Your search keyword '"Shuchismita Dutta"' showing total 91 results

1. Using augmented reality in molecular case studies to enhance biomolecular structure-function explorations in undergraduate classrooms

Author

Didem Vardar-Ulu, Saif Eldeen Ragab, Swati Agrawal, and Shuchismita Dutta

Subjects

molecular case studies, hands-on learning, molecular visualization, augmented reality, biochemistry, structure-function, Special aspects of education, LC8-6691, Biology (General), QH301-705.5

Abstract

ABSTRACT Molecular case studies (MCSs) are open educational resources that use a storytelling approach to engage students in biomolecular structure-function explorations, at the interface of biology and chemistry. Although MCSs are developed for a particular target audience with specific learning goals, they are suitable for implementation in multiple disciplinary course contexts. Detailed teaching notes included in the case study help instructors plan and prepare for their implementation in diverse contexts. A newly developed MCS was simultaneously implemented in a biochemistry and a molecular parasitology course at two different institutions. Instructors participating in this cross-institutional and multidisciplinary implementation collaboratively identified the need for quick and effective ways to bridge the gap between the MCS authors’ vision and the implementing instructor’s interpretation of the case-related molecular structure-function discussions. Augmented reality (AR) is an interactive and engaging experience that has been used effectively in teaching molecular sciences. Its accessibility and ease-of-use with smart devices (e.g., phones and tablets) make it an attractive option for expediting and improving both instructor preparation and classroom implementation of MCSs. In this work, we report the incorporation of ready-to-use AR objects as checkpoints in the MCS. Interacting with these AR objects facilitated instructor preparation, reduced students’ cognitive load, and provided clear expectations for their learning. Based on our classroom observations, we propose that the incorporation of AR in MCSs can facilitate its successful implementation, improve the classroom experience for educators and students, and make MCSs more broadly accessible in diverse curricular settings.

Published

2024

2. Molecular storytelling: a conceptual framework for teaching and learning with molecular case studies

Author

Caleb M. Trujillo and Shuchismita Dutta

Subjects

biology education, case studies, technological pedagogical and content knowledge (TPCK), molecular structure and function, molecular visualization, bioinformatics education, Education (General), L7-991

Abstract

Molecular case studies (MCSs) provide educational opportunities to explore biomolecular structure and function using data from public bioinformatics resources. The conceptual basis for the design of MCSs has yet to be fully discussed in the literature, so we present molecular storytelling as a conceptual framework for teaching with case studies. Whether the case study aims to understand the biology of a specific disease and design its treatments or track the evolution of a biosynthetic pathway, vast amounts of structural and functional data, freely available in public bioinformatics resources, can facilitate rich explorations in atomic detail. To help biology and chemistry educators use these resources for instruction, a community of scholars collaborated to create the Molecular CaseNet. This community uses storytelling to explore biomolecular structure and function while teaching biology and chemistry. In this article, we define the structure of an MCS and present an example. Then, we articulate the evolution of a conceptual framework for developing and using MCSs. Finally, we related our framework to the development of technological, pedagogical, and content knowledge (TPCK) for educators in the Molecular CaseNet. The report conceptualizes an interdisciplinary framework for teaching about the molecular world and informs lesson design and education research.

Published

2024

3. Molecular storytelling for online structural biology outreach and education

Author

David S. Goodsell, Shuchismita Dutta, Maria Voigt, and Christine Zardecki

Subjects

Crystallography, QD901-999

Abstract

Knowledge about the structure and function of biomolecules continues to grow exponentially, enabling us to “see” structural snapshots of biomolecular interactions and functional assemblies. At PDB-101, the educational portal of the RCSB Protein Data Bank, we have taken a storytelling approach to make this body of knowledge accessible and comprehensible to a wide community of students, educators, and the general public. For over 20 years, the Molecule of the Month series has utilized a traditional illustrated storytelling approach that is regularly adapted for classroom instruction. Similar visual and interactive storytelling approaches are used to present topical subjects at PDB-101 and full curricular materials and case studies for building a detailed narrative around topics of particular interest. This emphasis on storytelling led to the Video Challenge for High School students, now in its 8th year. In this Article, we will present some of the lessons we have learned for teaching and communicating structural biology using the PDB archive of biomolecular structures.

Published

2021

4. The RCSB PDB 'Molecule of the Month': Inspiring a Molecular View of Biology.

Author

David S Goodsell, Shuchismita Dutta, Christine Zardecki, Maria Voigt, Helen M Berman, and Stephen K Burley

Subjects

Biology (General), QH301-705.5

Abstract

The Research Collaboratory for Structural Bioinformatics (RCSB) Molecule of the Month series provides a curated introduction to the 3-D biomolecular structures available in the Protein Data Bank archive and the tools that are available at the RCSB website for accessing and exploring them. A variety of educational materials, such as articles, videos, posters, hands-on activities, lesson plans, and curricula, build on this series for use in a variety of educational settings as a general introduction to key topics, such as enzyme action, protein synthesis, and viruses. The series and associated educational materials are freely available at www.rcsb.org.

Published

2015

5. RCSB Protein Data Bank (RCSB.org): delivery of experimentally-determined PDB structures alongside one million computed structure models of proteins from artificial intelligence/machine learning.

Author

Stephen K. Burley, Charmi Bhikadiya, Chunxiao Bi, Sebastian Bittrich, Henry Chao, Li Chen 0022, Paul A. Craig, Gregg V. Crichlow, Kenneth Dalenberg, Jose M. Duarte, Shuchismita Dutta, Maryam Fayazi, Zukang Feng, Justin W. Flatt, Sai Ganesan, Sutapa Ghosh, David S. Goodsell, Rachel Kramer Green, Vladimir Guranovic, Jeremy Henry, Brian P. Hudson, Igor Khokhriakov, Catherine L. Lawson, Yuhe Liang, Robert Lowe, Ezra Peisach, Irina Persikova, Dennis W. Piehl, Yana Rose, Andrej Sali, Joan Segura, Monica Sekharan, Chenghua Shao, Brinda Vallat, Maria Voigt, Ben M. Webb, John D. Westbrook, Shamara Whetstone, Jasmine Young, Arthur O. Zalevsky, and Christine Zardecki

Published

2023

6. Folding paper models of biostructures for outreach and education.

Author

David S. Goodsell, Shuchismita Dutta, Brian P. Hudson, Maria Voigt, Stephen K. Burley, and Christine Zardecki

Published

2024

7. RCSB Protein Data Bank: powerful new tools for exploring 3D structures of biological macromolecules for basic and applied research and education in fundamental biology, biomedicine, biotechnology, bioengineering and energy sciences.

Author

Stephen K. Burley, Charmi Bhikadiya, Chunxiao Bi, Sebastian Bittrich, Li Chen 0022, Gregg V. Crichlow, Cole H. Christie, Kenneth Dalenberg, Luigi Di Costanzo, Jose M. Duarte, Shuchismita Dutta, Zukang Feng, Sai Ganesan, David S. Goodsell, Sutapa Ghosh, Rachel Kramer Green, Vladimir Guranovic, Dmytro Guzenko, Brian P. Hudson, Catherine L. Lawson, Yuhe Liang, Robert Lowe, Harry Namkoong, Ezra Peisach, Irina Persikova, Christopher Randle, Alexander S. Rose, Yana Rose, Andrej Sali, Joan Segura, Monica Sekharan, Chenghua Shao, Yi-Ping Tao, Maria Voigt, John D. Westbrook, Jasmine Young, Christine Zardecki, and Marina Zhuravleva

Published

2021

8. RCSB Protein Data Bank: biological macromolecular structures enabling research and education in fundamental biology, biomedicine, biotechnology and energy.

