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2. Ten simple rules for collaboratively writing a multi-authored paper.
- Author
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Frassl, Marieke A., Hamilton, David P., Denfeld, Blaize A., de Eyto, Elvira, Hampton, Stephanie E., Keller, Philipp S., Sharma, Sapna, Lewis, Abigail S. L., Weyhenmeyer, Gesa A., O’Reilly, Catherine M., Lofton, Mary E., and Catalán, Núria
- Subjects
AUTHORSHIP collaboration ,COLLABORATIVE learning ,ACKNOWLEDGEMENTS (Academic dissertations) ,INFORMATION resources management ,GROUP work in research - Abstract
An editorial is presented which discusses the collaborative writing with multiple authors which has additional challenges including varied levels of engagement of coauthors, provision of fair credit through authorship or acknowledgements and acceptance of diversity of work styles. Also discussed are the 10 simple rules for collaboratively writing a multi-authored paper which include to build a writing team wisely; to create a data management plan and to jointly decide on authorship guidelines.
- Published
- 2018
- Full Text
- View/download PDF
3. Women are underrepresented in computational biology: An analysis of the scholarly literature in biology, computer science and computational biology.
- Author
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Bonham, Kevin S. and Stefan, Melanie I.
- Subjects
STEM education ,COMPUTATIONAL biology ,BIBLIOMETRICS ,SCIENCE publishing ,SCIENCE & state - Abstract
While women are generally underrepresented in STEM fields, there are noticeable differences between fields. For instance, the gender ratio in biology is more balanced than in computer science. We were interested in how this difference is reflected in the interdisciplinary field of computational/quantitative biology. To this end, we examined the proportion of female authors in publications from the PubMed and arXiv databases. There are fewer female authors on research papers in computational biology, as compared to biology in general. This is true across authorship position, year, and journal impact factor. A comparison with arXiv shows that quantitative biology papers have a higher ratio of female authors than computer science papers, placing computational biology in between its two parent fields in terms of gender representation. Both in biology and in computational biology, a female last author increases the probability of other authors on the paper being female, pointing to a potential role of female PIs in influencing the gender balance. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
4. Ten simple rules for developing good reading habits during graduate school and beyond.
- Author
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Méndez, Marcos
- Subjects
READING ,HABIT formation ,COMPREHENSION ,HISTORY ,PERIODICALS ,BIBLIOGRAPHICAL citations - Abstract
The author talks about several rules that a person can follow to develop good reading habits in graduate school and beyond. Topics discussed include the importance of developing the habit of reading on a daily basis; the need to develop comprehension skills; and the need to study the history of one's discipline. Also mentioned are the importance of creating a list of relevant journals, the need to read books, and the benefits of using a reference manager.
- Published
- 2018
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5. Even a good influenza forecasting model can benefit from internet-based nowcasts, but those benefits are limited.
- Author
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Osthus, Dave, Daughton, Ashlynn R., and Priedhorsky, Reid
- Subjects
INFLUENZA ,RESPIRATORY infections ,PUBLIC health ,MATHEMATICAL models of forecasting - Abstract
The ability to produce timely and accurate flu forecasts in the United States can significantly impact public health. Augmenting forecasts with internet data has shown promise for improving forecast accuracy and timeliness in controlled settings, but results in practice are less convincing, as models augmented with internet data have not consistently outperformed models without internet data. In this paper, we perform a controlled experiment, taking into account data backfill, to improve clarity on the benefits and limitations of augmenting an already good flu forecasting model with internet-based nowcasts. Our results show that a good flu forecasting model can benefit from the augmentation of internet-based nowcasts in practice for all considered public health-relevant forecasting targets. The degree of forecast improvement due to nowcasting, however, is uneven across forecasting targets, with short-term forecasting targets seeing the largest improvements and seasonal targets such as the peak timing and intensity seeing relatively marginal improvements. The uneven forecasting improvements across targets hold even when “perfect” nowcasts are used. These findings suggest that further improvements to flu forecasting, particularly seasonal targets, will need to derive from other, non-nowcasting approaches. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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- View/download PDF
6. Ten Simple Rules for a Bioinformatics Journal Club.
- Author
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Lonsdale, Andrew, Sietsma Penington, Jocelyn, Rice, Timothy, Walker, Michael, and Dashnow, Harriet
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BIOINFORMATICS ,INFORMATION science ,COMPUTATIONAL biology ,CLUBS ,SCIENTIFIC literature ,SOCIETIES - Abstract
The article outlines the rules for a bioinformatics journal club which, according to the authors, is a great way to take in the scientific literature, keep up with developments in their field, and hone their communication and analytical skills. The rules include holding a journal club at eight in the morning, finding good articles for discussion, and expanding the roster of leaders as people join the journal club.
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- 2016
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7. Ten simple rules to create biological network figures for communication.
- Author
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Marai, G. Elisabeta, Pinaud, Bruno, Bühler, Katja, Lex, Alexander, and Morris, John H.
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TELECOMMUNICATION systems ,BIOLOGICAL networks ,MEDICAL literature ,PHYSICAL sciences ,REFERENCE sources ,BIOLOGY - Abstract
Biological network figures are ubiquitous in the biology and medical literature. On the one hand, a good network figure can quickly provide information about the nature and degree of interactions between items and enable inferences about the reason for those interactions. On the other hand, good network figures are difficult to create. In this paper, we outline 10 simple rules for creating biological network figures for communication, from choosing layouts, to applying color or other channels to show attributes, to the use of layering and separation. These rules are accompanied by illustrative examples. We also provide a concise set of references and additional resources for each rule. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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8. The life history of learning: Demographic structure changes cultural outcomes.
- Author
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Fogarty, Laurel, Creanza, Nicole, and Feldman, Marcus W.
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LEARNING ,CULTURAL pluralism ,POPULATION ,DEMOGRAPHIC characteristics ,SOCIAL evolution - Abstract
Human populations show rich cultural diversity. Underpinning this diversity of tools, rituals, and cultural norms are complex interactions between cultural evolutionary and demographic processes. Most models of cultural change assume that individuals use the same learning modes and methods throughout their lives. However, empirical data on ‘learning life histories’—the balance of dominant modes of learning (for example, learning from parents, peers, or unrelated elders) throughout an individual’s lifetime—suggest that age structure may play a crucial role in determining learning modes and cultural evolutionary trajectories. Thus, studied in isolation, demographic and cultural evolutionary models show only part of the picture. This paper describes a mathematical and computational framework that combines demographic and cultural evolutionary methods. Using this general framework, we examine interactions between the ways in which culture is spread throughout an individual’s lifetime and cultural change across generations. We show that including demographic structure alongside cultural dynamics can help to explain domain-specific patterns of cultural evolution that are a persistent feature of cultural data, and can shed new light on rare but significant demographic events. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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9. Ten simple rules for measuring the impact of workshops.
