lin, Ling Hao, Wenwen Xin, Kangfu Ye, Minghui Sun, Yule Hu, Yanling Yang, and Zhenhong Zhuang

Subjects
Aspergillus flavus, SntB, ChIP-seq, RNA-seq, CatC, Medicine, Science, Biology (General), QH301-705.5
Abstract

The epigenetic reader SntB was identified as an important transcriptional regulator of growth, development, and secondary metabolite synthesis in Aspergillus flavus. However, the underlying molecular mechanism is still unclear. In this study, by gene deletion and complementation, we found SntB is essential for mycelia growth, conidial production, sclerotia formation, aflatoxin synthesis, and host colonization. Chromatin immunoprecipitation sequencing (ChIP-seq) and RNA sequencing (RNA-seq) analysis revealed that SntB played key roles in oxidative stress response of A. flavus, influencing related gene activity, especially catC encoding catalase. SntB regulated the expression activity of catC with or without oxidative stress, and was related to the expression level of the secretory lipase (G4B84_008359). The deletion of catC showed that CatC participated in the regulation of fungal morphogenesis, reactive oxygen species (ROS) level, and aflatoxin production, and that CatC significantly regulated fungal sensitive reaction and AFB1 yield under oxidative stress. Our study revealed the potential machinery that SntB regulated fungal morphogenesis, mycotoxin anabolism, and fungal virulence through the axle of from H3K36me3 modification to fungal virulence and mycotoxin biosynthesis. The results of this study shed light into the SntB-mediated transcript regulation pathways of fungal mycotoxin anabolism and virulence, which provided potential strategy to control the contamination of A. flavus and its aflatoxins.

Published
2024
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27. Design Method and Engineering Application of new Music Road Surface Structure

Author

Ling, Hao, He, Honglu, Chen, Shushu, Yu, Jiake, Zheng, Zheng, Editor-in-Chief, Xi, Zhiyu, Associate Editor, Gong, Siqian, Series Editor, Hong, Wei-Chiang, Series Editor, Mellal, Mohamed Arezki, Series Editor, Narayanan, Ramadas, Series Editor, Nguyen, Quang Ngoc, Series Editor, Ong, Hwai Chyuan, Series Editor, Sun, Zaicheng, Series Editor, Ullah, Sharif, Series Editor, Wu, Junwei, Series Editor, Zhang, Baochang, Series Editor, Zhang, Wei, Series Editor, Zhu, Quanxin, Series Editor, Zheng, Wei, Series Editor, Yuan, Bingxiang, editor, Bilgin, Hüseyin, editor, Luo, Qingzi, editor, and Han, Zejun, editor

Published
2024
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37. Deeply Explain CNN via Hierarchical Decomposition

Author

Cheng, Ming-Ming, Jiang, Peng-Tao, Han, Ling-Hao, Wang, Liang, and Torr, Philip

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In computer vision, some attribution methods for explaining CNNs attempt to study how the intermediate features affect the network prediction. However, they usually ignore the feature hierarchies among the intermediate features. This paper introduces a hierarchical decomposition framework to explain CNN's decision-making process in a top-down manner. Specifically, we propose a gradient-based activation propagation (gAP) module that can decompose any intermediate CNN decision to its lower layers and find the supporting features. Then we utilize the gAP module to iteratively decompose the network decision to the supporting evidence from different CNN layers. The proposed framework can generate a deep hierarchy of strongly associated supporting evidence for the network decision, which provides insight into the decision-making process. Moreover, gAP is effort-free for understanding CNN-based models without network architecture modification and extra training process. Experiments show the effectiveness of the proposed method. The code and interactive demo website will be made publicly available.

Published
2022
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38. AnomMAN: Detect Anomaly on Multi-view Attributed Networks

Author

Chen, Ling-Hao, Li, He, Zhang, Wanyuan, Huang, Jianbin, Ma, Xiaoke, Cui, Jiangtao, Li, Ning, and Yoo, Jaesoo

Subjects
Computer Science - Social and Information Networks, Computer Science - Artificial Intelligence
Abstract

Anomaly detection on attributed networks is widely used in online shopping, financial transactions, communication networks, and so on. However, most existing works trying to detect anomalies on attributed networks only consider a single kind of interaction, so they cannot deal with various kinds of interactions on multi-view attributed networks. It remains a challenging task to jointly consider all different kinds of interactions and detect anomalous instances on multi-view attributed networks. In this paper, we propose a graph convolution-based framework, named AnomMAN, to detect Anomaly on Multi-view Attributed Networks. To jointly consider attributes and all kinds of interactions on multi-view attributed networks, we use the attention mechanism to define the importance of all views in networks. Since the low-pass characteristic of graph convolution operation filters out most high-frequency signals (aonmaly signals), it cannot be directly applied to anomaly detection tasks. AnomMAN introduces the graph auto-encoder module to turn the disadvantage of low-pass features into an advantage. According to experiments on real-world datasets, AnomMAN outperforms the state-of-the-art models and two variants of our proposed model., Comment: Accepted by the Information Sciences Journal

Published
2022

40. 'That's My Mission': Examining Parents' Investments in Their Emergent Bilingual Learners' Development

Author

Lenny Sánchez, Eurydice Bouchereau Bauer, Yang Wang, Wenyu Guo, Ling Hao, and Kyungjin Hwang

Abstract

Numerous complexities undergird how parents support the bilingual development of their young learners, especially in a predominantly monolingual-centric society. In this article, we highlight belief practices which informed parents' decision-making processes in supporting their children, who were enrolled in a diverse dual language immersion school in the Southeast U.S. Specifically, we focus on four ideological "investments" (Darvin & Norton, 2015) which shaped the social and cultural resources they leveraged and sought after for themselves and their children. These include: investing in an asset-based stance on bilingualism, investing in language as cultural practices, investing in the need to shape language development, and investing in the long run that bilingualism matters. These ideological investments, which influenced small and extensive actions, greatly impacted how parents participated in their children's journey in becoming bilingual. We further discuss considerations for schools, which should take into account these types of parental experiences and insights so that schools and parents can work in tandem to champion success for their children.