Author

Stephen K. Burley, Helen M. Berman, Charmi Bhikadiya, Chunxiao Bi, Li Chen 0022, Luigi Di Costanzo, Cole H. Christie, Kenneth Dalenberg, Jose M. Duarte, Shuchismita Dutta, Zukang Feng, Sutapa Ghosh, David S. Goodsell, Rachel Kramer Green, Vladimir Guranovic, Dmytro Guzenko, Brian P. Hudson, Tara Kalro, Yuhe Liang, Robert Lowe, Harry Namkoong, Ezra Peisach, Irina Periskova, Andreas Prlic, Christopher Randle, Alexander S. Rose, Peter W. Rose, Raul Sala, Monica Sekharan, Chenghua Shao, Lihua Tan, Yi-Ping Tao, Yana Valasatava, Maria Voigt, John D. Westbrook, Jesse Woo, Huanwang Yang, Jasmine Young, Marina Zhuravleva, and Christine Zardecki

Published

2019

9. RCSB Protein Data Bank (RCSB.org): delivery of experimentally-determined PDB structures alongside one million computed structure models of proteins from artificial intelligence/machine learning

Author

Stephen K Burley, Charmi Bhikadiya, Chunxiao Bi, Sebastian Bittrich, Henry Chao, Li Chen, Paul A Craig, Gregg V Crichlow, Kenneth Dalenberg, Jose M Duarte, Shuchismita Dutta, Maryam Fayazi, Zukang Feng, Justin W Flatt, Sai Ganesan, Sutapa Ghosh, David S Goodsell, Rachel Kramer Green, Vladimir Guranovic, Jeremy Henry, Brian P Hudson, Igor Khokhriakov, Catherine L Lawson, Yuhe Liang, Robert Lowe, Ezra Peisach, Irina Persikova, Dennis W Piehl, Yana Rose, Andrej Sali, Joan Segura, Monica Sekharan, Chenghua Shao, Brinda Vallat, Maria Voigt, Ben Webb, John D Westbrook, Shamara Whetstone, Jasmine Y Young, Arthur Zalevsky, and Christine Zardecki

Subjects

Genetics

Abstract

The Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB), founding member of the Worldwide Protein Data Bank (wwPDB), is the US data center for the open-access PDB archive. As wwPDB-designated Archive Keeper, RCSB PDB is also responsible for PDB data security. Annually, RCSB PDB serves >10 000 depositors of three-dimensional (3D) biostructures working on all permanently inhabited continents. RCSB PDB delivers data from its research-focused RCSB.org web portal to many millions of PDB data consumers based in virtually every United Nations-recognized country, territory, etc. This Database Issue contribution describes upgrades to the research-focused RCSB.org web portal that created a one-stop-shop for open access to ∼200 000 experimentally-determined PDB structures of biological macromolecules alongside >1 000 000 incorporated Computed Structure Models (CSMs) predicted using artificial intelligence/machine learning methods. RCSB.org is a ‘living data resource.’ Every PDB structure and CSM is integrated weekly with related functional annotations from external biodata resources, providing up-to-date information for the entire corpus of 3D biostructure data freely available from RCSB.org with no usage limitations. Within RCSB.org, PDB structures and the CSMs are clearly identified as to their provenance and reliability. Both are fully searchable, and can be analyzed and visualized using the full complement of RCSB.org web portal capabilities.

Published

2022

10. The RCSB protein data bank: integrative view of protein, gene and 3D structural information.

Author

Peter W. Rose, Andreas Prlic, Ali Altunkaya, Chunxiao Bi, Anthony R. Bradley, Cole H. Christie, Luigi Di Costanzo, Jose M. Duarte, Shuchismita Dutta, Zukang Feng, Rachel Kramer Green, David S. Goodsell, Brian P. Hudson, Tara Kalro, Robert Lowe, Ezra Peisach, Christopher Randle, Alexander S. Rose, Chenghua Shao, Yi-Ping Tao, Yana Valasatava, Maria Voigt, John D. Westbrook, Jesse Woo, Huanwang Yang, Jasmine Young, Christine Zardecki, Helen M. Berman, and Stephen K. Burley

Published

2017

11. Anaphase-Promoting Complex / Cyclosome

Author

Shuchismita Dutta

Subjects

General Medicine

Published

2023

12. Molecular explorations of cancer biology and therapeutics at PDB-101

Author

David S. Goodsell, Shuchismita Dutta, Maria Voigt, Christine Zardecki, and Stephen K. Burley

Subjects

Cancer Research, Protein Conformation, Neoplasms, Genetics, Computational Biology, Humans, Databases, Protein, Biology, Molecular Biology

Published

2022

13. The RCSB Protein Data Bank: views of structural biology for basic and applied research and education.

Author

Peter W. Rose, Andreas Prlic, Chunxiao Bi, Wolfgang Bluhm, Cole H. Christie, Shuchismita Dutta, Rachel Kramer Green, David S. Goodsell, John D. Westbrook, Jesse Woo, Jasmine Young, Christine Zardecki, Helen M. Berman, Philip E. Bourne, and Stephen K. Burley

Published

2015

14. <scp>RCSB</scp> Protein Data Bank: Celebrating 50 years of the <scp>PDB</scp> with new tools for understanding and visualizing biological macromolecules in <scp>3D</scp>

Author

Stephen K. Burley, Zukang Feng, John D. Westbrook, Andrej Sali, Justin W Flatt, Rachel Kramer Green, Chenghua Shao, Sai J. Ganesan, Sutapa Ghosh, Brinda Vallat, David S. Goodsell, Jeremy Henry, Christine Zardecki, Joan Segura, Ezra Peisach, Charmi Bhikadiya, Catherine L. Lawson, Jose M. Duarte, Brian P. Hudson, Irina Persikova, Chunxiao Bi, Gregg V. Crichlow, Robert Lowe, Monica Sekharan, Jasmine Young, Shamara Whetstone, Li Chen, Vladimir Guranovic, Yu-He Liang, Dennis W Piehl, Maryam Fayazi, Maria Voigt, Sebastian Bittrich, Shuchismita Dutta, and Yana Rose

Subjects

Tools for Protein Science, Computer science, Macromolecular crystallography, Protein Data Bank (RCSB PDB), Computational Biology, Effective management, computer.file_format, Biomolecular structure, History, 20th Century, Collaboratory, Protein Data Bank, History, 21st Century, Biochemistry, World Wide Web, Anniversaries and Special Events, User-Computer Interface, Structural bioinformatics, Experimental methods, Databases, Protein, Molecular Biology, computer

Abstract

The Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB), funded by the US National Science Foundation, National Institutes of Health, and Department of Energy, has served structural biologists and Protein Data Bank (PDB) data consumers worldwide since 1999. RCSB PDB, a founding member of the Worldwide Protein Data Bank (wwPDB) partnership, is the US data center for the global PDB archive housing biomolecular structure data. RCSB PDB is also responsible for the security of PDB data, as the wwPDB-designated Archive Keeper. Annually, RCSB PDB serves tens of thousands of three-dimensional (3D) macromolecular structure data depositors (using macromolecular crystallography, nuclear magnetic resonance spectroscopy, electron microscopy, and micro-electron diffraction) from all inhabited continents. RCSB PDB makes PDB data available from its research-focused RCSB.org web portal at no charge and without usage restrictions to millions of PDB data consumers working in every nation and territory worldwide. In addition, RCSB PDB operates an outreach and education PDB101.RCSB.org web portal that was used by more than 800,000 educators, students, and members of the public during calendar year 2020. This invited Tools Issue contribution describes (i) how the archive is growing and evolving as new experimental methods generate ever larger and more complex biomolecular structures; (ii) the importance of data standards and data remediation in effective management of the archive and facile integration with more than 50 external data resources; and (iii) new tools and features for 3D structure analysis and visualization made available during the past year via the RCSB.org web portal.