- Author
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Sufi, Shoaib, Nenadic, Aleksandra, Silva, Raniere, Balzano, Melissa, Coelho, Sara, Ford, Heather, Jones, Catherine, Higgins, Vanessa, Duckles, Beth, Simera, Iveta, de Beyer, Jennifer A., Struthers, Caroline, Nurmikko-Fuller, Terhi, Bellis, Louisa, Miah, Wadud, Wilde, Adriana, Emsley, Iain, and Philippe, Olivier
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FORUMS ,RESEARCH ,DECISION making ,STRATEGIC planning ,PARTICIPATION - Abstract
Workshops are used to explore a specific topic, to transfer knowledge, to solve identified problems, or to create something new. In funded research projects and other research endeavours, workshops are the mechanism used to gather the wider project, community, or interested people together around a particular topic. However, natural questions arise: how do we measure the impact of these workshops? Do we know whether they are meeting the goals and objectives we set for them? What indicators should we use? In response to these questions, this paper will outline rules that will improve the measurement of the impact of workshops. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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10. Computational Thinking in Life Science Education.
- Author
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Rubinstein, Amir and Chor, Benny
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LIFE science education ,COMPUTATIONAL biology ,COLLABORATIVE learning ,CURRICULUM planning ,SCIENCE students ,SOCIAL sciences - Abstract
We join the increasing call to take computational education of life science students a step further, beyond teaching mere programming and employing existing software tools. We describe a new course, focusing on enriching the curriculum of life science students with abstract, algorithmic, and logical thinking, and exposing them to the computational “culture.” The design, structure, and content of our course are influenced by recent efforts in this area, collaborations with life scientists, and our own instructional experience. Specifically, we suggest that an effective course of this nature should: (1) devote time to explicitly reflect upon computational thinking processes, resisting the temptation to drift to purely practical instruction, (2) focus on discrete notions, rather than on continuous ones, and (3) have basic programming as a prerequisite, so students need not be preoccupied with elementary programming issues. We strongly recommend that the mere use of existing bioinformatics tools and packages should not replace hands-on programming. Yet, we suggest that programming will mostly serve as a means to practice computational thinking processes. This paper deals with the challenges and considerations of such computational education for life science students. It also describes a concrete implementation of the course and encourages its use by others. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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11. Epidemiologically Optimal Static Networks from Temporal Network Data.
- Author
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Holme, Petter
- Subjects
EPIDEMIOLOGY ,INFECTIOUS disease transmission ,PROBABILITY theory ,PUBLIC health ,BIG data ,COMPUTER network resources - Abstract
One of network epidemiology's central assumptions is that the contact structure over which infectious diseases propagate can be represented as a static network. However, contacts are highly dynamic, changing at many time scales. In this paper, we investigate conceptually simple methods to construct static graphs for network epidemiology from temporal contact data. We evaluate these methods on empirical and synthetic model data. For almost all our cases, the network representation that captures most relevant information is a so-called exponential-threshold network. In these, each contact contributes with a weight decreasing exponentially with time, and there is an edge between a pair of vertices if the weight between them exceeds a threshold. Networks of aggregated contacts over an optimally chosen time window perform almost as good as the exponential-threshold networks. On the other hand, networks of accumulated contacts over the entire sampling time, and networks of concurrent partnerships, perform worse. We discuss these observations in the context of the temporal and topological structure of the data sets. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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12. Ten simple rules for writing statistical book reviews.
- Author
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Lortie, Christopher J.
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BOOK reviewing ,COMPUTATIONAL biology ,STATISTICS ,COMPUTER software ,LEARNING - Abstract
Statistical books can provide deep insights into statistics and software. There are, however, many resources available to the practitioner. Book reviews have the capacity to function as a critical mechanism for the learner to assess the merits of engaging in part, in full, or at all with a book. The “ten simple rules” format, pioneered in computational biology, was applied here to writing effective book reviews for statistics because of the wide breadth of offerings in this domain, including topical introductions, computational solutions, and theory. Learning by doing is a popular paradigm in statistics and computation, but there is still a niche for books in the pedagogy of self-taught and instruction-based learning. Primarily, these rules ensure that book reviews function as a form of short syntheses to inform and guide readers in deciding to use a specific book relative to other options for resolving statistical challenges. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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13. Ten simple rules for drawing scientific comics.
- Author
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McDermott, Jason E., Partridge, Matthew, and Bromberg, Yana
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COMIC books, strips, etc. ,SCIENTIFIC terminology ,SCIENTIFIC communication ,SCIENCE journalism ,SCIENTIFIC community - Abstract
The article presents guidelines for drawing scientific comics for efficient communication of difficult ideas. Suggestions mentioned include finding the right shapes for use in conveying the appropriate message one is trying to make, making one's comics simple to convey a complicated idea easier to understand, and taking time to ensure that the details in one's comics are right.
- Published
- 2018
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14. Ten simple rules for successfully completing a graduate degree in Latin America.
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Ruelas Inzunza, Ernesto, Salazar-Rivera, Gabriela I., Láinez, Magdiel, Ruiz-Gómez, María Guadalupe, Domínguez-Eusebio, Carlo A., Cristóbal-Sánchez, Griselda, Teodosio Faustino, Issaac A., Pérez-López, Edel, Campbell, Meagan L., Merfa, Marcus Vinicius, Latorre Beltrán, Ivonne Tatiana, Armas, Fernanda, and Mota-Vargas, Claudio
- Subjects
GRADUATE education ,LIFE science education ,LIFE sciences ,SCHOLARSHIPS ,EDUCATION - Abstract
This article offers tips for students to complete a graduate degree in biological sciences in Latin America. Topics discussed include the features that underlie the performance of graduate programs around the world, the importance of investigating the graduate program and the adviser, scholarship programs for graduate students, and the need to follow administrative procedures from admission to graduation.
- Published
- 2017
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15. Ten Simple Rules for Finishing Your PhD.
- Author
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Marino, Jacopo, Stefan, Melanie I., and Blackford, Sarah
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DOCTOR of philosophy degree ,ACADEMIC dissertations ,DOCTORAL degree ,ACADEMIC disputations ,DOCTORAL students - Abstract
The author discusses ten rules that help finish the Doctor of Philosophy (PhD) degree and highlights importance of managing relationships with colleagues and supervisors. It suggests preparing plan of action for last year of PhD in advance, selecting activities that will be included in the plan of action, and finalizing experiments and writing the thesis.
- Published
- 2014
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16. Ten simple rules for providing optimal administrative support to research teams.
- Author
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Garrido, Romina, Trowbridge, Casandra A., and Tamura, Nana
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RESEARCH teams ,ADMINISTRATIVE assistants ,SOCIAL learning ,PROFESSIONAL relationships ,SCIENTIFIC community ,CULTURAL pluralism ,HEBBIAN memory ,BUSINESS communication - Abstract
You can help your principal investigator on the oversight of grant rules and procedures, keeping protocols up to date, writing reports, and fulfilling requests from the Institutional Review Board (IRB). Regardless, what is important is for the administrator to be curious about science and make the effort to get a basic familiarity with the scientific discipline and academic working environment they are supporting. Although human resources, principal investigators, and lab managers are a large part of the onboarding process for a new employee, administrative staff are typically involved in the process as well. [Extracted from the article]
- Published
- 2019
- Full Text
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17. Estimating influenza incidence using search query deceptiveness and generalized ridge regression.
