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September 6-7, 2023
Padua, Italy
https://cibb2023.dei.unipd.it/call-for-special.html
Distributed computing systems have become pivotal in the analysis of bioinformatics data, especially for the investigation of complex biological problems that require intense computational workloads. The usage of distributed computing systems like Apache Spark, in fact, might allow scientific discoveries on bioinformatics data that otherwise would be impossible if the analyses were performed on personal computers.
Our special session on "Distributed computing in bioinformatics and computational biology" aims at calling for researchers able to show the potential and the advance of distributed computing resources to make accurate computational analyses in biological datasets.
With this special session, we would like to gather scientific contributions aimed at optimizing the usage of distributed computing systems and resources in any bioinformatics, genomics, and proteomics context. The results presented in these studies would be useful and helpful both for the distributed computing experts and for inexperienced users approaching this subject for the first time.
Topics of interest include:
- Distributed computing systems in genomics and proteomics
- Bioinformatics projects enhanced by distributed computing platforms
- Optimization of distributed computing systems
- Application of machine learning methods to bioinformatics datasets enhanced through distributed computing
- Protocols for efficient usage of distributed computing systems
Special session organizers:
Davide Chicco , University of Toronto, Canada
Umberto Ferraro Petrillo , Sapienza Università di Roma, Italy
Giuseppe Cattaneo , Università di Salerno, Italy
Raffaele Giancarlo , Università di Palermo, Italy
Lorenzo Di Rocco , Sapienza Università di Roma, Italy
Giorgio Grani , Sapienza Università di Roma, Italy
IMPORTANT DATES
Short paper submission: April 30, 2023
Acceptance/rejection notification: June 9, 2023
Camera-ready short paper submission: June 23, 2023
Conference: September 6-8, 2023
PROCEEDINGS
The proceedings will not be indexed on Scopus, but, after the conference, the authors of all the accepted short papers presented at the conference will be invited to submit an extended version of their manuscripts to the conference proceedings book in Springer Lecture Notes in Bioinformatics (LNBI), or to a supplement in a journal such as BMC Bioinformatics or BMC Medical Informatics and Decision Making.
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July 16-19, 2023
Tampa, FL, USA
https://icibm2023.iaibm.org
Dear colleagues,
We are pleased to announce the 11th International Conference on Intelligent Biology and Medicine (ICIBM 2023), which will take place in Tampa, FL, USA. ICIBM is a high-caliber conference that brings together eminent scholars with expertise in various fields of computational biology, systems biology, computational medicine, and experimentalists interested in the application of computational methods in biomedical studies. The purpose of the ICIBM is to provide a congenial atmosphere highly conducive to extensive discussion and networking. You are invited to submit papers and abstracts with unpublished, original work describing recent advances in all aspects of Bioinformatics, Intelligent Computing, Systems Biology, and Medical Informatics, including but not restricted to the following topics:
Bioinformatics:
- Genomics and genetics/epigenetics, including integrative & functional genomics, genome evolution, GWAS.
- Next-generation sequencing data analysis, 3D genome.
- Big data science including storage, analysis, modeling, visualization, and cloud.
- Precision medicine, translational bioinformatics, and medical informatics.
- Drug discovery, design, and re-purposing.
- Proteomics, and protein structure prediction, function and interactions.
- Single-cell sequencing data analysis.
- Microbiome and Metagenomics.
Intelligent Computing and Data Science:
- Artificial intelligence, machine learning, deep learning, data mining, knowledge discovery.
- Natural language processing, literature mining, semantic ontology, and health informatics.
- Neural computing, kernel methods, feature selection/extraction.
- Evolutionary computing, swarm intelligence / optimization, ensemble methods.
- Artificial life and artificial immune system.
- Biomedical image analysis and processing.
Systems Biology:
- Modeling and simulation of biological processes, pathways, networks, and interactomes.
- Modeling of cellular and multi-cellular interaction systems.
- Multi-dimensional omics data integration.
- Synthetic biological systems.
- Metabolomics, microbiome, and lipidomics.
- Self-organization in living systems (cells, organisms, swarms, ecosystems, etc.).
Medical Informatics:
- Cohort discovery, EHR-based phenotyping, Predictive Modeling.