Published

2021

15. <scp>PDB</scp> ‐101: Educational resources supporting molecular explorations through biology and medicine

Author

Robert Lowe, Shuchismita Dutta, Christine Zardecki, Maria Voigt, Stephen K. Burley, and David S. Goodsell

Subjects

Proteomics, Web analytics, Tools for Protein Science, Protein Conformation, business.industry, Protein Data Bank (RCSB PDB), Proteins, computer.file_format, Collaboratory, Crystallography, X-Ray, Protein Data Bank, Biochemistry, World Wide Web, Microscopy, Electron, Structural bioinformatics, Resource (project management), Structural biology, Animals, Humans, Databases, Protein, business, Nuclear Magnetic Resonance, Biomolecular, Molecular Biology, Curriculum, computer

Abstract

The Protein Data Bank (PDB) archive is a rich source of information in the form of atomic-level 3D structures of biomolecules experimentally determined using macromolecular crystallography (MX), nuclear magnetic resonance (NMR) spectroscopy, and electron microscopy (3DEM). Originally established in 1971 as a resource for protein crystallographers to freely exchange data, today PDB data drive research and education across scientific disciplines. In 2011, the online portal PDB-101 was launched to support teachers, students, and the general public in PDB archive exploration (pdb101.rcsb.org). Maintained by the Research Collaboratory for Structural Bioinformatics PDB, PDB-101 aims to help train the next generation of PDB users and to promote the overall importance of structural biology and protein science to non-experts. Regularly published features include the highly popular Molecule of the Month series, 3D model activities, molecular animation videos, and educational curricula. Materials are organized into various categories (Health and Disease, Molecules of Life, Biotech and Nanotech, and Structures and Structure Determination) and searchable by keyword. A biennial health focus frames new resource creation and provides topics for annual video challenges for high school students. Web analytics document that PDB-101 materials relating to fundamental topics (e.g., hemoglobin, catalase) are highly accessed year-on-year. In addition, PDB-101 materials created in response to topical health matters (e.g., Zika, measles, coronavirus) are well-received. PDB-101 shows how learning about the diverse shapes and functions of PDB structures promotes understanding of all aspects of biology, from central dogma of biology to health and disease to biological energy. This article is protected by copyright. All rights reserved.

Published

2021

16. Evolution of the <scp>SARS‐CoV</scp> ‐2 proteome in three dimensions (3D) during the first 6 months of the <scp>COVID</scp> ‐19 pandemic

Author

Charlotte Labrie-Cleary, Jitendra Singh, Steven Arnold, Andrew Sam, Mark Dresel, Luz Helena Alfaro Alvarado, Rebecca Roberts, Emily Fingar, Jennifer Jiang, Paul Craig, Jean Baum, Eddy Arnold, Christine Zardecki, Grace Brannigan, Julia R. Koeppe, Elizabeth M Hennen, Alan Trudeau, Joseph H Lubin, Thejasvi Venkatachalam, Jonathan K. Williams, Kevin Catalfano, Stephen K. Burley, Brian P. Hudson, Isaac Paredes, Sagar D. Khare, Yana Bromberg, Katherine See, Evan Lenkeit, Shuchismita Dutta, J. Steen Hoyer, Erika McCarthy, Michael J. Pikaart, Santiago Soto Zapata, Jenna Currier, Stephanie Laporte, Jay A. Tischfield, Siobain Duffy, Britney Dyszel, Maria Voigt, Changpeng Lu, Bonnie L. Hall, Jesse Sandberg, Kailey Martin, Aaliyah Khan, Stephen A. Mills, Sophia Staggers, Allison Rupert, Elliott M Dolan, Vidur Sarma, Lindsey Whitmore, Helen Zheng, Ashish Duvvuru, David S. Goodsell, Michael Kirsch, Melanie Ortiz-Alvarez de la Campa, Ali A Khan, Matthew Benedek, Francesc X. Ruiz, John D. Westbrook, Marilyn Orellana, Lingjun Xie, Zhuofan Shen, Baleigh Wheeler, and Brea Tinsley

Subjects

Proteome, databases, Viral protein, coronavirus, Computational biology, pandemics, Biology, medicine.disease_cause, Biochemistry, Article, Virus, SARS‐CoV‐2, Protein structure, COVID‐19, Structural Biology, Molecular evolution, evolution, medicine, Humans, Prospective Studies, molecular, Amino Acids, Molecular Biology, Research Articles, chemistry.chemical_classification, SARS-CoV-2, Drug discovery, COVID-19, Robustness (evolution), computer.file_format, Protein Data Bank, Amino acid, viral proteins, chemistry, protein, computer, Function (biology), Research Article

Abstract

Three-dimensional structures of SARS-CoV-2 and other coronaviral proteins archived in the Protein Data Bank were used to analyze viral proteome evolution during the first six months of the COVID-19 pandemic. Analyses of spatial locations, chemical properties, and structural and energetic impacts of the observed amino acid changes in >48,000 viral proteome sequences showed how each one of the 29 viral study proteins have undergone amino acid changes. Structural models computed for every unique sequence variant revealed that most substitutions map to protein surfaces and boundary layers with a minority affecting hydrophobic cores. Conservative changes were observed more frequently in cores versus boundary layers/surfaces. Active sites and protein-protein interfaces showed modest numbers of substitutions. Energetics calculations showed that the impact of substitutions on the thermodynamic stability of the proteome follows a universal bi-Gaussian distribution. Detailed results are presented for six drug discovery targets and four structural proteins comprising the virion, highlighting substitutions with the potential to impact protein structure, enzyme activity, and functional interfaces. Characterizing the evolution of the virus in three dimensions provides testable insights into viral protein function and should aid in structure-based drug discovery efforts as well as the prospective identification of amino acid substitutions with potential for drug resistance.

Published

2021

17. RCSB Protein Data bank: Tools for visualizing and understanding biological macromolecules in 3D

Author

Stephen K. Burley, Charmi Bhikadiya, Chunxiao Bi, Sebastian Bittrich, Henry Chao, Li Chen, Paul A. Craig, Gregg V. Crichlow, Kenneth Dalenberg, Jose M. Duarte, Shuchismita Dutta, Maryam Fayazi, Zukang Feng, Justin W. Flatt, Sai J. Ganesan, Sutapa Ghosh, David S. Goodsell, Rachel Kramer Green, Vladimir Guranovic, Jeremy Henry, Brian P. Hudson, Igor Khokhriakov, Catherine L. Lawson, Yuhe Liang, Robert Lowe, Ezra Peisach, Irina Persikova, Dennis W. Piehl, Yana Rose, Andrej Sali, Joan Segura, Monica Sekharan, Chenghua Shao, Brinda Vallat, Maria Voigt, Benjamin Webb, John D. Westbrook, Shamara Whetstone, Jasmine Y. Young, Arthur Zalevsky, and Christine Zardecki

Subjects

RCSB Protein Data Bank, open access, PDB, electron microscopy, Protein Conformation, Macromolecular Substances, Protein, Biophysics, Proteins, Computational Biology, Bioengineering, Computation Theory and Mathematics, Biochemistry, Databases, micro-electron diffraction, macromolecular crystallography, Protein Data Bank, Humans, Biochemistry and Cell Biology, Other Information and Computing Sciences, Databases, Protein, Molecular Biology, Mol, Worldwide Protein Data Bank, nuclear magnetic resonance spectroscopy

Abstract

Now in its 52nd year of continuous operations, the Protein Data Bank (PDB) is the premiere open-access global archive housing three-dimensional (3D) biomolecular structure data. It is jointly managed by the Worldwide Protein Data Bank (wwPDB) partnership. The Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB) is funded by the National Science Foundation, National Institutes of Health, and US Department of Energy and serves as the US data center for the wwPDB. RCSB PDB is also responsible for the security of PDB data in its role as wwPDB-designated Archive Keeper. Every year, RCSB PDB serves tens of thousands of depositors of 3D macromolecular structure data (coming from macromolecular crystallography, nuclear magnetic resonance spectroscopy, electron microscopy, and micro-electron diffraction). The RCSB PDB research-focused web portal (RCSB.org) makes PDB data available at no charge and without usage restrictions to many millions of PDB data consumers around the world. The RCSB PDB training, outreach, and education web portal (PDB101.RCSB.org) serves nearly 700 K educators, students, and members of the public worldwide. This invited Tools Issue contribution describes how RCSB PDB (i) is organized; (ii) works with wwPDB partners to process new depositions; (iii) serves as the wwPDB-designated Archive Keeper; (iv) enables exploration and 3D visualization of PDB data via RCSB.org; and (v) supports training, outreach, and education via PDB101.RCSB.org. New tools and features at RCSB.org are presented using examples drawn from high-resolution structural studies of proteins relevant to treatment of human cancers by targeting immune checkpoints.