- Author
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Priedhorsky, Reid, Daughton, Ashlynn R., Barnard, Martha, O’Connell, Fiona, and Osthus, Dave
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DISEASE incidence ,INFLUENZA ,SEASONAL influenza ,REGRESSION analysis ,INTERNET usage monitoring ,PHYSICAL sciences - Abstract
Seasonal influenza is a sometimes surprisingly impactful disease, causing thousands of deaths per year along with much additional morbidity. Timely knowledge of the outbreak state is valuable for managing an effective response. The current state of the art is to gather this knowledge using in-person patient contact. While accurate, this is time-consuming and expensive. This has motivated inquiry into new approaches using internet activity traces, based on the theory that lay observations of health status lead to informative features in internet data. These approaches risk being deceived by activity traces having a coincidental, rather than informative, relationship to disease incidence; to our knowledge, this risk has not yet been quantitatively explored. We evaluated both simulated and real activity traces of varying deceptiveness for influenza incidence estimation using linear regression. We found that deceptiveness knowledge does reduce error in such estimates, that it may help automatically-selected features perform as well or better than features that require human curation, and that a semantic distance measure derived from the Wikipedia article category tree serves as a useful proxy for deceptiveness. This suggests that disease incidence estimation models should incorporate not only data about how internet features map to incidence but also additional data to estimate feature deceptiveness. By doing so, we may gain one more step along the path to accurate, reliable disease incidence estimation using internet data. This capability would improve public health by decreasing the cost and increasing the timeliness of such estimates. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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18. Fast and near-optimal monitoring for healthcare acquired infection outbreaks.
- Author
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Adhikari, Bijaya, Lewis, Bryan, Vullikanti, Anil, Jiménez, José Mauricio, and Prakash, B. Aditya
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MEDICAL personnel ,INFECTION ,PREVENTIVE medicine ,HOSPITAL patients - Abstract
According to the Centers for Disease Control and Prevention (CDC), one in twenty five hospital patients are infected with at least one healthcare acquired infection (HAI) on any given day. Early detection of possible HAI outbreaks help practitioners implement countermeasures before the infection spreads extensively. Here, we develop an efficient data and model driven method to detect outbreaks with high accuracy. We leverage mechanistic modeling of C. difficile infection, a major HAI disease, to simulate its spread in a hospital wing and design efficient near-optimal algorithms to select people and locations to monitor using an optimization formulation. Results show that our strategy detects up to 95% of “future” C. difficile outbreaks. We design our method by incorporating specific hospital practices (like swabbing for infections) as well. As a result, our method outperforms state-of-the-art algorithms for outbreak detection. Finally, a qualitative study of our result shows that the people and locations we select to monitor as sensors are intuitive and meaningful. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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19. Ten simple rules for helping newcomers become contributors to open projects.
- Author
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Sholler, Dan, Steinmacher, Igor, Ford, Denae, Averick, Mara, Hoye, Mike, and Wilson, Greg
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SOCIAL learning ,OPEN source software ,SCIENCE education ,HEBBIAN memory ,SOFTWARE engineering ,LIFE sciences ,SCIENCE & state ,HUMAN-computer interaction - Abstract
Open-source software projects are also communities of effort. "...developers who join an organization through these programs are half as likely to transition into long-term community members than developers who do not use these programs... although developers who do succeed through these programs find them valuable". 47 Fagerholm F, Guinea AS, Münch J, Borenstein J. The role of mentoring and project characteristics for onboarding in open source software projects. [Extracted from the article]
- Published
- 2019
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20. Learning the structure of the world: The adaptive nature of state-space and action representations in multi-stage decision-making.
- Author
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Dezfouli, Amir and Balleine, Bernard W.
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SMART structures ,ADAPTIVE natural resource management ,NATURE ,BRAIN mapping ,COGNITIVE psychology ,DECISION making - Abstract
State-space and action representations form the building blocks of decision-making processes in the brain; states map external cues to the current situation of the agent whereas actions provide the set of motor commands from which the agent can choose to achieve specific goals. Although these factors differ across environments, it is currently unknown whether or how accurately state and action representations are acquired by the agent because previous experiments have typically provided this information a priori through instruction or pre-training. Here we studied how state and action representations adapt to reflect the structure of the world when such a priori knowledge is not available. We used a sequential decision-making task in rats in which they were required to pass through multiple states before reaching the goal, and for which the number of states and how they map onto external cues were unknown a priori. We found that, early in training, animals selected actions as if the task was not sequential and outcomes were the immediate consequence of the most proximal action. During the course of training, however, rats recovered the true structure of the environment and made decisions based on the expanded state-space, reflecting the multiple stages of the task. Similarly, we found that the set of actions expanded with training, although the emergence of new action sequences was sensitive to the experimental parameters and specifics of the training procedure. We conclude that the profile of choices shows a gradual shift from simple representations to more complex structures compatible with the structure of the world. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
21. Colony entropy—Allocation of goods in ant colonies.
- Author
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Greenwald, Efrat, Eckmann, Jean-Pierre, and Feinerman, Ofer
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INSECT societies ,ANT colonies ,HYMENOPTERA - Abstract
Allocation of goods is a key feature in defining the connection between the individual and the collective scale in any society. Both the process by which goods are to be distributed, and the resulting allocation to the members of the society may affect the success of the population as a whole. One of the most striking natural examples of a highly successful cooperative society is the ant colony which often acts as a single superorganism. In particular, each individual within the ant colony has a “communal stomach” which is used to store and share food with the other colony members by mouth to mouth feeding. Sharing food between communal stomachs allows the colony as a whole to get its food requirements and, more so, allows each individual within the colony to reach its nutritional intake target. The vast majority of colony members do not forage independently but obtain their food through secondary interactions in which food is exchanged between individuals. The global effect of this exchange is not well understood. To gain better understanding into this process we used fluorescence imaging to measure how food from a single external source is distributed and mixed within a Camponotus sanctus ant colony. Using entropic measures to quantify food-blending, we show that while collected food flows into all parts of the colony it mixes only partly. We show that mixing is controlled by the ants’ interaction rule which implies that only a fraction of the maximal potential is actually transferred. This rule leads to a robust blending process: i.e., neither the exact food volume that is transferred, nor the interaction schedule are essential to generate the global outcome. Finally, we show how the ants’ interaction rules may optimize a trade-off between fast dissemination and efficient mixing. Our results regarding the distribution of a single food source provide a baseline for future studies on distributed regulation of multiple food sources in social insect colonies. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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22. Think: Theory for Africa.
- Author
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Currin, Christopher B., Khoza, Phumlani N., Antrobus, Alexander D., Latham, Peter E., Vogels, Tim P., and Raimondo, Joseph V.
- Subjects
SCIENTIFIC knowledge ,SOCIAL sciences education ,TECHNOLOGY ,COMPUTATIONAL neuroscience ,SCIENCE & state - Abstract
The article offers information on the challenging scientific problems faced by humanity. Topics discussed include information on the efforts to empower Africans to join the global neuroscience community; discussions on the BRAIN initiative in the U.S. and the Human Brain Project in Europe; and the information on the limiting factor for computational neuroscience development in Africa.
- Published
- 2019
- Full Text
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23. Problem-based learning in clinical bioinformatics education: Does it help to create communities of practice?