Published
2023
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48. Multi-modal proteomic characterization of lysosomal function and proteostasis in progranulin-deficient neurons

Author

Saadia Hasan, Michael S. Fernandopulle, Stewart W. Humble, Ashley M. Frankenfield, Haorong Li, Ryan Prestil, Kory R. Johnson, Brent J. Ryan, Richard Wade-Martins, Michael E. Ward, and Ling Hao

Subjects
Lysosome, Neuron, Progranulin, Proteomics, Half-life, Turnover, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Abstract Background Progranulin (PGRN) is a lysosomal glycoprotein implicated in various neurodegenerative diseases, including frontotemporal dementia and neuronal ceroid lipofuscinosis. Over 70 mutations discovered in the GRN gene all result in reduced expression of the PGRN protein. Genetic and functional studies point toward a regulatory role for PGRN in lysosome functions. However, the detailed molecular function of PGRN within lysosomes and the impact of PGRN deficiency on lysosomes remain unclear. Methods We developed multifaceted proteomic techniques to characterize the dynamic lysosomal biology in living human neurons and fixed mouse brain tissues. Using lysosome proximity labeling and immuno-purification of intact lysosomes, we characterized lysosome compositions and interactome in both human induced pluripotent stem cell (iPSC)-derived glutamatergic neurons (i3Neurons) and mouse brains. Using dynamic stable isotope labeling by amino acids in cell culture (dSILAC) proteomics, we measured global protein half-lives in human i3Neurons for the first time. Results Leveraging the multi-modal proteomics and live-cell imaging techniques, we comprehensively characterized how PGRN deficiency changes the molecular and functional landscape of neuronal lysosomes. We found that PGRN loss impairs the lysosome’s degradative capacity with increased levels of v-ATPase subunits on the lysosome membrane, increased hydrolases within the lysosome, altered protein regulations related to lysosomal transport, and elevated lysosomal pH. Consistent with impairments in lysosomal function, GRN-null i3Neurons and frontotemporal dementia patient-derived i3Neurons carrying GRN mutation showed pronounced alterations in protein turnover, such as cathepsins and proteins related to supramolecular polymerization and inherited neurodegenerative diseases. Conclusion This study suggested PGRN as a critical regulator of lysosomal pH and degradative capacity, which influences global proteostasis in neurons. Beyond the study of progranulin deficiency, these newly developed proteomic methods in neurons and brain tissues provided useful tools and data resources for the field to study the highly dynamic neuronal lysosome biology. Graphical Abstract

Published
2023
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49. Sakuranin represses the malignant biological behaviors of human bladder cancer cells by triggering autophagy via activating the p53/mTOR pathway

Author

Ling Hao, Dandan Mu, and Haitao Mu

Subjects
Sakuranin, Bladder cancer, T24 cells, Autophagy, p53/mTOR pathway, Proliferation, Diseases of the genitourinary system. Urology, RC870-923
Abstract

Abstract Objective Sakura extract is a natural flavonoid compound that may have potential anti-tumor effects. The paper focuses on investigating Sakuranin mechanism on bladder cancer (BC) cells. Methods BC cells (T24) were treated with different concentrations of Sakuranin, with 48-h IC50 determined. T24 cells were treated with Sakuranin at IC50, followed by assessment of cell proliferative/apoptotic/migrative/invasive activities by CCK-8, EdU and plate clone formation assays/flow cytometry/Transwell/scratch test. MMP-2 (migration and invasion-related protein) protein level was assessed by Western blot. Cell autophagy was evaluated by measuring the protein levels of autophagy markers (LC3-I/LC3-II/p62) through Western blot. The autophagy inhibitor 3-MA was used to validate the role of autophagy in the regulatory mechanism of Sakuranin in T24 cell behaviors. Furthermore, the activation of the p53/mTOR pathway in cells was detected and a combination of Sakuranin and p53 inhibitor Pifithrin-µ was adopted to explore the involvement of this pathway. Results Sakuranin decreased T24 cell proliferation/EdU positive cell percentage/colony formation number and area/migration/invasion/scratch healing/MMP-2 protein level, and accelerated apoptosis. Sakuranin elevated the LC3-II/I ratio and lowered p62 level in T24 cells. 3-MA partially averted Sakuranin-mediated repression on cell malignant behaviors. Sakuranin upregulated p-p53 and p53 levels, and decreased the p-mTOR/mTOR ratio in T24 cells. The effects of Sakuranin on cell biological behaviors were partly annulled by Pifithrin-µ treatment. Conclusion Sakuranin suppressed T24 cell proliferation/migration/invasion, and enhanced apoptosis by potentiating autophagy through activating the p53/mTOR pathway. This study provided a theoretical basis for Sakuranin as a potential drug for clinical treatment of BC.

Published
2023
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