Published

2022

18. Examining Cultural Structures and Functions in Biology

Author

Katherine C Crocker, Gail L. Rosen, Richelle L. Tanner, Neena Grover, Talia Y. Moore, Angela M. Horner, Michelle L. Anderson, Adam P. Summers, Loren E. Hough, Kaitlin Stack Whitney, and Shuchismita Dutta

Subjects

0301 basic medicine, Equity (economics), Interpretation (philosophy), media_common.quotation_subject, 05 social sciences, Indoctrination, 050301 education, Plant Science, Racism, Gatekeeping, 03 medical and health sciences, 030104 developmental biology, Harm, Scale (social sciences), Animals, Animal Science and Zoology, Engineering ethics, Profitability index, Biology, 0503 education, media_common

Abstract

Synopsis Scientific culture and structure organize biological sciences in many ways. We make choices concerning the systems and questions we study. Our research then amplifies these choices into factors that influence the directions of future research by shaping our hypotheses, data analyses, interpretation, publication venues, and dissemination via other methods. But our choices are shaped by more than objective curiosity—we are influenced by cultural paradigms reinforced by societal upbringing and scientific indoctrination during training. This extends to the systems and data that we consider to be ethically obtainable or available for study, and who is considered qualified to do research, ask questions, and communicate about research. It is also influenced by the profitability of concepts like open-access—a system designed to improve equity, but which enacts gatekeeping in unintended but foreseeable ways. Creating truly integrative biology programs will require more than intentionally developing departments or institutes that allow overlapping expertise in two or more subfields of biology. Interdisciplinary work requires the expertise of large and diverse teams of scientists working together—this is impossible without an authentic commitment to addressing, not denying, racism when practiced by individuals, institutions, and cultural aspects of academic science. We have identified starting points for remedying how our field has discouraged and caused harm, but we acknowledge there is a long path forward. This path must be paved with field-wide solutions and institutional buy-in: our solutions must match the scale of the problem. Together, we can integrate—not reintegrate—the nuances of biology into our field.

Published

2021

19. The RCSB Protein Data Bank: new resources for research and education.

Author

Peter W. Rose, Chunxiao Bi, Wolfgang Bluhm, Cole H. Christie, Dimitris Dimitropoulos, Shuchismita Dutta, Rachel Kramer Green, David S. Goodsell, Andreas Prlic, Martha Quesada, Greg B. Quinn, Alexander G. Ramos, John D. Westbrook, Jasmine Young, Christine Zardecki, Helen M. Berman, and Philip E. Bourne

Published

2013

20. Nicotine, Cancer, and Addiction

Author

Angeliz Soto and Shuchismita Dutta

Subjects

General Medicine

Published

2022

21. PDB‐101: Molecular Explorations through Biology and Medicine

Author

Christine Zardecki, David S. Goodsell, Shuchismita Dutta, Maria Voigt, and Stephen K. Burley

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

22. Exploring protein symmetry at the RCSB Protein Data Bank

Author

Jose M. Duarte, Shuchismita Dutta, David S. Goodsell, and Stephen K. Burley

Subjects

Computational Biology, Proteins, General Agricultural and Biological Sciences, Databases, Protein, Molecular Biology, General Biochemistry, Genetics and Molecular Biology

Abstract

The symmetry of biological molecules has fascinated structural biologists ever since the structure of hemoglobin was determined. The Protein Data Bank (PDB) archive is the central global archive of three-dimensional (3D), atomic-level structures of biomolecules, providing open access to the results of structural biology research with no limitations on usage. Roughly 40% of the structures in the archive exhibit some type of symmetry, including formal global symmetry, local symmetry, or pseudosymmetry. The Research Collaboratory for Structural Bioinformatics (RCSB) Protein Data Bank (founding member of the Worldwide Protein Data Bank partnership that jointly manages, curates, and disseminates the archive) provides a variety of tools to assist users interested in exploring the symmetry of biological macromolecules. These tools include multiple modalities for searching and browsing the archive, turnkey methods for biomolecular visualization, documentation, and outreach materials for exploring functional biomolecular symmetry.

Published

2022

23. Recent Advances in Systems and Network Medicine: Meeting Report from the First International Conference in Systems and Network Medicine

Author

Ancha Baranova, Timothy R D J Radstake, Sona Vasudevan, Christian Pristipino, Douglas B. Fridsma, Feixiong Cheng, Anne Pariser, Alif Saleh, Tavpritesh Sethi, Dinesh Verma, Emma Kurnat-Thoma, Joseph Loscalzo, Shuchismita Dutta, Robert Jarrin, Maricel G. Kann, Edwin K. Silverman, Atul J. Butte, Guru Madhavan, Maeve McKean, Damjana Rozman, Jonathon Keeney, Bruce J. West, Sylvia Trujillo, James E. Valentine, Jessica Skopac, Harsha K. Rajasimha, Elia Brodsky, Bradley A. Maron, William B. Rouse, Christina Grant, Kapil Parakh, Nikolaus Schultz, James C. Palmer, Igor Švab, Amrita K. Cheema, Anke H. Maitland-van der Zee, Harald H.H.W. Schmidt, Bakul Patel, Pat Baird, Dennis K. McBride, Seong K. Mun, James Giordano, Pulmonology, Paediatric Pulmonology, APH - Personalized Medicine, RS: MHeNs - R3 - Neuroscience, and Pharmacology and Personalised Medicine

Subjects

Network medicine, Big data, Meeting Report, 03 medical and health sciences, 0302 clinical medicine, big data, Political science, Health care, ethical legal social implications, Systems thinking, network medicine, 030304 developmental biology, 0303 health sciences, Government, business.industry, artificial intelligence, 3. Good health, Clinical Practice, Good Health and Well Being, 030220 oncology & carcinogenesis, international conference, regulatory and health policy, systems, Engineering ethics, Generic health relevance, business, Nexus (standard), ethical legal social implications (ELSI), Omics technologies

Abstract

The First International Conference in Systems and Network Medicine gathered together 200 global thought leaders, scientists, clinicians, academicians, industry and government experts, medical and graduate students, postdoctoral scholars and policymakers. Held at Georgetown University Conference Center in Washington D.C. on September 11-13, 2019, the event featured a day of pre-conference lectures and hands-on bioinformatic computational workshops followed by two days of deep and diverse scientific talks, panel discussions with eminent thought leaders, and scientific poster presentations. Topics ranged from: Systems and Network Medicine in Clinical Practice; the role of -omics technologies in Health Care; the role of Education and Ethics in Clinical Practice, Systems Thinking, and Rare Diseases; and the role of Artificial Intelligence in Medicine. The conference served as a unique nexus for interdisciplinary discovery and dialogue and fostered formation of new insights and possibilities for health care systems advances.