- Data quality assessment or validation.
- Clinical decision support solutions.
- Informatics to address disparities in health and health care.
- Interoperability (e.g., ontology, terminology, standards, and others).
- Machine learning for clinical applications, genome and phenome analysis/associations.
- Mobile health and wearable devices.
- Human-computer interaction and human factors.
PAPER SUBMISSION AND PUBLICATION
Prospective authors are invited to submit unpublished work to ICIBM 2023. All papers and abstracts will be initially submitted through the EasyChair conference system (link on the website). Selected papers of the registered authors will be recommended to be published in special issues in the following journals, subject to additional editorial approval and expected additional review by each journal: Cancers (IF: 6.24), Genes (IF: 4.37), Chemistry & Biodiversity (IF: 2.74, no publication fee), Quantitative Biology (no publication fee), and Informatics (IF coming soon).
ABSTRACT SUBMISSION
Conference participants are invited to submit abstracts to ICIBM 2023. The abstract submitted to the conference should be formatted using the abstract template provided on the conference website. The abstract body should be no more than 400 words. We welcome submissions of highlight papers that have been recently published or accepted for publication. In this case, the abstract should include a complete reference to the published paper. A group of experts will evaluate the submissions and select the abstracts to be presented orally or as a poster. Please submit your abstract through the EasyChair Conference System (link on the website).
TRAVEL AWARDS
The goal of the ICIBM 2023 Travel Award is to encourage the participation of young scientists in training, including graduate, undergraduate, and high school students, as well as postdoctoral fellows. Specific consideration will be given to qualified applicants from underrepresented populations, minority institutes, female trainees, or those who need special financial support to attend ICIBM 2023.
IMPORTANT DATES
Deadline for original paper submission: March 01 (Wednesday), 2023
Notification to authors of papers: May 12 (Friday), 2023
Deadline for abstract submission: May 30, 2023
Conference early registration opens: June 1, 2023
Conference early registration deadline: June 20 (Tuesday), 2023
Deadline for travel award application: June 16 (Friday), 2023
Conference regular registration: June 21 – July 16, 2023
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EXCERPT
A new artificial intelligence (AI) system called AlphaCode is bringing humanity one step closer to that vision, according to a new study. Researchers say the system – from the research lab DeepMind, a subsidiary of Alphabet (Google's parent company) – might one day assist experienced coders, but probably cannot replace them.
"It's very impressive, the performance they're able to achieve on some pretty challenging problems," says Armando Solar-Lezama, head of the computer assisted programming group at the Massachusetts Institute of Technology.
Source: https://www.science.org/content/article/ai-learns-write-computer-code-stunning-advance
DeepMind: https://www.deepmind.com
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It is with much sadness that we inform you all that Simon Gladman passed away last week. A Galaxy community leader, he was an architect of the Galaxy app and Australia Biocommons.
More information: https://www.biocommons.org.au/news/simon-gladman
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Johns Hopkins computational biologist and 2013 Franklin Award laureate Steven Salzberg says controversial Boston University study that created a potentially deadly form of the omicron coronavirus variant should never have happened.
EXCERPT
The BU study took part of one virus, omicron, and part of another virus – what they were calling the Washington State virus, but think of it as the original strain that came to the U.S. from Wuhan, China, in early 2020. They took a very small part of the genome of omicron virus – the spike protein, which lets the virus break into the host cells – and combined it with the rest of the genome from the Washington State virus, which they called the backbone. And they said, "Let's see what happens!" And that's where people like me say, "What the heck are you thinking?"
Full story: https://hub.jhu.edu/2022/11/01/steven-salzberg-advises-ending-gain-of-function-research/
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June 22-24, 2023
L'Aquila, Italy
https://2023.cbms-conference.org
CALL FOR PAPERS
Attracting a worldwide audience, CBMS is the premier conference for computer-based medical systems, and one of the main conferences within the fields of medical informatics and biomedical informatics. CBMS allows the exchange of ideas and technologies between academic and industrial scientists. The scientific program of IEEE CBMS 2023 will consist of regular and special track sessions with technical contributions reviewed and selected by an international program committee as well as keynote talks, and tutorials given by leading experts in their fields. The IEEE CBMS 2023 edition also aims to host high-quality papers about industry and real case applications as well as allow to researchers leading international projects to show to the scientific community the main aims, goals, and results of their projects.