- Author
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Davies, Angela C., Harris, Diane, Banks-Gatenby, Amanda, and Brass, Andy
- Subjects
PROBLEM-based learning ,FACE-to-face communication ,COMMUNITIES of practice ,CLINICAL education ,COURSEWARE ,SEMI-structured interviews ,VIRTUAL communities - Abstract
We have now reached the genomics era within medicine; genomics is being used to personalise treatment, make diagnoses, prognoses, and predict adverse outcomes resulting from treatment with certain drugs. Genomic data is now abundant in healthcare, and the newly created profession of clinical bioinformaticians are responsible for its analysis. In the United Kingdom, clinical bioinformaticians are trained within a 3-year programme, integrating a work-based placement with a part-time Master’s degree. As this profession is still developing, trainees can feel isolated from their peers whom are located in other hospitals and can find it difficult to gain the mentorship that they require to complete their training. Building strong networks or communities of practice (CoPs) and allowing sharing of knowledge and experiences is one solution to addressing this isolation. Within the Master’s delivered at the University of Manchester, we have integrated group-centred problem-based learning (PBL) using real clinical case studies worked on during each course unit. This approach is combined with a flipped style of teaching providing access to online content in our Virtual Learning Environment before the course. The face-to-face teaching is used to focus on the application of the students’ knowledge to clinical case studies. In this study, we conducted semistructured interviews with 8 students, spanning 3 cohorts of students. We evaluated the effectiveness of this style of teaching and whether it had contributed to the formation of CoPs between our students. Our findings demonstrated that this style of teaching was preferred by our students to a more traditional lecture-based format and that the problem-based learning approach enabled the formation of CoPs within these cohorts. These CoPs are valuable in the development of this new profession and assist with the production of new guidelines and policies that are helping to professionalise this new group of healthcare scientists. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
24. From trainees to trainers to instructors: Sustainably building a national capacity in bioinformatics training.
- Author
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McGrath, Annette, Champ, Katherine, Shang, Catherine A., van Dam, Ellen, Brooksbank, Cath, and Morgan, Sarah L.
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LEAD ,TRAINING planes ,TRAINING of scientists ,MOLECULAR biology ,INDUSTRIAL research ,BIOINFORMATICS - Abstract
Demand for training life scientists in bioinformatics skills led to the development of a train-the-trainer collaboration between the European Molecular Biology Laboratory–European Bioinformatics Institute (EMBL-EBI) and 2 Australian organisations, Bioplatforms Australia and Commonwealth Scientific and Industrial Research Organisation (CSIRO) in 2012. The goal of the collaboration was to establish a group of trained instructors who could develop and deliver short bioinformatics courses nationally. A train-the-trainer course introduces instructors to aspects of andragogy and evidence-based learning principles to help them better design, develop, and deliver high-quality training. Since then, both the number of trainers in the network and the course portfolio have grown. Best practises have been developed and shared between the Australian cohort and EMBL-EBI to address common challenges in bioinformatics training. The Australian trainer cohort undertook a train-the-trainer instructor course, again with EMBL-EBI, and subsequently successfully delivered train-the-trainer courses to interested bioinformatics trainers within Australia. We conclude that a train-the-trainer approach can help build national capacity and maintain a critical mass of trained instructors. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
25. Fostering bioinformatics education through skill development of professors: Big Genomic Data Skills Training for Professors.
- Author
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Zhan, Yingqian Ada, Wray, Charles Gregory, Namburi, Sandeep, Glantz, Spencer T., Laubenbacher, Reinhard, and Chuang, Jeffrey H.
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LIFE science education ,UNIVERSITIES & colleges ,BIG data ,COMPUTATIONAL biology ,ART colleges - Abstract
Bioinformatics has become an indispensable part of life science over the past 2 decades. However, bioinformatics education is not well integrated at the undergraduate level, especially in liberal arts colleges and regional universities in the United States. One significant obstacle pointed out by the Network for Integrating Bioinformatics into Life Sciences Education is the lack of faculty in the bioinformatics area. Most current life science professors did not acquire bioinformatics analysis skills during their own training. Consequently, a great number of undergraduate and graduate students do not get the chance to learn bioinformatics or computational biology skills within a structured curriculum during their education. To address this gap, we developed a module-based, week-long short course to train small college and regional university professors with essential bioinformatics skills. The bioinformatics modules were built to be adapted by the professor-trainees afterward and used in their own classes. All the course materials can be accessed at . [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
26. Establishing a computational biology flipped classroom.
- Author
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Compeau, Phillip
- Subjects
FLIPPED classrooms ,COMPUTATIONAL biology ,STUDENT-centered learning ,EFFECTIVE teaching ,BIOINFORMATICS - Abstract
In a flipped classroom, students complete automated modules to replace a traditional lecture, allowing the time devoted for the lecture to be devoted to constructive tasks reinforcing student knowledge. Yet although the flipped classroom offers a compelling approach for fostering a constructivist, student-centric learning environment, research on the efficacy of flipped classes has been mixed. For that matter, is it possible to successfully flip a classroom in an advanced, heavily specialized course like a bioinformatics algorithms course? Over the past several years, the author has implemented a flipped version of such a course and will discuss some of the successes and pitfalls encountered. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
27. Epidemic prevalence information on social networks can mediate emergent collective outcomes in voluntary vaccine schemes.
- Author
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Sharma, Anupama, Menon, Shakti N., Sasidevan, V., and Sinha, Sitabhra
- Subjects
VACCINATION ,HERD immunity ,DISEASE prevalence ,EPIDEMICS ,SOCIAL networks - Abstract
The effectiveness of a mass vaccination program can engender its own undoing if individuals choose to not get vaccinated believing that they are already protected by herd immunity. This would appear to be the optimal decision for an individual, based on a strategic appraisal of her costs and benefits, even though she would be vulnerable during subsequent outbreaks if the majority of the population argues in this manner. We investigate how voluntary vaccination can nevertheless emerge in a social network of rational agents, who make informed decisions whether to be vaccinated, integrated with a model of epidemic dynamics. The information available to each agent includes the prevalence of the disease in their local network neighborhood and/or globally in the population, as well as the fraction of their neighbors that are protected against the disease. Crucially, the payoffs governing the decision of agents vary with disease prevalence, resulting in the vaccine uptake behavior changing in response to contagion spreading. The collective behavior of the agents responding to local prevalence can lead to a significant reduction in the final epidemic size, particularly for less contagious diseases having low basic reproduction number . Near the epidemic threshold () the use of local prevalence information can result in divergent responses in the final vaccine coverage. Our results suggest that heterogeneity in the risk perception resulting from the spatio-temporal evolution of an epidemic differentially affects agents’ payoffs, which is a critical determinant of the success of voluntary vaccination schemes. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