Published

2020

24. An idea to explore: How an interdisciplinary undergraduate course exploring a global health challenge in molecular detail enabled science communication and collaboration in diverse audiences

Author

Shuchismita Dutta, Jennifer Jiang, Sutapa Ghosh, Shriya Patel, Charmi Bhikadiya, Robert Lowe, Maria Voigt, David Goodsell, Christine Zardecki, and Stephen K. Burley

Subjects

Molecular Biology, Biochemistry

Abstract

Communication and collaboration are key science competencies that support sharing of scientific knowledge with experts and non-experts alike. On the one hand, they facilitate interdisciplinary conversations between students, educators, and researchers, while on the other they improve public awareness, enable informed choices, and impact policy decisions. Herein, we describe an interdisciplinary undergraduate course focused on using data from various bioinformatics data resources to explore the molecular underpinnings of diabetes mellitus (Types 1 and 2) and introducing students to science communication. Building on course materials and original student-generated artifacts, a series of collaborative activities engaged students, educators, researchers, healthcare professionals and community members in exploring, learning about, and discussing the molecular bases of diabetes. These collaborations generated novel educational materials and approaches to learning and presenting complex ideas about major global health challenges in formats accessible to diverse audiences.

Published

2022

25. RCSB Protein Data Bank: Efficient Searching and Simultaneous Access to One Million Computed Structure Models Alongside the PDB Structures Enabled by Architectural Advances

Author

Sebastian Bittrich, Charmi Bhikadiya, Chunxiao Bi, Henry Chao, Jose M. Duarte, Shuchismita Dutta, Maryam Fayazi, Jeremy Henry, Igor Khokhriakov, Robert Lowe, Dennis W. Piehl, Joan Segura, Brinda Vallat, Maria Voigt, John D. Westbrook, Stephen K. Burley, and Yana Rose

Subjects

Structural Biology, Molecular Biology

Published

2023

26. Abstract 1481: Developing a Pipeline for Authoring, Piloting, and Evaluating Molecular Case Studies

Author

Kristen Procko, Alexandra Pettit, Elizabeth Pollock, Kasandra Riley, Didem Vardar-Ulu, and Shuchismita Dutta

Subjects

Cell Biology, Molecular Biology, Biochemistry

Published

2023

27. Remediation of the protein data bank archive.

Author

Kim Henrick, Zukang Feng, Wolfgang Bluhm, Dimitris Dimitropoulos, Jurgen F. Doreleijers, Shuchismita Dutta, Judith L. Flippen-Anderson, John M. C. Ionides, Chisa Kamada, Eugene Krissinel, Catherine L. Lawson, John L. Markley, Haruki Nakamura, Richard H. Newman, Yukiko Shimizu, Jawahar Swaminathan, Sameer Velankar, Jeramia Ory, Eldon L. Ulrich, Wim F. Vranken, John D. Westbrook, Reiko Yamashita, Huanwang Yang, Jasmine Young, Muhammed Yousufuddin, and Helen M. Berman

Published

2008

28. Small molecule annotation for the Protein Data Bank.

Author

Sanchayita Sen, Jasmine Young, John M. Berrisford, Minyu Chen, Matthew J. Conroy, Shuchismita Dutta, Luigi Di Costanzo, Guanghua Gao, Sutapa Ghosh, Brian P. Hudson, Reiko Igarashi, Yumiko Kengaku, Yuhe Liang, Ezra Peisach, Irina Persikova, Abhik Mukhopadhyay, Buvaneswari Coimbatore Narayanan, Gaurav Sahni, Junko Sato, Monica Sekharan, Chenghua Shao, Lihua Tan, and Marina Zhuravleva

Published

2014

29. Ribonuclease P

Author

Shuchismita Dutta

Subjects

General Medicine

Published

2021

30. Virtual Boot Camp: <scp>COVID</scp> ‐19 evolution and structural biology

Author

Christine Zardecki, Paul Craig, Sagar D. Khare, Jennifer Jiang, Siobain Duffy, Stephen K. Burley, Jitendra Singh, Yana Bromberg, Julia R. Koeppe, Jay A. Tischfield, Stephen A. Mills, Shuchismita Dutta, Rebecca Roberts, Bonnie L. Hall, Vidur Sarma, Lingjun Xie, Brian P. Hudson, Michael J. Pikaart, and Joseph H Lubin

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Biology, Biochemistry, Education, Distance, Evolution, Molecular, 03 medical and health sciences, Pandemic, Humans, Pandemics, Molecular Biology, Coronavirus 3C Proteases, 030304 developmental biology, Covid‐19, Boot camp, 0303 health sciences, SARS-CoV-2, Extramural, 05 social sciences, COVID-19, Computational Biology, 050301 education, Virology, Structural biology, Curriculum, 0503 education

Published

2020

31. JAK inhibition reduces SARS-CoV-2 liver infectivity and modulates inflammatory responses to reduce morbidity and mortality

Author

George Dranitsaris, Silvia Ottaviani, Rafael García-Molina, Luis Romero Rizos, Antonio Perrella, Christian Sommerauer, Alessio Farcomeni, David Caldevilla Bernardo, Zehra F. Nizami, Agostino Virdis, Nencioni Cesira, James H. Felce, Pedro Manuel Sánchez-Jurado, Almudena Avendaño Céspedes, Marta Mas Romero, Fernando Andrés Pretel, Peter D. Richardson, Shuchismita Dutta, Yee-Joo Tan, Laura Niccoli, Leonardo Gianluca Lacerenza, Haibo Zhang, Claudia Kutter, Delia Goletti, Stephen K. Burley, Ali Mirazimi, Fabio Lena, Daniela Matarrese, Giusy Tiseo, Francesco Forfori, Salvatore De Marco, Andras G. Miklosi, Volker M. Lauschke, Justin Stebbing, Joanne X. Shen, Lourdes Sáez Méndez, Fabrizio Cantini, Mauro Pistello, Fabio Monzani, Josef M. Penninger, Lorenzo Ghiadoni, Rafaela Sánchez Simón-Talero, Sonia Youhanna, Vanessa Monteil, Francesco Menichetti, Laura Carrozzi, William W. Li, Marco Falcone, Pedro Abizanda, Ginés Sánchez Nievas, National Institute for Health Research, and Imperial College Healthcare NHS Trust- BRC Funding

Subjects

Male, BARICITINIB, viruses, Drug Evaluation, Preclinical, PROTEIN, 0302 clinical medicine, FUNCTIONAL RECEPTOR, Medicine, RNA-Seq, Enzyme Inhibitors, skin and connective tissue diseases, Research Articles, Infectivity, Aged, 80 and over, 0303 health sciences, Sulfonamides, Multidisciplinary, PLACEBO, SciAdv r-articles, Middle Aged, 3. Good health, Multidisciplinary Sciences, Cytokine release syndrome, Italy, Liver, 030220 oncology & carcinogenesis, Science & Technology - Other Topics, Cytokines, Female, Patient Safety, Cytokine Release Syndrome, Viral load, Research Article, Adult, Interferon alpha-2, Antiviral Agents, 03 medical and health sciences, Viral entry, INJURY, Humans, Platelet activation, 030304 developmental biology, Aged, Janus Kinases, Proportional Hazards Models, Science & Technology, business.industry, SARS-CoV-2, Gene Expression Profiling, fungi, COVID-19, Virus Internalization, medicine.disease, Platelet Activation, RHEUMATOID-ARTHRITIS, respiratory tract diseases, COVID-19 Drug Treatment, body regions, Coronavirus, Pneumonia, Purines, Spain, Immunology, Azetidines, Pyrazoles, business, Cytokine storm, Janus kinase, Settore SECS-S/01

Abstract

The dual anticytokine and antiviral actions of baricitinib reduce SARS-CoV-2 infectivity in organoids and morbidity in people., Using AI, we identified baricitinib as having antiviral and anticytokine efficacy. We now show a 71% (95% CI 0.15 to 0.58) mortality benefit in 83 patients with moderate-severe SARS-CoV-2 pneumonia with few drug-induced adverse events, including a large elderly cohort (median age, 81 years). An additional 48 cases with mild-moderate pneumonia recovered uneventfully. Using organotypic 3D cultures of primary human liver cells, we demonstrate that interferon-α2 increases ACE2 expression and SARS-CoV-2 infectivity in parenchymal cells by greater than fivefold. RNA-seq reveals gene response signatures associated with platelet activation, fully inhibited by baricitinib. Using viral load quantifications and superresolution microscopy, we found that baricitinib exerts activity rapidly through the inhibition of host proteins (numb-associated kinases), uniquely among antivirals. This reveals mechanistic actions of a Janus kinase-1/2 inhibitor targeting viral entry, replication, and the cytokine storm and is associated with beneficial outcomes including in severely ill elderly patients, data that incentivize further randomized controlled trials.

