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SCI: Collaborative Research: DAPLDS - a Dynamically Adaptive Protein-Ligand Docking System based on Multi-Scale Modeling

SCI：协作研究：DAPLDS - 基于多尺度建模的动态自适应蛋白质配体对接系统

基本信息

批准号：
0506411
负责人：
David Anderson
金额：
$ 19.87万
依托单位：
University of California-Berkeley
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2005
资助国家：
美国
起止时间：
2005-09-01 至 2009-08-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=0506411&HistoricalAwards=false
关键词：
SCI Collaborative Research DAPLDS Dynamically

项目摘要

The DAPLDS or Dynamically Adaptive Protein-Ligand Docking System project involves collaboration among the University of Texas, El Paso, The Scripps Research Institute (TSRI), and the University of California, Berkeley. This project, through implementation and use of a cybertool, DAPLDS, that enables adaptive multi-scale modeling in a global computing environment (i.e., distributed, heterogeneous computing environment using "volunteer" PC computers), will further knowledge of the atomic details of protein-ligand interactions and, by doing so, will accelerate the discovery of novel pharmaceuticals. The goals of the project are: (1) to explore the multi-scale nature of algorithmic adaptations in protein-ligand docking and (2) to develop cyber infrastructures based on computational methods and models that efficiently accommodate these adaptations.The intellectual merit of the project derives from small molecules, called ligands, which play an essential role in turning protein functions on or off, or in providing substrates for chemical reactions catalyzed by enzymes. Knowledge of the atomic level details of the protein-ligand docking is a valuable resource in the development of novel pharmaceuticals. The docking process depends on the characteristics of the protein-ligand complex involved and given a certain complex, the characterization and modeling of the docking process can affect both solution accuracy and model execution time. Based on characteristics of the protein-ligand conformations and the availability and reliability of computational resources, DAPLDS adapts, when appropriate, the model and/or the computational system to optimize model accuracy and time to solution. The multi-scale modeling adaptation in DAPLDS comprises at least three spanning scales: (1) protein-ligand representation spanning scale from rigid to flexible representation of protein-ligand interactions, (2) solvent representation spanning scale from less accurate to more accurate modeling of solvent treatment, and (3) sampling strategy spanning scale from fixed to adaptive sampling of the protein-ligand docking space.Broader Impact: DAPLDS applies multi-scale modeling to the search for putative drugs and drug leads. Our project changes the way in which grand challenges are approached by implementing an adaptive cybertool that scales beyond the protein-ligand docking application, e.g., this tool can be adapted and used for protein folding and protein structure prediction. Moreover, the use of public computing resources promotes and disseminates science research and science knowledge among the users of PCs involved in this effort.

动态自适应蛋白质配体对接系统项目涉及德克萨斯大学埃尔帕索分校、斯克里普斯研究所（TSRI）和加州大学伯克利分校的合作。该项目通过实施和使用网络工具DAPLDS，在全球计算环境（即使用“志愿者”PC计算机的分布式、异构计算环境）中实现自适应多尺度建模，将进一步了解蛋白质-配体相互作用的原子细节，并通过这样做，将加速新药物的发现。该项目的目标是：(1)探索蛋白质-配体对接中算法适应的多尺度性质；(2)开发基于有效适应这些适应的计算方法和模型的网络基础设施。这个项目的智力价值来自于被称为配体的小分子，它在打开或关闭蛋白质功能或为酶催化的化学反应提供底物方面起着至关重要的作用。了解蛋白质与配体对接的原子水平细节是开发新药的宝贵资源。对接过程取决于所涉及的蛋白质-配体复合物的特性，给定一定的复合物，对接过程的表征和建模会影响求解精度和模型执行时间。基于蛋白质配体构象的特征以及计算资源的可用性和可靠性，DAPLDS在适当的时候调整模型和/或计算系统，以优化模型的准确性和求解时间。DAPLDS中的多尺度建模适应包括至少三个跨越尺度：(1)蛋白质-配体表征从蛋白质-配体相互作用的刚性表征到柔性表征，(2)溶剂表征从溶剂处理的不精确建模到更精确建模的跨越尺度，以及(3)蛋白质-配体对接空间的固定采样到自适应采样的跨越尺度的采样策略。更广泛的影响：DAPLDS应用多尺度建模来搜索假定的药物和药物线索。我们的项目通过实施一种超越蛋白质配体对接应用的自适应网络工具来改变应对重大挑战的方式，例如，该工具可以用于蛋白质折叠和蛋白质结构预测。此外，公共计算资源的使用促进了科学研究和科学知识在参与这项工作的个人电脑用户之间的传播。

项目成果

期刊论文数量（0）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

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David Anderson其他文献

Bilateral arterial ducts with isolated left subclavian artery in ventriculo-arterial discordance, ventricular septal defect, and coarctation.