28. Efficient algorithms to discover alterations with complementary functional association in cancer.
- Author
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Sarto Basso, Rebecca, Hochbaum, Dorit S., and Vandin, Fabio
- Subjects
CANCER genetics ,PERTURBATION theory ,PHENOTYPES ,ALGORITHMS ,COMPUTATIONAL biology - Abstract
Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours. These large datasets allow the identification of cancer-related sets of genetic alterations by identifying relevant combinatorial patterns. Among such patterns, mutual exclusivity has been employed by several recent methods that have shown its effectiveness in characterizing gene sets associated to cancer. Mutual exclusivity arises because of the complementarity, at the functional level, of alterations in genes which are part of a group (e.g., a pathway) performing a given function. The availability of quantitative target profiles, from genetic perturbations or from clinical phenotypes, provides additional information that can be leveraged to improve the identification of cancer related gene sets by discovering groups with complementary functional associations with such targets. In this work we study the problem of finding groups of mutually exclusive alterations associated with a quantitative (functional) target. We propose a combinatorial formulation for the problem, and prove that the associated computational problem is computationally hard. We design two algorithms to solve the problem and implement them in our tool UNCOVER. We provide analytic evidence of the effectiveness of UNCOVER in finding high-quality solutions and show experimentally that UNCOVER finds sets of alterations significantly associated with functional targets in a variety of scenarios. In particular, we show that our algorithms find sets which are better than the ones obtained by the state-of-the-art method, even when sets are evaluated using the statistical score employed by the latter. In addition, our algorithms are much faster than the state-of-the-art, allowing the analysis of large datasets of thousands of target profiles from cancer cell lines. We show that on two such datasets, one from project Achilles and one from the Genomics of Drug Sensitivity in Cancer project, UNCOVER identifies several significant gene sets with complementary functional associations with targets. Software available at: . [ABSTRACT FROM AUTHOR]
- Published
- 2019
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29. Ten simple rules for providing a meaningful research experience to high school students.
- Author
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Lescak, Emily A., O’Neill, Kate M., Collu, Giovanna M., and Das, Subhamoy
- Subjects
RESEARCH ,HIGH school students ,MENTORING ,STEM education ,STEM occupations - Abstract
An editorial is presented on rules for providing a meaningful research experience to high school students. Topics discussed include ten rules for becoming an effective research mentor for high school students and their training, research opportunities as undergraduates and career consideration in science, technology, engineering, and mathematics and bridging the gap between scientists and the general public on scientific research.
- Published
- 2019
- Full Text
- View/download PDF
30. Network motifs and their origins.
- Author
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Stone, Lewi, Simberloff, Daniel, and Artzy-Randrup, Yael
- Subjects
SCIENCE ,DYNAMICS ,ECOLOGY ,LITERATURE ,BIOLOGY - Abstract
Author summary Modern network science is a new and exciting research field that has transformed the study of complex systems over the last 2 decades. Of particular interest is the identification of small “network motifs” that might be embedded in a larger network and that indicate the presence of evolutionary design principles or have an overly influential role on system-wide dynamics. Motifs are patterns of interconnections, or subgraphs, that appear in an observed network significantly more often than in compatible randomized networks. The concept of network motifs was introduced into Systems Biology by Milo, Alon and colleagues in 2002, quickly revolutionized the field, and it has had a huge impact in wider scientific domains ever since. Here, we argue that the same concept and tools for the detection of motifs were well known in the ecological literature decades into the last century, a fact that is generally not recognized. We review the early history of network motifs, their evolution in the mathematics literature, and their recent rediscoveries. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
31. Ten simple rules for organizing a webinar series.
- Author
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Fadlelmola, Faisal M., Panji, Sumir, Ahmed, Azza E., Ghouila, Amel, Akurugu, Wisdom A., Entfellner, Jean-Baka Domelevo, Souiai, Oussema, Mulder, Nicola, and null, null
- Subjects
WEBINARS ,COMMUNITIES ,AUDIENCES ,EMAIL ,SOCIAL media - Abstract
The article presents ten simple rules for hosting a regular webinar series with particular emphasis on resource-constrained communities like many in Africa. Topics include aligning a webinar theme to the expectations of the audience; settling on a convenient and user friendly webinar platform; and announcing webinars through mailing lists and social media platform.
- Published
- 2019
- Full Text
- View/download PDF
32. Designing and running an advanced Bioinformatics and genome analyses course in Tunisia.
- Author
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Guerfali, Fatma Z., Laouini, Dhafer, Boudabous, Abdellatif, and Tekaia, Fredj
- Subjects
INFORMATION science ,GENOMES ,BIOINFORMATICS ,BIOLOGY education ,COMPUTERS in biology - Abstract
Genome data, with underlying new knowledge, are accumulating at exponential rate thanks to ever-improving sequencing technologies and the parallel development of dedicated efficient Bioinformatics methods and tools. Advanced Education in Bioinformatics and Genome Analyses is to a large extent not accessible to students in developing countries where endeavors to set up Bioinformatics courses concern most often only basic levels. Here, we report a pioneering pilot experience concerning the design and implementation, from scratch, of a three-months advanced and extensive course in Bioinformatics and Genome Analyses in the Institut Pasteur de Tunis. Most significantly the outcome of the course was upgrading the participants’ skills in Bioinformatics and Genome Analyses to recognized international standards. Here we detail the different steps involved in the implementation of this course as well as the topics covered in the program. The description of this pilot experience might be helpful for the implementation of other similar educational projects, notably in developing countries, aiming to go beyond basics and providing young researchers with high-level skills. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
33. Strategies and opportunities for promoting bioinformatics in Zimbabwe.
- Author
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Shoko, Ryman, Manasa, Justen, Maphosa, Mcebisi, Mbanga, Joshua, Mudziwapasi, Reagan, Nembaware, Victoria, Sanyika, Walter T., Tinago, Tawanda, Chikwambi, Zedias, Mawere, Cephas, Matimba, Alice, Mugumbate, Grace, Mufandaedza, Jonathan, Mulder, Nicola, and Patterton, Hugh
- Subjects
BIOINFORMATICS ,LIFE sciences ,HIV infections ,AIDS ,TUBERCULOSIS - Abstract
The article reviews progress made by scientists in bioinformatics and propose strategies for boosting bioinformatics capacity. It mentions information on Eastern Africa Network for Bioinformatics Training (EANBiT), which aims at developing practitioners who can develop and use bioinformatics approaches to biosciences. It presents use of biosciences in treating infectious diseases such as the human immunodeficiency virus/acquired immunodeficiency syndrome (HIV/AIDS), and tuberculosis (TB).