Published

2021

32. RCSB Protein Data Bank: powerful new tools for exploring 3D structures of biological macromolecules for basic and applied research and education in fundamental biology, biomedicine, biotechnology, bioengineering and energy sciences

Author

Monica Sekharan, Jose M. Duarte, Brian P. Hudson, Zukang Feng, Ezra Peisach, Christine Zardecki, Andrej Sali, Maria Voigt, Sebastian Bittrich, Cole Christie, John D. Westbrook, Sutapa Ghosh, Chunxiao Bi, Li Chen, Dmytro Guzenko, Gregg V. Crichlow, Vladimir Guranovic, Yu-He Liang, Luigi Di Costanzo, Rachel Kramer Green, Kenneth Dalenberg, Yana Rose, Marina Zhuravleva, Jasmine Young, Alexander S. Rose, Harry Namkoong, Chenghua Shao, Sai J. Ganesan, David S. Goodsell, Charmi Bhikadiya, Shuchismita Dutta, Stephen K. Burley, Joan Segura, Catherine L. Lawson, Christopher Randle, Irina Persikova, Robert Lowe, and Yi-Ping Tao

Subjects

Biodata, Biomedical Research, AcademicSubjects/SCI00010, Macromolecular Substances, Protein Conformation, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Protein Data Bank (RCSB PDB), Bioengineering, Biology, Structural bioinformatics, Viral Proteins, Genetics, Database Issue, Humans, Applied research, Databases, Protein, Pandemics, Biomedicine, business.industry, SARS-CoV-2, COVID-19, Computational Biology, Proteins, computer.file_format, Collaboratory, Protein Data Bank, Biotechnology, business, computer, Software

Abstract

The Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB), the US data center for the global PDB archive and a founding member of the Worldwide Protein Data Bank partnership, serves tens of thousands of data depositors in the Americas and Oceania and makes 3D macromolecular structure data available at no charge and without restrictions to millions of RCSB.org users around the world, including >660 000 educators, students and members of the curious public using PDB101.RCSB.org. PDB data depositors include structural biologists using macromolecular crystallography, nuclear magnetic resonance spectroscopy, 3D electron microscopy and micro-electron diffraction. PDB data consumers accessing our web portals include researchers, educators and students studying fundamental biology, biomedicine, biotechnology, bioengineering and energy sciences. During the past 2 years, the research-focused RCSB PDB web portal (RCSB.org) has undergone a complete redesign, enabling improved searching with full Boolean operator logic and more facile access to PDB data integrated with >40 external biodata resources. New features and resources are described in detail using examples that showcase recently released structures of SARS-CoV-2 proteins and host cell proteins relevant to understanding and addressing the COVID-19 global pandemic.

Published

2020

33. Protein Data Bank: the single global archive for 3D macromolecular structure data

Author

Masashi Yokochi, Ju Yaen Kim, Chenghua Shao, John M. Berrisford, Hongyang Yao, Miron Livny, Stephen Anyango, Abhik Mukhopadhyay, Romana Gáborová, Yi-Ping Tao, Monica Sekharan, Aleksandras Gutmanas, Jose M. Dana, Mandar Deshpande, Charmi Bhikadiya, Yannis Ioannidis, Pedro Romero, Jonathan R. Wedell, Eldon L. Ulrich, Gert-Jan Bekker, Chris Randle, Chunxiao Bi, Jeffrey C. Hoch, Nurul Nadzirin, Jaroslav Koča, Yumiko Kengaku, Jasmine Young, Cole Christie, John D. Westbrook, Naohiro Kobayashi, Alexander S. Rose, Sameer Velankar, David Sehnal, Lukáš Pravda, David R. Armstrong, Hasumi Cho, Genji Kurisu, Lora Mak, John L. Markley, Saqib Mir, Sutapa Ghosh, Ardan Patwardhan, Zukang Feng, Stephen K. Burley, Robert Lowe, David S. Goodsell, Hirofumi Suzuki, Maria Voigt, Paul Gane, Jose M. Duarte, Osman Salih, Irina Periskova, Matthew J. Conroy, Toshimichi Fujiwara, Yasuyo Ikegawa, Takahiro Kudou, Dimitri Maziuk, Typhaine Paysan-Lafosse, Brian P. Hudson, Christine Zardecki, Sreenath Nair, Gerard J. Kleywegt, Marina A. Zhuravleva, Shuchismita Dutta, Dmytro Guzenko, Kumaran Baskaran, Rachel Kramer Green, Ezra Peisach, Li Chen, Reiko Yamashita, Vladimir Guranovic, Yu-He Liang, Takeshi Iwata, Atsushi Nakagawa, Haruki Nakamura, Junko Sato, Radka Svobodová Vařeková, Helen M. Berman, Deepti Gupta, Luigi Di Costanzo, Mihaly Varadi, Yana Valasatava, Burley, S. K., Berman, H. M., Bhikadiya, C., Bi, C., Chen, L., DI COSTANZO, Luigi, Addeo, PIETRO FRANCESCO BRUNO CHRISTI, Duarte, J. M., Dutta, S., Feng, Z., Ghosh, S., Goodsell, D. S., Green, R. K., Guranovic, V., Guzenko, D., Hudson, B. P., Liang, Y., Lowe, R., Peisach, E., Periskova, I., Randle, C., Rose, A., Sekharan, M., Shao, C., Tao, Y. -P., Valasatava, Y., Voigt, M., Westbrook, J., Young, J., Zardecki, C., Zhuravleva, M., Kurisu, G., Nakamura, H., Kengaku, Y., Cho, H., Sato, J., Kim, J. Y., Ikegawa, Y., Nakagawa, A., Yamashita, R., Kudou, T., Bekker, G. -J., Suzuki, H., Iwata, T., Yokochi, M., Kobayashi, N., Fujiwara, T., Velankar, S., Kleywegt, G. J., Anyango, S., Armstrong, D. R., Berrisford, J. M., Conroy, M. J., Dana, J. M., Deshpande, M., Gane, P., Gaborova, R., Gupta, D., Gutmanas, A., Koca, J., Mak, L., EL MIR, Abdelouahad, Mukhopadhyay, A., Nadzirin, N., Nair, S., Patwardhan, A., Paysan-Lafosse, T., Pravda, L., Salih, O., Sehnal, D., Varadi, M., Varekova, R., Markley, J. L., Hoch, J. C., Romero, P. R., Baskaran, K., Maziuk, D., Ulrich, E. L., Wedell, J. R., Sicong, Yao, Livny, M., and Ioannidis, Y. E.

