πGenomics enters the deep learning era
πJournal: PeerJ (I.F.=3.061)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #deep_learning #genomics
πJournal: PeerJ (I.F.=3.061)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #deep_learning #genomics
π4β€1
π Machine Learning Methods for Cancer Classification Using Gene Expression Data: A Review
πJournal: Bioengineering (I.F.=5.046)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #cancer #gene_expression
πJournal: Bioengineering (I.F.=5.046)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #cancer #gene_expression
π7
πThe application of machine learning to multi-omics data: dealing with dimensionality
πJournal: Briefing in Bioinformatics (I.F.=13.994)
πPublish year: 2023
π Study the paper
πΎ Data and processing scripts
π²Channel: @Bioinformatics
#review #machine_learning #multi_omics
πJournal: Briefing in Bioinformatics (I.F.=13.994)
πPublish year: 2023
π Study the paper
πΎ Data and processing scripts
π²Channel: @Bioinformatics
#review #machine_learning #multi_omics
π8
πTen simple rules for teaching yourself R
π₯Teaching yourself new skills can be hard. It can be a process rife with frustration, self-doubt, and low motivation to continue. The 10 rules we list here are our best strategies to overcome these challenges, master new techniques, and maybe even have some fun along the way! We hope that these rules will help new R users, be they graduate students, hobbyists, or established researchers eager to learn a new tool.
πJournal: PLOS Computational Biology (I.F.=4.779)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#r
π₯Teaching yourself new skills can be hard. It can be a process rife with frustration, self-doubt, and low motivation to continue. The 10 rules we list here are our best strategies to overcome these challenges, master new techniques, and maybe even have some fun along the way! We hope that these rules will help new R users, be they graduate students, hobbyists, or established researchers eager to learn a new tool.
πJournal: PLOS Computational Biology (I.F.=4.779)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#r
π7β€3
πComprehensive Review of Web Servers and Bioinformatics Tools for Cancer Prognosis Analysis
πJournal: Frontiers in Oncology (I.F.=5.738)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #cancer #tool #web
πJournal: Frontiers in Oncology (I.F.=5.738)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #cancer #tool #web
π7π1
πTowards reproducible computational drug discovery
πJournal: Journal of Cheminformatics (I.F.=8.469)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #drug_discovery
πJournal: Journal of Cheminformatics (I.F.=8.469)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #drug_discovery
π6π3β€2
π Machine learning and clinical epigenetics: a review of challenges for diagnosis and classification
πJournal: Clinical Epigenetics (I.F.=7.259)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #epigenetics
πJournal: Clinical Epigenetics (I.F.=7.259)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #epigenetics
BioMed Central
Machine learning and clinical epigenetics: a review of challenges for diagnosis and classification - Clinical Epigenetics
Background Machine learning is a sub-field of artificial intelligence, which utilises large data sets to make predictions for future events. Although most algorithms used in machine learning were developed as far back as the 1950s, the advent of big dataβ¦
π12β€3
π¨βπ« Registration is open to One month International Bioinformatics Workshop by DE<code>LIFE
π₯ Epigenomics & Immunoinformatics - 4th Ed, 2023π₯
π Duration: 14 March - 8 April, 2023
βοΈ Registration Link
https://decodelife.co.in
π² Fees: Rupees 1200 for Indian Participants /USD 25 for international Participants
π₯Key Features :
β«οΈ 23 sessions with approximately 35 hrs of learning.
β«οΈE- Certificate of Participation.
βΉοΈ video recording will be shared with participants immediately after each session along with relevant material.
βFrequently asked questions
https://decodelife.co.in/faq/
π²Channel: @Bioinformatics
π₯ Epigenomics & Immunoinformatics - 4th Ed, 2023π₯
π Duration: 14 March - 8 April, 2023
βοΈ Registration Link
https://decodelife.co.in
π² Fees: Rupees 1200 for Indian Participants /USD 25 for international Participants
π₯Key Features :
β«οΈ 23 sessions with approximately 35 hrs of learning.
β«οΈE- Certificate of Participation.
βΉοΈ video recording will be shared with participants immediately after each session along with relevant material.
βFrequently asked questions
https://decodelife.co.in/faq/
π²Channel: @Bioinformatics
π6
πInterpretable machine learning for geneticists: opening the black box
πJournal: Trends in Genetics (I.F.=11.821)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #genetics
πJournal: Trends in Genetics (I.F.=11.821)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #genetics
π3β€2π2
π Computational drug discovery and repurposing for the treatment of COVID-19: A systematic review
πJournal: Bioorganic Chemistry (I.F.=5.307)
πPublish year: 2021
π Study the paper
π²Channel: @Bioinformatics
#review #drug_discovery #repurposing #covid19
πJournal: Bioorganic Chemistry (I.F.=5.307)
πPublish year: 2021
π Study the paper
π²Channel: @Bioinformatics
#review #drug_discovery #repurposing #covid19
π4
π Mapping miRNA Research in Schizophrenia: A Scientometric Review
πJournal: International Journal of Molecular Sciences (I.F.=6.208)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #miran #Schizophrenia
πJournal: International Journal of Molecular Sciences (I.F.=6.208)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #miran #Schizophrenia
π4π―1
πTen simple rules for defining a computational biology project
π₯If you are working in the field of computational biology, then hopefully you are familiar with the excitement associated with coming up with a new idea and thinking about how to follow up on it. Maybe the idea came from a talk you heard at a conference, a paper you read, or a conversation with a colleague. Regardless, your brain is now abuzz with how this idea will be implemented and what data youβll need to validate it. Ultimately, if your idea pans out, perhaps it will lead to profound scientific insights, a high-impact paper, and a widely used software tool. But for now, itβs just an idea in your head. How do you begin to bring your new idea to fruition? This is, of course, the core of the scientific methodβtransforming an idea (or hypothesis) into discoveries. Hence, your success as a scientist depends strongly on your ability to efficiently and effectively carry out such transformations.