双侧动脉导管，左锁骨下动脉孤立，存在心室动脉不一致、室间隔缺损和缩窄。

DOI：
发表时间：
2015
期刊：
European Heart Journal-Cardiovascular Imaging
影响因子：
6.2
作者：
H. Bellsham;O. Miller;David Anderson;Aaron J. Bell
通讯作者：
Aaron J. Bell

Engineered silver nanoparticles are sensed at the plasma membrane and dramatically modify the physiology of Arabidopsis thaliana plants.

工程银纳米颗粒在质膜上被感应，并显着改变拟南芥植物的生理机能。

DOI：
10.1111/tpj.13105
发表时间：
2016
期刊：
The Plant journal : for cell and molecular biology
影响因子：
0
作者：
Arifa Sosan;D. Svistunenko;Darya Y. Straltsova;Katsiaryna Tsiurkina;I. Smolich;T. Lawson;S. Subramaniam;V. Golovko;David Anderson;A. Sokolik;Ian Colbeck;V. Demidchik
通讯作者：
V. Demidchik

Harrison’s Principles of Internal Medicine, 16th Edition

哈里森内科医学原理，第 16 版

DOI：
10.1212/01.wnl.0000161677.02570.30
发表时间：
2005
期刊：
Neurology
影响因子：
9.9
作者：
David Anderson
通讯作者：
David Anderson

Basic science232. Certolizumab pegol prevents pro-inflammatory alterations in endothelial cell function

基础科学232.