- Published
- 2018
- Full Text
- View/download PDF
34. The Cultural Brain Hypothesis: How culture drives brain expansion, sociality, and life history.
- Author
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Muthukrishna, Michael, Doebeli, Michael, Chudek, Maciej, and Henrich, Joseph
- Subjects
HUMAN evolution ,NEUROSCIENCES ,SOCIAL evolution ,ANIMAL behavior ,BIOLOGICAL evolution - Abstract
In the last few million years, the hominin brain more than tripled in size. Comparisons across evolutionary lineages suggest that this expansion may be part of a broader trend toward larger, more complex brains in many taxa. Efforts to understand the evolutionary forces driving brain expansion have focused on climatic, ecological, and social factors. Here, building on existing research on learning, we analytically and computationally model the predictions of two closely related hypotheses: The Cultural Brain Hypothesis and the Cumulative Cultural Brain Hypothesis. The Cultural Brain Hypothesis posits that brains have been selected for their ability to store and manage information, acquired through asocial or social learning. The model of the Cultural Brain Hypothesis reveals relationships between brain size, group size, innovation, social learning, mating structures, and the length of the juvenile period that are supported by the existing empirical literature. From this model, we derive a set of predictions—the Cumulative Cultural Brain Hypothesis—for the conditions that favor an autocatalytic take-off characteristic of human evolution. This narrow evolutionary pathway, created by cumulative cultural evolution, may help explain the rapid expansion of human brains and other aspects of our species’ life history and psychology. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
35. A simple computer vision pipeline reveals the effects of isolation on social interaction dynamics in Drosophila.
- Author
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Linneweber, Gerit A., Claeys, Annelies, Liu, Guangda, Hassan, Bassem A., Sneyders, Manu, Nicasy, Hans, Scheunders, Paul, Nath, Tanmay, De Backer, Steve, Weyn, Barbara, Guo, Zhengyu, Li, Jin, Yu, Peng, and Bengochea, Mercedes
- Subjects
ISOLATION (Philosophy) ,DROSOPHILA ,SOCIAL isolation ,FRUIT flies ,GENE expression ,CHARTS, diagrams, etc. ,ANIMAL behavior - Abstract
Isolation profoundly influences social behavior in all animals. In humans, isolation has serious effects on health and disease. Drosophila melanogaster is a powerful model to study small-scale, temporally-transient social behavior. However, longer-term analysis of large groups of flies is hampered by the lack of effective and reliable tools. We built a new imaging arena and improved the existing tracking algorithm to reliably follow a large number of flies simultaneously. Next, based on the automatic classification of touch and graph-based social network analysis, we designed an algorithm to quantify changes in the social network in response to prior social isolation. We observed that isolation significantly and swiftly enhanced individual and local social network parameters depicting near-neighbor relationships. We explored the genome-wide molecular correlates of these behavioral changes and found that whereas behavior changed throughout the six days of isolation, gene expression alterations occurred largely on day one. These changes occurred mostly in metabolic genes, and we verified the metabolic changes by showing an increase of lipid content in isolated flies. In summary, we describe a highly reliable tracking and analysis pipeline for large groups of flies that we use to unravel the behavioral, molecular and physiological impact of isolation on social network dynamics in Drosophila. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
36. Modeling the impact of changes in day-care contact patterns on the dynamics of varicella transmission in France between 1991 and 2015.
- Author
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Marziano, Valentina, Poletti, Piero, Béraud, Guillaume, Boëlle, Pierre-Yves, Merler, Stefano, and Colizza, Vittoria
- Subjects
CHICKENPOX ,INFECTIOUS disease transmission ,VARICELLA-zoster virus ,PATHOGENIC microorganisms ,EPIDEMIOLOGY - Abstract
Annual incidence rates of varicella infection in the general population in France have been rather stable since 1991 when clinical surveillance started. Rates however show a statistically significant increase over time in children aged 0–3 years, and a decline in older individuals. A significant increase in day-care enrolment and structures’ capacity in France was also observed in the last decade. In this work we investigate the potential interplay between an increase of contacts of young children possibly caused by earlier socialization in the community and varicella transmission dynamics. To this aim, we develop an age-structured mathematical model, informed with historical demographic data and contact matrix estimates in the country, accounting for longitudinal linear increase of early childhood contacts. While the reported overall varicella incidence is well reproduced independently of mixing variations, age-specific empirical trends are better captured by accounting for an increase in contacts among pre-school children in the last decades. We found that the varicella data are consistent with a 30% increase in the number of contacts at day-care facilities, which would imply a 50% growth in the contribution of 0-3y old children to overall yearly infections in 1991–2015. Our findings suggest that an earlier exposure to pathogens due to changes in day-care contact patterns, represents a plausible explanation for the epidemiological patterns observed in France. Obtained results suggest that considering temporal changes in social factors in addition to demographic ones is critical to correctly interpret varicella transmission dynamics. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
37. Limits on reliable information flows through stochastic populations.
- Author
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Boczkowski, Lucas, Natale, Emanuele, Feinerman, Ofer, and Korman, Amos
- Subjects
BIOLOGICAL systems ,INFORMATION processing ,NOISE ,COMMUNICATION ,BIOLOGICAL networks - Abstract
Biological systems can share and collectively process information to yield emergent effects, despite inherent noise in communication. While man-made systems often employ intricate structural solutions to overcome noise, the structure of many biological systems is more amorphous. It is not well understood how communication noise may affect the computational repertoire of such groups. To approach this question we consider the basic collective task of rumor spreading, in which information from few knowledgeable sources must reliably flow into the rest of the population. We study the effect of communication noise on the ability of groups that lack stable structures to efficiently solve this task. We present an impossibility result which strongly restricts reliable rumor spreading in such groups. Namely, we prove that, in the presence of even moderate levels of noise that affect all facets of the communication, no scheme can significantly outperform the trivial one in which agents have to wait until directly interacting with the sources—a process which requires linear time in the population size. Our results imply that in order to achieve efficient rumor spread a system must exhibit either some degree of structural stability or, alternatively, some facet of the communication which is immune to noise. We then corroborate this claim by providing new analyses of experimental data regarding recruitment in Cataglyphis niger desert ants. Finally, in light of our theoretical results, we discuss strategies to overcome noise in other biological systems. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
38. Submit a Topic Page to PLOS Computational Biology and Wikipedia.
- Author
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Mietchen, Daniel, Wodak, Shoshana, Wasik, Szymon, Szostak, Natalia, and Dessimoz, Christophe
- Subjects
COMPUTATIONAL biology ,AUTHORS ,READERSHIP ,ORIGIN of life - Abstract
The article offers information on the periodical's `Topic Pages' project as a way to help fill important gaps in Wikipedia's coverage of computational biology content and to credit authors for their contributions. It mentions that hypercycle theory is now more accessible not only for advanced readers, but also for ordinary people who seek knowledge on the computational aspects of the origins of life.
- Published
- 2018
- Full Text
- View/download PDF
39. Eleven quick tips for running an interdisciplinary short course for new graduate students.
- Author
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Saunders, Timothy E., He, Cynthia Y., Koehl, Patrice, Ong, L. L. Sharon, and So, Peter T. C.