Here, I focus on the very first few steps of that transformation, providing some general rules that can help start your new project in the right direction. Some of these rules may be considered variations on the questions asked in the Heilmeier catechism (https://www.darpa.mil/work-with-us/heilmeier-catechism), which is a set of questions that the US Defense Advanced Projects Agency uses to evaluate potential research projects.
πJournal: PLOS Computational Biology (I.F.=4.779)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
π₯If you are working in the field of computational biology, then hopefully you are familiar with the excitement associated with coming up with a new idea and thinking about how to follow up on it. Maybe the idea came from a talk you heard at a conference, a paper you read, or a conversation with a colleague. Regardless, your brain is now abuzz with how this idea will be implemented and what data youβll need to validate it. Ultimately, if your idea pans out, perhaps it will lead to profound scientific insights, a high-impact paper, and a widely used software tool. But for now, itβs just an idea in your head. How do you begin to bring your new idea to fruition? This is, of course, the core of the scientific methodβtransforming an idea (or hypothesis) into discoveries. Hence, your success as a scientist depends strongly on your ability to efficiently and effectively carry out such transformations.
Here, I focus on the very first few steps of that transformation, providing some general rules that can help start your new project in the right direction. Some of these rules may be considered variations on the questions asked in the Heilmeier catechism (https://www.darpa.mil/work-with-us/heilmeier-catechism), which is a set of questions that the US Defense Advanced Projects Agency uses to evaluate potential research projects.
πJournal: PLOS Computational Biology (I.F.=4.779)
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
π5
π A review of data mining in bioinformatics
πBSc Thesis from Centria University of Applied Sciences, Finland
πPublish year: 2019
π Study thesis
π²Channel: @Bioinformatics
#thesis #data_mining #review
πBSc Thesis from Centria University of Applied Sciences, Finland
πPublish year: 2019
π Study thesis
π²Channel: @Bioinformatics
#thesis #data_mining #review
π9
π Machine-Learning-Based Disease Diagnosis: A Comprehensive Review
πJournal: Healthcare (I.F.=3.160)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #disease
πJournal: Healthcare (I.F.=3.160)
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #machine_learning #disease
π7
π₯Introduction to NCBI Pathogen Detection and antimicrobial resistance data in Google BigQueryπ₯
π§βπ»Free webinar from NCBI
π Date: Mar 29, 2023
π Time: 12:00 PM in Eastern Time (US and Canada)
π Location: Online, Zoom
βπ» Details and Registration
π²Channel: @Bioinformatics
#webinar #pathogen #google
π§βπ»Free webinar from NCBI
π Date: Mar 29, 2023
π Time: 12:00 PM in Eastern Time (US and Canada)
π Location: Online, Zoom
βπ» Details and Registration
π²Channel: @Bioinformatics
#webinar #pathogen #google
π7π₯5
πPrecision Medicine Informatics: Principles, Prospects, and Challenges
πJournal: IEEE Access (I.F.=3.367)
πPublish year: 2019
π Study the paper
π²Channel: @Bioinformatics
#review #precision_medicine
πJournal: IEEE Access (I.F.=3.367)
πPublish year: 2019
π Study the paper
π²Channel: @Bioinformatics
#review #precision_medicine
π7π€2
πA survey of the most recent Python packages for use in biology
πJournal: NeuroQuantology
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #python
πJournal: NeuroQuantology
πPublish year: 2023
π Study the paper
π²Channel: @Bioinformatics
#review #python
π6β€4
πBioinformatics for RNAseq
π₯Free recorded workshop
π½ Watch
π²Channel: @Bioinformatics
#video #rnaseq
π₯Free recorded workshop
π½ Watch
π²Channel: @Bioinformatics
#video #rnaseq
YouTube
Bioinformatics for RNAseq
A recording of a live Zoom training for Bioinformatics for RNA Sequencing Analysis from the Tufts Data Lab, with Wenwen Hou, Rebecca Batorsky, and Albert Tai.
Recorded in May 2020.
Recorded in May 2020.
β€15π6
πArtificial intelligence in medical diagnostics: A review from a South African context
πJournal: Scientific African
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #ai #medical #african
πJournal: Scientific African
πPublish year: 2022
π Study the paper
π²Channel: @Bioinformatics
#review #ai #medical #african
π5