π£ BIOINFO CLUB ENERO 2022 π£
πͺπΈ CaracterizaciΓ³n de redes en pacientes con Leucemia Mieloide Aguda
π 18 de Enero
π De 19h a 20:00h, CET
π Imparte:
π IvΓ‘n Ellson Lancho, Estudiante de Doctorado (Unidad de BioinformΓ‘tica de Genyo)
βΉοΈ Info + Registro
https://buff.ly/3zd3WUh
π²Channel: @Bioinformatics
πͺπΈ CaracterizaciΓ³n de redes en pacientes con Leucemia Mieloide Aguda
π 18 de Enero
π De 19h a 20:00h, CET
π Imparte:
π IvΓ‘n Ellson Lancho, Estudiante de Doctorado (Unidad de BioinformΓ‘tica de Genyo)
βΉοΈ Info + Registro
https://buff.ly/3zd3WUh
π²Channel: @Bioinformatics
Eventbrite
CaracterizaciΓ³n de redes en pacientes con AML | BioInfo Club
Flujo de anΓ‘lisis bioinformΓ‘ticos propuesto para caracterizar las redes de seΓ±alizaciΓ³n alteradas en pacientes pediΓ‘tricos AML
π6
πReview on the Development and Applications of Medicinal Plant Genomes
π₯ From Abstract: Although the review of plant genomes has been reported several times, there is no review giving a systematic and comprehensive introduction about the development and application of medicinal plant genomes that have been reported until now. Here, we provide a historical perspective on the current situation of genomes in medicinal plant biology, highlight the use of the rapidly developing sequencing technologies, and conduct a comprehensive summary on how the genomes apply to solve the practical problems in medicinal plants, like genomics-assisted herb breeding, evolution history revelation, herbal synthetic biology study, and geoherbal research, which are important for effective utilization, rational use and sustainable protection of medicinal plants.
π Study the review
π²Channel: @Bioinformatics
π₯ From Abstract: Although the review of plant genomes has been reported several times, there is no review giving a systematic and comprehensive introduction about the development and application of medicinal plant genomes that have been reported until now. Here, we provide a historical perspective on the current situation of genomes in medicinal plant biology, highlight the use of the rapidly developing sequencing technologies, and conduct a comprehensive summary on how the genomes apply to solve the practical problems in medicinal plants, like genomics-assisted herb breeding, evolution history revelation, herbal synthetic biology study, and geoherbal research, which are important for effective utilization, rational use and sustainable protection of medicinal plants.
π Study the review
π²Channel: @Bioinformatics
πComputational Medicine: Past, Present and Future
π₯From Abstract: ...This paper introduces the concepts and characteristics of computational medicine and then reviews the developmental history of the field. Additionally, this study introduces research progress in computational medicine around the world, lists some specific clinical applications of computational medicine, discusses the key problems and limitations of the research and the development and application of computational medicine, and ultimately looks forward to the developmental prospects, especially in the field of computational Chinese medicine.
π Study the paper
π²Channel: @Bioinformatics
π₯From Abstract: ...This paper introduces the concepts and characteristics of computational medicine and then reviews the developmental history of the field. Additionally, this study introduces research progress in computational medicine around the world, lists some specific clinical applications of computational medicine, discusses the key problems and limitations of the research and the development and application of computational medicine, and ultimately looks forward to the developmental prospects, especially in the field of computational Chinese medicine.