We solicit submissions on previously unpublished research work. Example areas include but are not limited to:
- Biomedical Signal and Image Processing
- Clinical and Healthcare Services Research
- Data Analysis and Visualization
- Data Mining and Machine Learning
- Decision Support and Recommendation Systems
- Healthcare Communication Networks
- Healthcare Data and Knowledge Management
- Human-Computer Interaction (HCI) in Healthcare
- Information Technologies in Healthcare
- Digital Biomarkers
- Intelligent Medical Devices and Smart Technologies
- Radiomics and Radiogenomics
- Semantics and Knowledge Representation
- Serious Gaming in Healthcare
- Systems Integration and Security
- Technology-enabled Education
- Telemedicine Systems
- Translational Bioinformatics
- Sensor solutions for Connected Health
- mHealth Solutions and Insights
- Learning from Medical Devices
- Cyberphysical Systems in Medicine
ORGANIZERS
Prof. Giuseppe Placidi, PhD, Università dell'Aquila (Italy)
Rosa Sicilia, PhD, Università Campus Bio-Medico di Roma (Italy)
Prof. Alejandro Rodríguez González, PhD, Universidad Politécnica de Madrid (Spain)
PAPER SUBMISSION AND PUBLICATION
- Submitted papers have to be original, containing new and original results.
- Submission implies the willingness of at least one of the authors to register and present the paper at the CBMS 2023 Symposium.
- All papers will be peer reviewed by at least two independent referees.
- Prospective authors are invited to submit papers in any of the topics listed above.
- Instructions for preparing the manuscript (in Word and Latex formats) are available at: https://2023.cbms-conference.org/general-instructions/
- Please also check the Guidelines.
- Papers must be submitted electronically via the web-based submission system.
IMPORTANT DATES
Deadline for special track proposal: November 10, 2022
Special track notification acceptance: November 20, 2022
Paper submission deadline: February 15, 2023
Notification of acceptance: March 30, 2023
Camera-ready due: April 18, 2023
CONTACTS
cbms2023[at]cbms-conference.org
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October 27, 2022
Le Meridien Boston Cambridge
Cambridge, Massachusetts, USA
https://BiotechVendorFest.com
Join us for VendorFest Cambridge, a highly targeted trade show that will feature leading vendors serving the biopharma industry. This year's event will be taking place October 27 from 12-4pm at the Le Meridien Boston Cambridge.
Why Attend VendorFest Cambridge?
- Discover the latest products & services from life science suppliers
- Local area event - close to Kendall and Central Square
- VendorFest is 4 hours long, come when it is convenient for you during the day (12pm-4pm)
- Network with industry peers, after 2 years of no face-to-face events
- Enjoy a Oktoberfest themed event with food and German beer and wine tastings
- Participate in hourly exhibit hall raffles
- Have a new social media headshot taken by a professional photographer
- Attend VendorFest Cambridge at no cost!
Just some of the exhibitors include:
Abcam, Akadeum Life Sciences, Inc., Asymchem, Berkshire Sterile Manufacturing, Biocytogen, BioDuro-Sundia, Biomedical Search Consultants, Bio-Techne, Boston University Questrom School of Business, Cell Microsystems, Clinlab Staffing, Conductive Technologies, eLabNext, Erbi Biosystems Inc., Hamilton Storage, JoVE, KCAS Bioanalytical & Biomarker Services, Kibur Medical, LevitasBio, MERIT CRO, Medchemexpress LLC, Mettler Toledo Rainin, NFP, PerkinElmer, Reaction Biology, RedShiftBio, Sanguine Bio, Sartorius, Scientist.com, Siemens Healthineers, STAT, Suffolk University, Unchained Labs, WuXi Biologics, Zaether, Ziath and more.
For more information and to register for your FREE pass to VendorFest Cambridge, visit: https://BiotechVendorFest.com.
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The Nobel Assembly at Karolinska Institutet decided yesterday to award the 2022 Nobel Prize in Physiology or Medicine to Svante Pääbo for his discoveries concerning the genomes of extinct hominins and human evolution.