Subjects

Models, Molecular, Protein Conformation, Molecular Conformation, Protein Data Bank (RCSB PDB), Master data, Biology, computer.software_genre, 03 medical and health sciences, 0302 clinical medicine, Genetics, Database Issue, RDF, Databases, Protein, 030304 developmental biology, Structure (mathematical logic), 0303 health sciences, Database, Experimental data, DNA, computer.file_format, Atomic coordinates, Protein Data Bank, Metadata, Metals, Nucleic Acid Conformation, RNA, computer, 030217 neurology & neurosurgery

Abstract

The Protein Data Bank (PDB) is the single global archive of experimentally determined three-dimensional (3D) structure data of biological macromolecules. Since 2003, the PDB has been managed by the Worldwide Protein Data Bank (wwPDB; wwpdb.org), an international consortium that collaboratively oversees deposition, validation, biocuration, and open access dissemination of 3D macromolecular structure data. The PDB Core Archive houses 3D atomic coordinates of more than 144 000 structural models of proteins, DNA/RNA, and their complexes with metals and small molecules and related experimental data and metadata. Structure and experimental data/metadata are also stored in the PDB Core Archive using the readily extensible wwPDB PDBx/mmCIF master data format, which will continue to evolve as data/metadata from new experimental techniques and structure determination methods are incorporated by the wwPDB. Impacts of the recently developed universal wwPDB OneDep deposition/validation/biocuration system and various methods-specific wwPDB Validation Task Forces on improving the quality of structures and data housed in the PDB Core Archive are described together with current challenges and future plans.

Published

2018

34. RCSB Protein Data Bank: biological macromolecular structures enabling research and education in fundamental biology, biomedicine, biotechnology and energy

Author

Robert Lowe, Maria Voigt, Zukang Feng, Dmytro Guzenko, Chenghua Shao, Raul Sala, Cole H. Christie, Tara Kalro, Chunxiao Bi, Irina Periskova, Christine Zardecki, David S. Goodsell, John D. Westbrook, Shuchismita Dutta, Andreas Prlić, Charmi Bhikadiya, Monica Sekharan, Marina Zhuravleva, Harry Namkoong, Ezra Peisach, Peter W. Rose, Helen M. Berman, Alexander S. Rose, Stephen K. Burley, Yana Valasatava, Christopher Randle, Luigi Di Costanzo, Yi-Ping Tao, Lihua Tan, Jasmine Young, Sutapa Ghosh, Jesse Woo, Kenneth Dalenberg, Rachel Kramer Green, Huanwang Yang, Jose M. Duarte, Brian P. Hudson, Li Chen, Vladimir Guranovic, Yu-He Liang, Burley, S. K., Berman, H. M., Bhikadiya, C., Bi, C., Chen, L., DI COSTANZO, Luigi, Christie, C., Dalenberg, K., Duarte, J. M., Dutta, S., Feng, Z., Ghosh, S., Goodsell, D. S., Green, R. K., Guranovic, V., Guzenko, D., Hudson, B. P., Kalro, T., Liang, Y., Lowe, R., Namkoong, H., Peisach, E., Periskova, I., Prlic, A., Randle, C., Rose, A., Rose, P., Sala, R., Sekharan, M., Shao, C., Tan, L., Tao, Y. -P., Valasatava, Y., Voigt, M., Westbrook, J., Woo, J., Yang, H., Young, J., Zhuravleva, M., and Zardecki, C.

Subjects

3d electron microscopy, Biomedical Research, Protein Conformation, Protein Data Bank (RCSB PDB), Biology, 03 medical and health sciences, Structural bioinformatics, 0302 clinical medicine, Genetics, Database Issue, Databases, Protein, Data Curation, Biomedicine, 030304 developmental biology, 0303 health sciences, Data curation, business.industry, Macromolecular crystallography, computer.file_format, Collaboratory, Protein Data Bank, Biotechnology, business, computer, Software, 030217 neurology & neurosurgery

Abstract

The Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB, rcsb.org), the US data center for the global PDB archive, serves thousands of Data Depositors in the Americas and Oceania and makes 3D macromolecular structure data available at no charge and without usage restrictions to more than 1 million rcsb.org Users worldwide and 600 000 pdb101.rcsb.org education-focused Users around the globe. PDB Data Depositors include structural biologists using macromolecular crystallography, nuclear magnetic resonance spectroscopy and 3D electron microscopy. PDB Data Consumers include researchers, educators and students studying Fundamental Biology, Biomedicine, Biotechnology and Energy. Recent reorganization of RCSB PDB activities into four integrated, interdependent services is described in detail, together with tools and resources added over the past 2 years to RCSB PDB web portals in support of a ‘Structural View of Biology.’

Published

2018

35. The next generation RCSB.org

Author

Sebastian Bittrich, Chunxiao Bi, Justin W Flatt, Yana Rose, Li Chen, Robert Lowe, Charmi Bhikadiya, Alexander S. Rose, Jasmine Young, Shuchismita Dutta, John D. Westbrook, Jose M. Duarte, and Joan Segura

Subjects

Inorganic Chemistry, Structural Biology, Computer science, Protein Data Bank (RCSB PDB), General Materials Science, Computational biology, Physical and Theoretical Chemistry, Condensed Matter Physics, Biochemistry

Published

2021

36. P159 Participant Characteristics in a Community-Based Diabetes Education Program for South Asians

Author

Shuchismita Dutta, Nurgul Fitzgerald, and Shailja Mathur

Subjects

Gerontology, Nutrition and Dietetics, Waist, South asia, business.industry, Medicine (miscellaneous), food.cuisine, Type 2 diabetes, Overweight, medicine.disease, Distress, food, Scale (social sciences), Diabetes mellitus, medicine, Asian food, medicine.symptom, business

Abstract

Background Type 2 diabetes is highly prevalent among South Asians/Asian Indians (AI) in the US, but standard Diabetes Self-Management Programs (DSMP) do not address AI's cultural characteristics. There is a gap of knowledge about AI's nutrition- and healthcare-related behaviors that are likely to influence diabetes outcomes. Objective To describe nutrition and diabetes care-related characteristics of AI who participate in DSMP. Study Design, Setting, Participants Cross-sectional baseline data were collected through group-administered surveys among 40 AI adults prior to participating in community-based DSMP in New Jersey in 2019. Anthropometric data were measured by trained research staff. Measurable Outcome/Analysis DHQ III semi-quantitative food frequency questionnaire and Healthy Eating Index 2015 (HEI) were used to measure dietary quality; Asian food preference at home was also collected. Diabetes care behaviors included measures such as 10-item diabetes self-efficacy scale, 4-item health distress scale (range: 0-5), 3-item scale for communications with doctors (range: 0-5), and 4-item social role-diabetes interference scale (range: 0-4). Body weight/height (BMI) and waist circumference (WC) were used to characterize weight status. Descriptive results were calculated using IBM SPSS Statistics. Results Most (83%) of the participants’ BMIs were in overweight/obese category (mean: 27.9 ± 4.7); 80% of participants had high risk WC. Mean HEI score (37.9 ± 13.7), intake of fruits (1.1 cups ± 1.6/d), vegetables (1.5 cups ± 1.4/d), and fiber (14.9g ± 13.8/d) were below recommended levels; 80% of participants preferred mostly/exclusively Asian foods at home. Diabetes self-efficacy was moderately high (mean: 7.4 ± 1.9); means for health distress (1.5 ± 1.3) and social role interference (1.7 ± 2.6) scores were moderately low, and communication (with doctors) score was 2.9 ± 1.2. Conclusions These results indicate a need to improve weight status and dietary quality, which are potential risk factors for type 2 diabetes. Future education programming should be tailored to address Asian dietary intake preferences and include strategies to improve health distress, social role interference, and communication with healthcare providers. Results will be used for culturally appropriate curriculum development and implementation for AI.