- Subjects
INTERDISCIPLINARY education ,GRADUATE students ,REASONING ,LIFE science education - Abstract
Quantitative reasoning and techniques are increasingly ubiquitous across the life sciences. However, new graduate researchers with a biology background are often not equipped with the skills that are required to utilize such techniques correctly and efficiently. In parallel, there are increasing numbers of engineers, mathematicians, and physical scientists interested in studying problems in biology with only basic knowledge of this field. Students from such varied backgrounds can struggle to engage proactively together to tackle problems in biology. There is therefore a need to establish bridges between those disciplines. It is our proposal that the beginning of graduate school is the appropriate time to initiate those bridges through an interdisciplinary short course. We have instigated an intensive 10-day course that brought together new graduate students in the life sciences from across departments within the National University of Singapore. The course aimed at introducing biological problems as well as some of the quantitative approaches commonly used when tackling those problems. We have run the course for three years with over 100 students attending. Building on this experience, we share 11 quick tips on how to run such an effective, interdisciplinary short course for new graduate students in the biosciences. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
40. Meet-U: Educating through research immersion.
- Author
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Abdollahi, Nika, Albani, Alexandre, Anthony, Eric, Baud, Agnes, Cardon, Mélissa, Clerc, Robert, Czernecki, Dariusz, Conte, Romain, David, Laurent, Delaune, Agathe, Djerroud, Samia, Fourgoux, Pauline, Guiglielmoni, Nadège, Laurentie, Jeanne, Lehmann, Nathalie, Lochard, Camille, Montagne, Rémi, Myrodia, Vasiliki, Opuu, Vaitea, and Parey, Elise
- Subjects
COMPUTATIONAL biology ,CLOUD computing ,RESEARCH methodology ,BIOLOGY students ,SCIENTISTS - Abstract
We present a new educational initiative called Meet-U that aims to train students for collaborative work in computational biology and to bridge the gap between education and research. Meet-U mimics the setup of collaborative research projects and takes advantage of the most popular tools for collaborative work and of cloud computing. Students are grouped in teams of 4–5 people and have to realize a project from A to Z that answers a challenging question in biology. Meet-U promotes "coopetition," as the students collaborate within and across the teams and are also in competition with each other to develop the best final product. Meet-U fosters interactions between different actors of education and research through the organization of a meeting day, open to everyone, where the students present their work to a jury of researchers and jury members give research seminars. This very unique combination of education and research is strongly motivating for the students and provides a formidable opportunity for a scientific community to unite and increase its visibility. We report on our experience with Meet-U in two French universities with master’s students in bioinformatics and modeling, with protein–protein docking as the subject of the course. Meet-U is easy to implement and can be straightforwardly transferred to other fields and/or universities. All the information and data are available at . [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
41. Ten simple rules to create a serious game, illustrated with examples from structural biology.
- Author
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Baaden, Marc, Delalande, Olivier, Ferey, Nicolas, Pasquali, Samuela, Waldispühl, Jérôme, and Taly, Antoine
- Subjects
VIDEO games ,SCIENCE ,RULES ,TEACHING ,GAMES - Abstract
The article presents simple rules for developing serious scientific videogames. One rule is that the goal of the game should be defined in a clear way in terms of science and teaching. Another rule is that equilibrium has to be created between scientific accuracy and player accessibility. Another rule is that one should let the players interact with scientific data.
- Published
- 2018
- Full Text
- View/download PDF
42. Ten simple rules for collaborative lesson development.
- Author
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Devenyi, Gabriel A., Emonet, Rémi, Harris, Rayna M., Hertweck, Kate L., Irving, Damien, Milligan, Ian, and Wilson, Greg
- Subjects
CURRICULUM planning ,LESSON planning - Abstract
The article offers tips on how to develop collaborative lessons.
- Published
- 2018
- Full Text
- View/download PDF
43. Costs of task allocation with local feedback: Effects of colony size and extra workers in social insects and other multi-agent systems.
- Author
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Radeva, Tsvetomira, Dornhaus, Anna, Lynch, Nancy, Nagpal, Radhika, and Su, Hsin-Hao
- Subjects
TASK analysis ,EMPLOYEES' workload ,JOB performance ,LABOR productivity ,ADAPTABILITY (Personality) ,PROBLEM solving - Abstract
Adaptive collective systems are common in biology and beyond. Typically, such systems require a task allocation algorithm: a mechanism or rule-set by which individuals select particular roles. Here we study the performance of such task allocation mechanisms measured in terms of the time for individuals to allocate to tasks. We ask: (1) Is task allocation fundamentally difficult, and thus costly? (2) Does the performance of task allocation mechanisms depend on the number of individuals? And (3) what other parameters may affect their efficiency? We use techniques from distributed computing theory to develop a model of a social insect colony, where workers have to be allocated to a set of tasks; however, our model is generalizable to other systems. We show, first, that the ability of workers to quickly assess demand for work in tasks they are not currently engaged in crucially affects whether task allocation is quickly achieved or not. This indicates that in social insect tasks such as thermoregulation, where temperature may provide a global and near instantaneous stimulus to measure the need for cooling, for example, it should be easy to match the number of workers to the need for work. In other tasks, such as nest repair, it may be impossible for workers not directly at the work site to know that this task needs more workers. We argue that this affects whether task allocation mechanisms are under strong selection. Second, we show that colony size does not affect task allocation performance under our assumptions. This implies that when effects of colony size are found, they are not inherent in the process of task allocation itself, but due to processes not modeled here, such as higher variation in task demand for smaller colonies, benefits of specialized workers, or constant overhead costs. Third, we show that the ratio of the number of available workers to the workload crucially affects performance. Thus, workers in excess of those needed to complete all tasks improve task allocation performance. This provides a potential explanation for the phenomenon that social insect colonies commonly contain inactive workers: these may be a ‘surplus’ set of workers that improves colony function by speeding up optimal allocation of workers to tasks. Overall our study shows how limitations at the individual level can affect group level outcomes, and suggests new hypotheses that can be explored empirically. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
44. Projecting social contact matrices in 152 countries using contact surveys and demographic data.
- Author
-
Prem, Kiesha, Cook, Alex R., and Jit, Mark
- Subjects
SOCIAL contact ,SURVEYING (Engineering) ,DEMOGRAPHIC databases ,DYNAMIC models ,MARKOV processes - Abstract
Heterogeneities in contact networks have a major effect in determining whether a pathogen can become epidemic or persist at endemic levels. Epidemic models that determine which interventions can successfully prevent an outbreak need to account for social structure and mixing patterns. Contact patterns vary across age and locations (e.g. home, work, and school), and including them as predictors in transmission dynamic models of pathogens that spread socially will improve the models’ realism. Data from population-based contact diaries in eight European countries from the POLYMOD study were projected to 144 other countries using a Bayesian hierarchical model that estimated the proclivity of age-and-location-specific contact patterns for the countries, using Markov chain Monte Carlo simulation. Household level data from the Demographic and Health Surveys for nine lower-income countries and socio-demographic factors from several on-line databases for 152 countries were used to quantify similarity of countries to estimate contact patterns in the home, work, school and other locations for countries for which no contact data are available, accounting for demographic structure, household structure where known, and a variety of metrics including workforce participation and school enrolment. Contacts are highly assortative with age across all countries considered, but pronounced regional differences in the age-specific contacts at home were noticeable, with more inter-generational contacts in Asian countries than in other settings. Moreover, there were variations in contact patterns by location, with work-place contacts being least assortative. These variations led to differences in the effect of social distancing measures in an age structured epidemic model. Contacts have an important role in transmission dynamic models that use contact rates to characterize the spread of contact-transmissible diseases. This study provides estimates of mixing patterns for societies for which contact data such as POLYMOD are not yet available. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
45. The application of project-based learning in bioinformatics training.
- Author
-
Emery, Laura R. and Morgan, Sarah L.
- Subjects
BIOINFORMATICS ,CORE competencies ,LIFE scientists ,SEQUENCE alignment ,PHYLOGENY ,EDUCATION - Abstract
The article focuses on the application of project-based learning in bioinformatics training and to foster collaboration and develop interpersonal competencies. It mentions overcome the challenge of composing a training course that could develop the competencies with increasingly heterogeneous audience of life scientists. It also mentions topics of the course which include sequence alignment, phylogenetics, and networks and pathways.
