Your search keyword '"Zhang, ZheMin"' showing total 11 results

1. Unsupervised Hybrid framework for ANomaly Detection (HAND) -- applied to Screening Mammogram

Author

Zhang, Zhemin, Patel, Bhavika, Patel, Bhavik, and Banerjee, Imon

Subjects

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

Abstract

Out-of-distribution (OOD) detection is crucial for enhancing the generalization of AI models used in mammogram screening. Given the challenge of limited prior knowledge about OOD samples in external datasets, unsupervised generative learning is a preferable solution which trains the model to discern the normal characteristics of in-distribution (ID) data. The hypothesis is that during inference, the model aims to reconstruct ID samples accurately, while OOD samples exhibit poorer reconstruction due to their divergence from normality. Inspired by state-of-the-art (SOTA) hybrid architectures combining CNNs and transformers, we developed a novel backbone - HAND, for detecting OOD from large-scale digital screening mammogram studies. To boost the learning efficiency, we incorporated synthetic OOD samples and a parallel discriminator in the latent space to distinguish between ID and OOD samples. Gradient reversal to the OOD reconstruction loss penalizes the model for learning OOD reconstructions. An anomaly score is computed by weighting the reconstruction and discriminator loss. On internal RSNA mammogram held-out test and external Mayo clinic hand-curated dataset, the proposed HAND model outperformed encoder-based and GAN-based baselines, and interestingly, it also outperformed the hybrid CNN+transformer baselines. Therefore, the proposed HAND pipeline offers an automated efficient computational solution for domain-specific quality checks in external screening mammograms, yielding actionable insights without direct exposure to the private medical imaging data.

Published

2024

2. HcNet: Image Modeling with Heat Conduction Equation

Author

Zhang, Zhemin and Gong, Xun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Foundation models, such as CNNs and ViTs, have powered the development of image modeling. However, general guidance to model architecture design is still missing. The design of many modern model architectures, such as residual structures, multiplicative gating signal, and feed-forward networks, can be interpreted in terms of the heat conduction equation. This finding inspired us to model images by the heat conduction equation, where the essential idea is to conceptualize image features as temperatures and model their information interaction as the diffusion of thermal energy. We can take advantage of the rich knowledge in the heat conduction equation to guide us in designing new and more interpretable models. As an example, we propose Heat Conduction Layer and Refine Approximation Layer inspired by solving the heat conduction equation using Finite Difference Method and Fourier series, respectively. This paper does not aim to present a state-of-the-art model; instead, it seeks to integrate the overall architectural design of the model into the heat conduction theory framework. Nevertheless, our Heat Conduction Network (HcNet) still shows competitive performance. Code available at \url{https://github.com/ZheminZhang1/HcNet}.

Published

2024

3. Generating Multi-Center Classifier via Conditional Gaussian Distribution

Author

Zhang, Zhemin and Gong, Xun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The linear classifier is widely used in various image classification tasks. It works by optimizing the distance between a sample and its corresponding class center. However, in real-world data, one class can contain several local clusters, e.g., birds of different poses. To address this complexity, we propose a novel multi-center classifier. Different from the vanilla linear classifier, our proposal is established on the assumption that the deep features of the training set follow a Gaussian Mixture distribution. Specifically, we create a conditional Gaussian distribution for each class and then sample multiple sub-centers from that distribution to extend the linear classifier. This approach allows the model to capture intra-class local structures more efficiently. In addition, at test time we set the mean of the conditional Gaussian distribution as the class center of the linear classifier and follow the vanilla linear classifier outputs, thus requiring no additional parameters or computational overhead. Extensive experiments on image classification show that the proposed multi-center classifier is a powerful alternative to widely used linear classifiers. Code available at https://github.com/ZheminZhang1/MultiCenter-Classifier.

Published

2024

4. An emerging antibacterial nanovaccine for enhanced chemotherapy by selectively eliminating tumor-colonizing bacteria

Author

Chen, Linfu, Kang, Zheyu, Shen, Jingjing, Zhao, Rui, Miao, Yu, Zhang, Lin, Zheng, Zixuan, Zhang, Zhemin, Liu, Nanhui, Wang, Cheng, Fang, Huapan, Zhou, Jun, Wang, Yudong, Liu, Zhuang, Yang, Yang, and Chen, Qian

Published

2024

5. GlnR activated transcription of nitrogen metabolic pathway genes facilitates biofilm formation by mycobacterium abscessus

Author

Fan, Junsheng, Jia, Yaping, He, Siyuan, Tan, Zhili, Li, Anqi, Li, Juan, Zhang, Zhemin, Li, Bing, and Chu, Haiqing

Published

2024

6. Structures of the mycobacterial MmpL4 and MmpL5 transporters provide insights into their role in siderophore export and iron acquisition.

