From mutations to mechanisms and dysfunction via computation and mining of protein energy landscapes

Qiao, Wanli; Akhter, Nasrin; Fang, Xiaowen; Maximova, T.; Plaku, Erion; Shehu, Amarda

doi:10.1186/s12864-018-5024-z

Cited by 8 publications

(5 citation statements)

References 32 publications

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“…Recent studies have underlined the significance of accurate functional annotation in various biological 25,26 , pathological 27,28 , and drug design 29,30 applications. Though advances have been made to label protein sequences with corresponding GO terms, this task remains a challenging problem especially for shorter sequences.…”

Section: Functional Benchmarkingmentioning

confidence: 99%

SeqScreen: Accurate and Sensitive Functional Screening of Pathogenic Sequences via Ensemble Learning

Balaji¹,

Kille²,

Kappell

et al. 2021

Preprint

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Modern benchtop DNA synthesis techniques and increased concern of emerging pathogens have elevated the importance of screening oligonucleotides for pathogens of concern. However, accurate and sensitive characterization of oligonucleotides is an open challenge for many of the current techniques and ontology-based tools. To address this gap, we have developed a novel software tool, SeqScreen, that can accurately and sensitively characterize short DNA sequences using a set of curated Functions of Sequences of Concern (FunSoCs), novel functional labels specific to microbial pathogenesis which describe the pathogenic potential of individual proteins. We show that our ensemble machine learning model after training on these curations can label sequences with FunSoCs via an imbalanced multi-class and multi-label classification task with high accuracy. In summary, SeqScreen represents a first step towards a novel paradigm of functionally informed pathogen characterization from genomic and metagenomic datasets. SeqScreen is open-source and freely available for download at: https://www.gitlab.com/treangenlab/seqscreen .

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Section: Functional Benchmarkingmentioning

confidence: 99%

SeqScreen: Accurate and Sensitive Functional Screening of Pathogenic Sequences via Ensemble Learning

Balaji¹,

Kille²,

Kappell

et al. 2021

Preprint

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“…To appreciate the narrow context, it should be noted that, broadly, computational structural biology deals with structures of biological macromolecules and their interactions not only with each other but also with water, ions, lipids, or small molecule effectors in solution or at (on or in) the membrane, and with the consequences of their modifications and mutations. Especially, computational structural biology aims to model and exploit the structural landscape to understand protein function and dysfunction by harnessing the active and inactive states and considering the shape of the free-energy landscape, identifying the conformations at its minima, the metastable states, and the barriers which need to be crossed to switch between the states [118,119,120,121,122]. It also considers how mutations and other events alter the landscape, by populating previously hidden states.…”

Section: Challenges In Computational Structural Biologymentioning

confidence: 99%

Computational Structural Biology: Successes, Future Directions, and Challenges

et al. 2019

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Computational biology has made powerful advances. Among these, trends in human health have been uncovered through heterogeneous ‘big data’ integration, and disease-associated genes were identified and classified. Along a different front, the dynamic organization of chromatin is being elucidated to gain insight into the fundamental question of genome regulation. Powerful conformational sampling methods have also been developed to yield a detailed molecular view of cellular processes. when combining these methods with the advancements in the modeling of supramolecular assemblies, including those at the membrane, we are finally able to get a glimpse into how cells’ actions are regulated. Perhaps most intriguingly, a major thrust is on to decipher the mystery of how the brain is coded. Here, we aim to provide a broad, yet concise, sketch of modern aspects of computational biology, with a special focus on computational structural biology. We attempt to forecast the areas that computational structural biology will embrace in the future and the challenges that it may face. We skirt details, highlight successes, note failures, and map directions.

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“…Paying attention to the health service functions of wetland parks is an inherent requirement for realizing the "people-centered" development ideology. Wetland parks possess a pristine natural ecological environment that captivates people [9]. These parks serve as frequented locations where residents engage in daily recreational activities, thus playing a crucial role in providing important health services.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Synergy between Water Environment and Health Services in Wetland Parks

Chongjian,

Hong,

Linzhong

et al. 2023

Pol. J. Environ. Stud.

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The wetland water environment serves as the vital "kidney" of the city, playing a pivotal role in purifying water, maintaining habitat biodiversity, and ensuring ecological stability. In this study, we focus on a representative wetland park located in Lanzhou, China. Firstly, we establish a comprehensive evaluation system for the ecological environment of the wetland park. This is achieved through rigorous field monitoring of three key elements within the water environment: water quality, habitat, and aquatic life. By employing this holistic approach, we aim to gain a thorough understanding of the park's ecological condition.Secondly, we employ a questionnaire to assess the quality of health care services provided within the park. Additionally, we extract data from real element analysis and consumer reviews to obtain valuable insights into health care satisfaction levels. This comprehensive evaluation enables us to assess the quality of health services within the marshland park. We summarize optimization strategies for wetland parks, emphasizing the synergy between the water environment and health services. Furthermore, we propose scientifically informed recommendations for improving the quality of health services within wetland parks. This study contributes to our understanding of the crucial relationship between wetland ecosystems, health care services, and the sustainable development of urban environments.

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From mutations to mechanisms and dysfunction via computation and mining of protein energy landscapes

Cited by 8 publications

References 32 publications

SeqScreen: Accurate and Sensitive Functional Screening of Pathogenic Sequences via Ensemble Learning

SeqScreen: Accurate and Sensitive Functional Screening of Pathogenic Sequences via Ensemble Learning

Computational Structural Biology: Successes, Future Directions, and Challenges

Evaluation of Synergy between Water Environment and Health Services in Wetland Parks

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