Published

2020

37. Virtual Exploration of Biomolecular Structure and Function

Author

Daniel R. Dries and Shuchismita Dutta

Subjects

Chemistry, Biomolecular structure, Function (mathematics), Biological system

Published

2019

38. Biochemistry Education: From Theory to Practice

Author

Thomas J. Bussey, Kimberly Linenberger Cortes, Rodney C. Austin, Chloe House, Rhodelle Lewis, Shreya Krishnan, Kimberly Kammerdiener, Morgan Tamayo, Shuchismita Dutta, Daniel R. Dries, Cassidy R. Terrell, Margaret A. Franzen, Timothy Herman, Sunil Malapati, Dina L. Newman, L. Kate Wright, Ellis Bell, Joseph Provost, Jessica K. Bell, Jennifer Loertscher, Vicky Minderhout, Sarah Baas Robinson, Erin Dolan, Kathleen Cornely, Amy E. Medlock, Jin Kyu Lee, Paula P. Lemons, Joseph J. Provost, John E. Bell, Keri Colabroy, Erika G. Offerdahl, Jessie B. Arneson, Heather L. Tienson-Tseng, Tracey Arnold Murray, Mary A. Kopecki-Fjetland, Emily J. Ragan, Rhonda J. Scott, Kyle R. Willian, DeeAnne M. Goodenough-Lashua, Thomas J. Bussey, Kimberly Linenberger Cortes, Rodney C. Austin, Chloe House, Rhodelle Lewis, Shreya Krishnan, Kimberly Kammerdiener, Morgan Tamayo, Shuchismita Dutta, Daniel R. Dries, Cassidy R. Terrell, Margaret A. Franzen, Timothy Herman, Sunil Malapati, Dina L. Newman, L. Kate Wright, Ellis Bell, Joseph Provost, Jessica K. Bell, Jennifer Loertscher, Vicky Minderhout, Sarah Baas Robinson, Erin Dolan, Kathleen Cornely, Amy E. Medlock, Jin Kyu Lee, Paula P. Lemons, Joseph J. Provost, John E. Bell, Keri Colabroy, Erika G. Offerdahl, Jessie B. Arneson, Heather L. Tienson-Tseng, Tracey Arnold Murray, Mary A. Kopecki-Fjetland, Emily J. Ragan, Rhonda J. Scott, Kyle R. Willian, and DeeAnne M. Goodenough-Lashua

Subjects

Medical laboratories, Active learning, Biochemistry--Study and teaching (Higher), Biological models, Teaching

Published

2019

39. RCSB Protein Data Bank: A Resource for Chemical, Biochemical, and Structural Explorations of Large and Small Biomolecules

Author

Stephen K. Burley, Christine Zardecki, Shuchismita Dutta, David S. Goodsell, and Maria Voigt

Subjects

Universities and colleges--Graduate work, 0301 basic medicine, First-year college students, Computer science, information science, Protein Data Bank (RCSB PDB), Multidisciplinary studies, Computational biology, Web-based instruction, Biochemistry, Uniform representation, Education, 03 medical and health sciences, Structural bioinformatics, Resource (project management), Nucleic Acids, natural sciences, X-ray crystallography, Web site, Chemistry--Study and teaching (Secondary), 05 social sciences, Proteins, 050301 education, DNA, General Chemistry, computer.file_format, Collaboratory, Protein Data Bank, 030104 developmental biology, General public, health occupations, RNA, Interdisciplinary approach in education, Experimental methods, Peptides, 0503 education, computer

Abstract

The Research Collaboratory for Structural Bioinformatics (RCSB) Protein Data Bank (PDB) supports scientific research and education worldwide by providing access to annotated information about three-dimensional (3D) structures of macromolecules (e.g., nucleic acids, proteins), and associated small molecules (e.g., drugs, cofactors, inhibitors) in the PDB archive. Researchers, educators, and students use RCSB PDB resources to study the shape and interactions of biological molecules and their implications in molecular biology, medicine, biotechnology, and beyond. RCSB PDB supports development of standards for data deposition, representation, annotation, and validation of atomic structural data obtained from various experimental methods. Uniform representation of PDB data is essential for providing consistent search and analysis capabilities for all PDB users, from beginning students to domain experts. The RCSB PDB Web site provides tools for searching, visualizing, and analyzing PDB data, including easy exploration of chemical interactions that stabilize macromolecules and play important roles in their interactions and functions. In addition, educational resources are available for free and unrestricted use in the classroom for exploring chemistry and biology at the molecular level.

Published

2016

40. Molecular storytelling for structural biology outreach and education

Author

Maria Voigt, Stephen K. Burley, David S. Goodsell, Christine Zardecki, and Shuchismita Dutta

Subjects

Inorganic Chemistry, Outreach, Structural biology, Structural Biology, Pedagogy, General Materials Science, Sociology, Physical and Theoretical Chemistry, Condensed Matter Physics, Biochemistry, Storytelling

Published

2020

41. Insulin Degludec

Author

Shuchismita Dutta and Shriya Patel

Subjects

General Medicine

Published

2018

42. Insulin Receptor

Author

Shuchismita Dutta

Subjects

General Medicine

Published

2018

43. Insulin Lispro

Author

Shuchismita Dutta and Shriya Patel

Subjects

General Medicine

Published

2018

44. Insulin

Author

Shuchismita Dutta and Shriya Patel

Subjects

General Medicine

Published

2018

45. Insulin Aspart

Author

Shuchismita Dutta and Shriya Patel

Subjects

General Medicine

Published

2018

46. Amino acid modifications for conformationally constraining naturally occurring and engineered peptide backbones: Insights from the Protein Data Bank

Author

Luigi Di Costanzo, Shuchismita Dutta, Stephen K. Burley, DI COSTANZO, Luigi, Dutta, S., and Burley, S. K.

Subjects

0301 basic medicine, Protein Conformation, Biophysics, Protein Data Bank (RCSB PDB), Peptide, Computational biology, 010402 general chemistry, Protein Engineering, 01 natural sciences, Biochemistry, Biomaterials, 03 medical and health sciences, structural data archive, Protein structure, peptide conformation, backbone modified amino acid, Amino Acids, Databases, Protein, chemistry.chemical_classification, Chemistry, Biomolecule, Organic Chemistry, General Medicine, computer.file_format, Protein Data Bank, 0104 chemical sciences, Peptide Conformation, Amino acid, Amino Acid, 030104 developmental biology, molecular tool, Protein folding, Peptides, computer

Abstract

Extensive efforts invested in understanding the rules of protein folding are now being applied, with good effect, in de novo design of proteins/peptides. For proteins containing standard α-amino acids alone, knowledge derived from experimentally determined three-dimensional (3D) structures of proteins and biologically active peptides are available from the Protein Data Bank (PDB), and the Cambridge Structural Database (CSD). These help predict and design protein structures, with reasonable confidence. However, our knowledge of 3D structures of biomolecules containing backbone modified amino acids is still evolving. A major challenge in de novo protein/peptide design concerns the engineering of conformationally constrained molecules with specific structural elements and chemical groups appropriately positioned for biological activity. This review explores four classes of amino acid modifications that constrain protein/peptide backbone structure. Systematic analysis of peptidic molecule structures (eg, bioactive peptides, inhibitors, antibiotics, and designed molecules), containing these backbone-modified amino acids, found in the PDB and CSD are discussed. The review aims to provide structure-function insights that will guide future design of proteins/peptides.

Published

2018

47. Learning Biology Through Molecular Storytelling

Author

Shuchismita Dutta

Published

2018

48. Non-Pharmacological

Author

Shuchismita Dutta and Jennifer Jiang

Subjects

General Medicine

Published

2017

49. Types of Diabetes

Author

Shuchismita Dutta and Jennifer Jiang

Subjects

medicine.medical_specialty, business.industry, Diabetes mellitus, Internal medicine, Medicine, General Medicine, business, medicine.disease

Published

2017

50. Pharmacological

Author

Shuchismita Dutta and Jennifer Jiang

Subjects

General Medicine

Published

2017