Author

Maharjan, Rakesh, Zhang, Zhemin, Klenotic, Philip A., Gregor, William D., Tringides, Marios L., Cui, Meng, Purdy, Georgiana E., and Yu, Edward W.

Subjects

*AIRBORNE infection, *MEMBRANE proteins, *IRON in the body, *CARRIER proteins, *MEMBRANE transport proteins, *MYCOBACTERIUM tuberculosis

Abstract

The Mycobacterium tuberculosis (Mtb) pathogen, the causative agent of the airborne infection tuberculosis (TB), harbors a number of mycobacterial membrane protein large (MmpL) transporters. These membrane proteins can be separated into 2 distinct subclasses, where they perform important functional roles, and thus, are considered potential drug targets to combat TB. Previously, we reported both X-ray and cryo-EM structures of the MmpL3 transporter, providing high-resolution structural information for this subclass of the MmpL proteins. Currently, there is no structural information available for the subclass associated with MmpL4 and MmpL5, transporters that play a critical role in iron homeostasis of the bacterium. Here, we report cryo-EM structures of the M. smegmatis MmpL4 and MmpL5 transporters to resolutions of 2.95 Å and 3.00 Å, respectively. These structures allow us to propose a plausible pathway for siderophore translocation via these 2 transporters, an essential step for iron acquisition that enables the survival and replication of the mycobacterium. Mycobacterium tuberculosis bacteria express several MmpL membrane protein transporters that are critical for the export of lipid components for cell wall biogenesis. These authors solve the first cryo-EM structures of the subclass I MmpL4 and MmpL5 proteins, providing insights into substrate translocation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Structural basis of DNA recognition of the Campylobacter jejuni CosR regulator

Author

Zhang, Zhemin, primary, Yan, Yuqi, additional, Pang, Jinji, additional, Dai, Lei, additional, Zhang, Qijing, additional, and Yu, Edward W., additional

Published

2024

8. Cryo-EM structures of the human band 3 transporter indicate a transport mechanism involving the coupled movement of chloride and bicarbonate ions.

Author

Su, Chih-Chia, Zhang, Zhemin, Lyu, Meinan, Cui, Meng, and Yu, Edward W.

Subjects

*TRANSMEMBRANE domains, *BICARBONATE ions, *ION transport (Biology), *CHLORIDE ions, *ERYTHROCYTES

Abstract

The band 3 transporter is a critical integral membrane protein of the red blood cell (RBC), as it is responsible for catalyzing the exchange of bicarbonate and chloride anions across the plasma membrane. To elucidate the structural mechanism of the band 3 transporter, detergent solubilized human ghost membrane reconstituted in nanodiscs was applied to a cryo-EM holey carbon grid to define its composition. With this approach, we identified and determined structural information of the human band 3 transporter. Here, we present 5 different cryo-EM structures of the transmembrane domain of dimeric band 3, either alone or bound with chloride or bicarbonate. Interestingly, we observed that human band 3 can form both symmetric and asymmetric dimers with a different combination of outward-facing (OF) and inward-facing (IF) states. These structures also allow us to obtain the first model of a human band 3 molecule at the IF conformation. Based on the structural data of these dimers, we propose a model of ion transport that is in favor of the elevator-type mechanism. Previous studies have solved the high-resolution structures of the dimeric band 3 transporter, but the ion transport mechanism has not yet been fully elucidated. This study solves several cryo-EM structures of band 3 in different conformations indicating that the ion transport mechanism involves the concerted movement of chloride and bicarbonate ions. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cryo-EM structure of the Mycobacterium smegmatis MmpL5-AcpM complex.