EXCERPT
Humanity has always been intrigued by its origins. Where do we come from, and how are we related to those who came before us? What makes us, Homo sapiens, different from other hominins?
Through his pioneering research, Svante Pääbo accomplished something seemingly impossible: sequencing the genome of the Neanderthal, an extinct relative of present-day humans. He also made the sensational discovery of a previously unknown hominin, Denisova. Importantly, Pääbo also found that gene transfer had occurred from these now extinct hominins to Homo sapiens following the migration out of Africa around 70,000 years ago. This ancient flow of genes to present-day humans has physiological relevance today, for example affecting how our immune system reacts to infections.
Pääbo's seminal research gave rise to an entirely new scientific discipline; paleogenomics. By revealing genetic differences that distinguish all living humans from extinct hominins, his discoveries provide the basis for exploring what makes us uniquely human.
Press release: https://www.nobelprize.org/prizes/medicine/2022/press-release/
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Would you like to see an interactive virus capsid model quickly and easily? Slab it or cut it in half? A clathrin coat? A bacterial gas vesicle? The mysterious "vault" eukaryotic nanocompartment?
https://proteopedia.org/w/FirstGlance/Virus_Capsids_and_Other_Large_Assemblies
The views at the above link were obtained with Version 4.0 of FirstGlance in Jmol released August 15, 2022 (free and open source; google "firstglance" as one word, or http://firstglance.jmol.org). Newly, it automatically constructs "biological assemblies" and shows "biomolecule 1" in its initial view. Exploring the asymmetric unit is then an option.
Very large assemblies+++ are automatically simplified to alpha carbons, or a subset of alpha carbons; see examples at the above link. What are such simplified models good for? They can be measured, colored by secondary structure, hydrophobic/polar, charge, amino-to-carboxy rainbow, or evolutionary conservation (if pre-processed by the ConSurf Server). Each group of sequence-identical chains can be assigned a distinct color (under Solid in the Views tab).
You can make an animation, ready to drop into a presentation slide, from any view in FirstGlance. It takes just a few mouse clicks. Examples in Google Slides:
http://tinyurl.com/movingmolecules
A small assembly, 2acz, has 4 chains in its asymmetric unit, and 12 chains in its biomolecule 1. You will be offered the option to simplify, so you can try it both ways. Even simplified to alpha carbons, the transmembrane helices stand out with the hydrophobic/polar and charge views. Its construction can be understood by giving a distinct color to each of the 4 sequence-distinct protein chains (Solid in the Views tab).
http://firstglance.jmol.org/fg.htm?mol=2acz
Structural biologists: With FirstGlance, you can't miss (after clicking "Show more details") incomplete sidechains, missing residues, alternate locations (can be animated), occupancy < 1.0 (all exemplified in 1ijw). All salt bridges can be displayed with one click (Tools tab), and a spreadsheet-ready list is reported with one more click. A "Contacts & Non-Covalent Interactions" tool makes it easy to visualize the interactions with any moiety you specify. Protein crosslinks are automatically detected and highlighted/zoomed with a few clicks: isopeptides, thioesters, thioethers, his-tyr, lys-cys NOS as well as, of course, disulfides. Step by step:
https://proteopedia.org/w/FirstGlance/Evaluating_Protein_Crosslinks
Electron density maps (or EM density maps) can be displayed for anything selected with the Find.. dialog, as well as crosslinks and ends of chains. See examples from FirstGlance here:
https://proteopedia.org/w/Electron_density_maps
New color schemes for simplified models:
http://firstglance.jmol.org/notes.htm#bucolors
New color schemes for simplified models:
http://firstglance.jmol.org/notes.htm#bucolors
To clear the old version of FirstGlance out of your browser's cache, go to
http://firstglance.jmol.org/fg.htm?mol=1ijw
Then regardless of whether the molecule displays, hold down the Shift key while you Reload.
+++"Very large assemblies" means >25,000 non-hydrogen atoms. Only about 3% of entries in the World-Wide Protein Data Bank have biological assemblies that large. However, these include very important structures, such as virus capsids. Simplification rules:
http://firstglance.jmol.org/notes.htm#simplification
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| Acknowledgments |
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We wish to thank the following for their support:
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