DOI：
10.1093/rheumatology/kes108
发表时间：
2012
期刊：
Rheumatology
影响因子：
5.5
作者：
S. Heathfield;B. Parker;L. Zeef;I. Bruce;Y. Alexander;F. Collins;M. Stone;E. Wang;Anwen S. Williams;H. L. Wright;Huw B. Thomas;R. Moots;S. Edwards;C. Bullock;V. Chapman;D. Walsh;A. Mobasheri;D. Kendall;S. Kelly;R. Bayley;C. Buckley;S. Young;Lisa Rump;J. Middleton;Liye Chen;R. Fisher;S. Kollnberger;N. Shastri;B. Kessler;P. Bowness;A. N. Moideen;L. Evans;L. Osgood;Simon A. Jones;M. Nowell;Younis Mahadik;S. Young;M. Morgan;C. Gordon;L. Harper;J. Giles;B. Morgan;C. Harris;O. Ryśnik;K. McHugh;S. Payeli;O. Marroquin;J. Shaw;C. Renner;S. Nayar;T. Cloake;M. Bombardieri;C. Pitzalis;C. Buckley;F. Barone;P. Lane;M. Coles;E. Williams;C. Edwards;C. Cooper;R. Oreffo;S. Dunn;A. Crawford;M. Wilkinson;C. Maitre;R. Bunning;J. Daniels;K. Phillips;N. Chiverton;C. Maitre;J. Shaw;A. Ridley;I. Wong;S. Keidel;A. Chan;N. Gullick;H. E. Abozaid;David M. Jayaraj;H. Evans;D. Scott;E. Choy;L. Taams;M. Hickling;G. Golor;A. Jullion;S. Shaw;K. Kretsos;S. F. Bari;Brian Rhys;N. Amos;S. Siebert;R. D. Bunning;G. Haddock;A. Cross;I. Kate;E. Phillips;A. Cross;R. D. Bunning;S. Ceeraz;J. Spencer;E. Choy;V. Corrigall;A. Crilly;H. Palmer;J. Lockhart;R. Plevin;W. Ferrell;I. McInnes;D. Hutchinson;L. Perry;M. Dicicco;F. Humby;S. Kelly;R. Hands;I. McInnes;P. Taylor;P. Mehta;A. Mitchell;C. Tysoe;R. Caswell;M. Owens;T. Vincent;T. Hashmi;A. Price;C. Sharp;H. Murphy;E. F. Wood;T. Doherty;J. Sheldon;N. Sofat;I. Goff;P. Platt;R. Abdulkader;G. Clunie;M. Ismajli;E. Nikiphorou;A. Young;N. Tugnet;J. Dixey;S. Banik;D. Alcorn;J. Hunter;W. Maw;Pravin Patil;F. Hayes;W. Wong;F. Borg;B. Dasgupta;A. Malaviya;A. Östör;J. Chana;Azeem Ahmed;S. Edmonds;L. Coward;F. Borg;J. Heaney;N. Amft;John Simpson;V. Dhillon;Yezenash Ayalew;F. Khattak;M. Gayed;R. Amarasena;F. Mckenna;M. M. Laughlin;K. Baburaj;Zozik Fattah;N. Ng;J. Wilson;B. Colaco;Mark Williams;T. Adizie;Matthew C. Casey;S. Lip;S. Tan;David Anderson;Calum Robertson;I. Devanny;M. Field;D. Walker;S. Robinson;S. Ryan;A. Hassell;J. Bateman;Maggie E. Allen;David Davies;C. Crouch;K. Walker;N. Gainsborough;P. Lutalo;U. Davies;Jennifer R. Mckew;Auleen M Millar;S. Wright;A. Bell;M. Thapper;Thalia Roussou;J. Cumming;R. Hull;J. McKeogh;M. O'connor;Ahmed I. Hassan;U. Bond;J. Swan;M. Phelan;D. Coady;Namita Kumar;L. Farrow;M. Bukhari;A. Oldroyd;C. Greenbank;J. Mcbeth;R. Duncan;Deborah Brown;M. Horan;N. Pendleton;A. Littlewood;L. Cordingley;M. Mulvey;E. Curtis;Z. Cole;S. Crozier;N. Georgia;S. Robinson;K. Godfrey;A. Sayer;H. Inskip;N. Harvey;R. Davies;L. Mercer;J. Galloway;Audrey Low;K. Watson;M. Lunt;D. Symmons;K. Hyrich;S. Chitale;C. Estrach;N. Goodson;E. Rankin;C. Jiang;K. Cheng;T. Lam;P. Adab;S. Ling;J. Humphreys;Corrinne Ellis;D. Bunn;S. Verstappen;Elisa Fluess;G. Macfarlane;C. Bond;G. Jones;I. Scott;S. Steer;C. Lewis;A. Cope;M. Mulvey;K. Lovell;P. Keeley;S. Woby;Marcus John Beasley;S. Viatte;D. Plant;B. Fu;C. Solymossy;J. Worthington;A. Barton;F. Williams;Daniel;M. Popham;A. Macgregor;T. Spector;J. Little;A. Herrick;S. Pushpakom;H. Ennis;H. Mcburney;J. Worthington;W. Newman;I. Ibrahim;A. Morgan;A. Wilson;J. Isaacs;T. Sanderson;S. Hewlett;M. Calnan;M. Morris;K. Raza;Kanta Kumar;C. Cardy;J. Pauling;J. Jenkins;S. Brown;N. McHugh;M. Mugford;C. Davies;N. Cooper;A. Brooksby;E. Dures;N. Ambler;Debbie Fletcher;D. Pope;F. Robinson;R. Rooke;C. Gorman;P. Reynolds;A. Hakim;A. Bosworth;D. Weaver;P. Kiely;S. Skeoch;M. Jani;R. Amarasena;C. Rao;E. Macphie;Y. McLoughlin;P. Shah;S. Else;O. Semenova;Helen Thompson;O. Ogunbambi;S. Kallankara;Y. Patel;E. Baguley;J. Halsey;A. Severn;S. Selvan;E. Price;M. Husain;S. Brophy;C. Phillips;R. Cooksey;Elizabeth Irvine;D. Lendrem;S. Mitchell;S. Bowman;C. Pease;P. Emery;J. Andrews;N. Sutcliffe;P. Lanyon;Monica Gupta;J. McLaren;M. Regan;A. Cooper;I. Giles;D. Isenberg;B. Griffiths;H. Foggo;S. Edgar;S. Vadivelu;W. Ng;I. Iqbal;L. Heron;C. Pilling;J. Marks;J. Ledingham;Chenglong Han;T. Gathany;N. Tandon;E. Hsia;P. Taylor;V. Strand;T. Sensky;N. Harta;S. Fleming;L. Kay;M. Rutherford;K. Nicholl;T. Eyre;G. Wilson;Phil Johnson;M. Russell;J. Timoshanko;G. Duncan;A. Spandley;S. Roskell;Louise West;R. Adshead;S. Donnelly;S. Ashton;H. Tahir;D. Patel;J. Darroch;J. Boulton;Benjamin M Ellis;R. Finlay;W. Murray;R. Priori;T. Tappuni;S. Vartoukian;N. Seoudi;G. Picarelli;F. Fortune;G. Valesini;C. Pitzalis;M. Bombardieri;E. Ball;M. Rooney;A. Bell;Á. Mérida;E. Tarelli;J. Axford;C. Pericleous;S. Pierangeli;J. Ioannou;Anisur Rahman;A. Alavi;M. Hughes;B. Evans;A. Zaki;M. Hui;R. Garner;F. Rees;R. Bavakunji;P. Daniel;S. Varughese;A. Srikanth;M. Andrés;F. Pearce;J. Leung;K. Lim;A. Oomatia;M. Petri;H. Fang;J. Birnbaum;M. Amissah;K. Stewart;H. Jennens;S. Braude;E. Sutton;C. Yee;D. Jayne;M. Akil;Y. Ahmad;D. D'cruz;M. Khamashta;L. Teh;A. Zoma;I. Dey;E. Kenu;A. Garza;L. Murfitt;P. Driscoll;S. Pierangeli;Y. Ioannou;J. Reynolds;D. Ray;T. O'Neill;I. Segeda;S. Shevchuk;I. Kuvikova;N. Brown;M. Venning;M. Dhanjal;J. Mason;C. Nelson;N. Basu;P. Paudyal;Marie Stockton;S. Lawton;C. Dent;Kathy Kindness;G. Meldrum;E. John;C. Arthur;Lucy West;Matthew V. Macfarlane;D. Reid;M. Yates;Y. Loke;R. Watts;D. Christidis;Mark Williams;Rajappa Sivakumar;R. Misra;D. Danda;K. Mahendranath;P. Bacon;S. Mackie
通讯作者：
S. Mackie