Author

Maharjan R, Zhang Z, Klenotic PA, Gregor WD, Purdy GE, and Yu EW

Abstract

Mycobacterium tuberculosis , the causative agent of the airborne infection tuberculosis (TB), contains 13 mycobacterial membrane protein large (MmpL) transporters that can be divided into two distinct subclasses. These MmpL proteins play important functional roles within the mycobacterium and subsequently are considered attractive drug targets to combat TB infection. Previously, we reported both X-ray and cryo-electron microscopy (cryo-EM) structures of the MmpL3 transporter, providing high-resolution structural information for this subclass of the MmpL proteins. Thus far, there is no structural information available for the other subclass, which includes MmpL5, an inner membrane transporter that plays a critical role in iron hemostasis. Here, we report the first cryo-EM structure of the Mycobacterium smegmatis MmpL5 transporter bound with the meromycolate extension acyl carrier protein M (AcpM) to a resolution of 2.81 Å. Our structural data reveals that MmpL5 and AcpM interact in the cytoplasm to form a complex, and this allows us to propose that MmpL5 may also associate with the mycobactin L (MbtL) protein in a similar fashion to form a heterocomplex important for iron acquisition, which enables the survival and replication of the mycobacterium., Importance: The emergence and spread of multidrug-resistant tuberculosis (TB) present enormous challenges to the global public health. The causative agent, Mycobacterium tuberculosis , has now infected more than one-third of the world's population. Here, we report the first structure of the mycobacterial membrane protein large 5 (MmpL5), an essential transporter for iron acquisition, bound with the meromycolate extension acyl carrier protein M (AcpM), indicating a plausible pathway for mycobactin translocation. Our studies will ultimately inform an era in structure-guided drug design to combat TB infection.

Published

2024

10. TBAJ-587, a novel diarylquinoline, is active against Mycobacterium abscessus .

Author

Fan J, Tan Z, He S, Li A, Jia Y, Li J, Zhang Z, Li B, and Chu H

Abstract

Nontuberculous mycobacteria (NTM) infections are extremely difficult to treat due to a natural resistance to many antimicrobials. TBAJ-587 is a novel diarylquinoline, which shows higher anti-tuberculosis activity, lower lipophilicity, and weaker inhibition of hERG channels than bedaquiline (BDQ). The susceptibilities of 11 NTM reference strains and 194 clinical Mycobacterium abscessus isolates to TBAJ-587 were determined by the broth microdilution assay. The activity of TBAJ-587 toward the growth of M. abscessus in macrophages was also evaluated. Minimum bactericidal concentration and time-kill kinetic assays were conducted to distinguish between the bactericidal and bacteriostatic activities of TBAJ-587. The synergy between TBAJ-587 and eight clinically important antibiotics was determined using a checkerboard assay. TBAJ-587 was highly effective against M. abscessus by targeting its F-ATP synthase c chain. The antimicrobial activities of TBAJ-587 and BDQ toward intracellular M. abscessus were comparable. The in vivo activities of TBAJ-587 and BDQ in an immunocompromised mouse model were also comparable. TBAJ-587 expressed bactericidal activity and was compatible with eight anti-NTM drugs commonly used in clinical practice; no antagonism was discovered. As such, TBAJ-587 represents a potential candidate for the treatment of NTM infections.

Published

2024

11. A biofilm-tropic Pseudomonas aeruginosa bacteriophage uses the exopolysaccharide Psl as receptor.

Author

Walton B, Abbondante S, Marshall ME, Dobruchowska JM, Alvi A, Gallagher LA, Vallikat N, Zhang Z, Wozniak DJ, Yu EW, Boons GJ, Pearlman E, and Rietsch A

Abstract

Bacteria in nature can exist in multicellular communities called biofilms. Biofilms also form in the course of many infections. Pseudomonas aeruginosa infections frequently involve biofilms, which contribute materially to the difficulty to treat these infections with antibiotic therapy. Many biofilm-related characteristics are controlled by the second messenger, cyclic-di-GMP, which is upregulated on surface contact. Among these factors is the exopolysaccharide Psl, which is a critically important component of the biofilm matrix. Here we describe the discovery of a P. aeruginosa bacteriophage, which we have called Clew-1, that directly binds to and uses Psl as a receptor. While this phage does not efficiently infect planktonically growing bacteria, it can disrupt P. aeruginosa biofilms and replicate in biofilm bacteria. We further demonstrate that the Clew-1 can reduce the bacterial burden in a mouse model of P. aeruginosa keratitis, which is characterized by the formation of a biofilm on the cornea. Due to its reliance on Psl for infection, Clew-1 does not actually form plaques on wild-type bacteria under standard in vitro conditions. This argues that our standard isolation procedures likely exclude bacteriophage that are adapted to using biofilm markers for infection. Importantly, the manner in which we isolated Clew-1 can be easily extended to other strains of P. aeruginosa and indeed other bacterial species, which will fuel the discovery of other biofilm-tropic bacteriophage and expand their therapeutic use.

Published

2024