- Published
- 2017
- Full Text
- View/download PDF
46. Assessing computational genomics skills: Our experience in the H3ABioNet African bioinformatics network.
- Author
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Jongeneel, C. Victor, Achinike-Oduaran, Ovokeraye, Adebiyi, Ezekiel, Adebiyi, Marion, Adeyemi, Seun, Akanle, Bola, Aron, Shaun, Ashano, Efejiro, Bendou, Hocine, Botha, Gerrit, Chimusa, Emile, Choudhury, Ananyo, Donthu, Ravikiran, Drnevich, Jenny, Falola, Oluwadamila, Fields, Christopher J., Hazelhurst, Scott, Hendry, Liesl, Isewon, Itunuoluwa, and Khetani, Radhika S.
- Subjects
GENOMICS ,GENETIC databases ,BIOINFORMATICS ,INFORMATION science ,PUBLIC health - Abstract
The H3ABioNet pan-African bioinformatics network, which is funded to support the Human Heredity and Health in Africa (H3Africa) program, has developed node-assessment exercises to gauge the ability of its participating research and service groups to analyze typical genome-wide datasets being generated by H3Africa research groups. We describe a framework for the assessment of computational genomics analysis skills, which includes standard operating procedures, training and test datasets, and a process for administering the exercise. We present the experiences of 3 research groups that have taken the exercise and the impact on their ability to manage complex projects. Finally, we discuss the reasons why many H3ABioNet nodes have declined so far to participate and potential strategies to encourage them to do so. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
47. Epidemiological and economic impact of pandemic influenza in Chicago: Priorities for vaccine interventions.
- Author
-
Dorratoltaj, Nargesalsadat, Marathe, Achla, Lewis, Bryan L., Swarup, Samarth, Eubank, Stephen G., and Abbas, Kaja M.
- Subjects
INFLUENZA treatment ,H1N1 influenza ,VACCINES ,PANDEMICS ,EPIDEMIOLOGY ,PUBLIC health - Abstract
The study objective is to estimate the epidemiological and economic impact of vaccine interventions during influenza pandemics in Chicago, and assist in vaccine intervention priorities. Scenarios of delay in vaccine introduction with limited vaccine efficacy and limited supplies are not unlikely in future influenza pandemics, as in the 2009 H1N1 influenza pandemic. We simulated influenza pandemics in Chicago using agent-based transmission dynamic modeling. Population was distributed among high-risk and non-high risk among 0–19, 20–64 and 65+ years subpopulations. Different attack rate scenarios for catastrophic (30.15%), strong (21.96%), and moderate (11.73%) influenza pandemics were compared against vaccine intervention scenarios, at 40% coverage, 40% efficacy, and unit cost of $28.62. Sensitivity analysis for vaccine compliance, vaccine efficacy and vaccine start date was also conducted. Vaccine prioritization criteria include risk of death, total deaths, net benefits, and return on investment. The risk of death is the highest among the high-risk 65+ years subpopulation in the catastrophic influenza pandemic, and highest among the high-risk 0–19 years subpopulation in the strong and moderate influenza pandemics. The proportion of total deaths and net benefits are the highest among the high-risk 20–64 years subpopulation in the catastrophic, strong and moderate influenza pandemics. The return on investment is the highest in the high-risk 0–19 years subpopulation in the catastrophic, strong and moderate influenza pandemics. Based on risk of death and return on investment, high-risk groups of the three age group subpopulations can be prioritized for vaccination, and the vaccine interventions are cost saving for all age and risk groups. The attack rates among the children are higher than among the adults and seniors in the catastrophic, strong, and moderate influenza pandemic scenarios, due to their larger social contact network and homophilous interactions in school. Based on return on investment and higher attack rates among children, we recommend prioritizing children (0–19 years) and seniors (65+ years) after high-risk groups for influenza vaccination during times of limited vaccine supplies. Based on risk of death, we recommend prioritizing seniors (65+ years) after high-risk groups for influenza vaccination during times of limited vaccine supplies. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
48. Short-term activity cycles impede information transmission in ant colonies.
- Author
-
Richardson, Thomas O., Liechti, Jonas I., Stroeymeyt, Nathalie, Bonhoeffer, Sebastian, and Keller, Laurent
- Subjects
ANT colonies ,TIME series analysis ,CIRCADIAN rhythms ,INFORMATION sharing ,ANT algorithms - Abstract
Rhythmical activity patterns are ubiquitous in nature. We study an oscillatory biological system: collective activity cycles in ant colonies. Ant colonies have become model systems for research on biological networks because the interactions between the component parts are visible to the naked eye, and because the time-ordered contact network formed by these interactions serves as the substrate for the distribution of information and other resources throughout the colony. To understand how the collective activity cycles influence the contact network transport properties, we used an automated tracking system to record the movement of all the individuals within nine different ant colonies. From these trajectories we extracted over two million ant-to-ant interactions. Time-series analysis of the temporal fluctuations of the overall colony interaction and movement rates revealed that both the period and amplitude of the activity cycles exhibit a diurnal cycle, in which daytime cycles are faster and of greater amplitude than night cycles. Using epidemiology-derived models of transmission over networks, we compared the transmission properties of the observed periodic contact networks with those of synthetic aperiodic networks. These simulations revealed that contrary to some predictions, regularly-oscillating contact networks should impede information transmission. Further, we provide a mechanistic explanation for this effect, and present evidence in support of it. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
49. Ten simple rules to make the most out of your undergraduate research career.
- Author
-
Yu, Megan and Kuo, Yu-Min
- Subjects
RESEARCH ,UNDERGRADUATES ,CAREER development ,MASSIVE open online courses ,RESEARCH personnel - Abstract
The article discusses several rules for undergraduates to help them intellectually enrich their research experiences, in view of benefits of research in undergraduate education, and their struggle in understanding purpose of work. Topics include need for undergraduates to start early to explore research interests and goals for career; having a background knowledge in the research area using resources like Massive Open Online Courses; and having positive relationships with research colleagues.
- Published
- 2017
- Full Text
- View/download PDF
50. Ten simple rules for responsible big data research.
- Author
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Zook, Matthew, Barocas, Solon, boyd, danah, Crawford, Kate, Keller, Emily, Gangadharan, Seeta Peña, Goodman, Alyssa, Hollander, Rachelle, Koenig, Barbara A., Metcalf, Jacob, Narayanan, Arvind, Nelson, Alondra, and Pasquale, Frank
- Subjects
RESEARCH ethics ,BIG data ,DATA security failures ,RESEARCH methodology ,PREVENTION - Abstract
The article discusses the results of a two-year project which aimed to provide guidance to the National Science Foundation (NSF) on how to best encourage ethical practices in scientific and engineering research involving the use of big data research methods and infrastructures. The assumption that most data represent or impact people should be used to guide one's analysis. Researchers are also encouraged to situate and contextualize data to anticipate privacy breaches and minimize harm.
- Published
- 2017
- Full Text
- View/download PDF
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