π Study the paper
π²Channel: @Bioinformatics
π§¬Step by step visual introduction to BLAST
π₯ From Berkeley library
βοΈ Level: Elementary
β«οΈSearching for gene and protein information
β«οΈFrom sequence to protein and gene & Comparing two or more sequences
π²Channel: @Bioinformatics
π₯ From Berkeley library
βοΈ Level: Elementary
β«οΈSearching for gene and protein information
β«οΈFrom sequence to protein and gene & Comparing two or more sequences
π²Channel: @Bioinformatics
π4
π’The Festival of Genomics & Biodata
π₯Free for student with university email address
π Time: 25-28 January 2022
βπ» Registration link
π£ View speakers list
βΉοΈ More information
π²Channel: @Bioinformatics
π₯Free for student with university email address
π Time: 25-28 January 2022
βπ» Registration link
π£ View speakers list
βΉοΈ More information
π²Channel: @Bioinformatics
π6β€2
π¨βπΌJob and academics positions
β«οΈResearch Fellow in Bioinformatics job with UNIVERSITY OF SOUTHAMPTON
β«οΈSingular Genomics hiring Bioinformatics Scientist in San Diego, California, United States
β«οΈAssistant Research Officer, Li Ka Shing Faculty of Medicine
π²Channel: @Bioinformatics
β«οΈResearch Fellow in Bioinformatics job with UNIVERSITY OF SOUTHAMPTON
β«οΈSingular Genomics hiring Bioinformatics Scientist in San Diego, California, United States
β«οΈAssistant Research Officer, Li Ka Shing Faculty of Medicine
π²Channel: @Bioinformatics
π6
π©ββοΈIntelligent Health Care: Applications of Deep Learning in Computational Medicine
π Study the paper
π²Channel: @Bioinformatics
π Study the paper
π²Channel: @Bioinformatics
π§βπ«Bioinformatics mentorship in a resource limited setting
π₯ From abstract: ... Here, we pioneered and tested a bioinformatics training/mentorship model that effectively uses the available expertise and computational infrastructure to deliver an in-person hands-on skills training experience. This is done through a few physical lecture hours each week, guided personal coursework over the rest of the week, group discussions and continuous close mentorship and assessment of trainees over a period of 1 year. ...
π Study the paper
π²Channel: @Bioinformatics
π₯ From abstract: ... Here, we pioneered and tested a bioinformatics training/mentorship model that effectively uses the available expertise and computational infrastructure to deliver an in-person hands-on skills training experience. This is done through a few physical lecture hours each week, guided personal coursework over the rest of the week, group discussions and continuous close mentorship and assessment of trainees over a period of 1 year. ...
π Study the paper
π²Channel: @Bioinformatics
π5
π Exploration of databases and methods supporting drug repurposing: a comprehensive survey
π Study the paper
π²Channel: @Bioinformatics
π Study the paper
π²Channel: @Bioinformatics
π1
πComputational Methods for Identifying Similar Diseases
π Study the review paper
π²Channel: @Bioinformatics
π Study the review paper
π²Channel: @Bioinformatics
π4
πData Fabric in Life Sciences and Health Care: Real World Successes and Challenges
π₯Free webinar from IBM
π Date: Tue, Jan 25, 2022
π Time: 6:30 PM - 7:30 PM IRST
βπ» Registration & more information
π²Channel: @Bioinformatics
π₯Free webinar from IBM
π Date: Tue, Jan 25, 2022
π Time: 6:30 PM - 7:30 PM IRST
βπ» Registration & more information
π²Channel: @Bioinformatics
π1
π₯ MOOC Machine Learning y Big Data para la BioinformΓ‘tica
π A free course in English and Spanish to learn bioinformatics tools
π Start date: January 10th - April 7th, 2022
π More info & Registration
π²Channel: @Bioinformatics
π A free course in English and Spanish to learn bioinformatics tools
π Start date: January 10th - April 7th, 2022
π More info & Registration
π²Channel: @Bioinformatics
π8
πSurvey of miRNA-miRNA cooperative regulation principles across cancer types
π Read the paper
π²Channel: @Bioinformatics
π Read the paper
π²Channel: @Bioinformatics
π4
πWhy do you need a biostatistician?
πJournal: BMC Medical Research Methodology (I.F.=4.61)
πPublish year: 2020
π₯Abstract: The quality of medical research importantly depends, among other aspects, on a valid statistical planning of the study, analysis of the data, and reporting of the results, which is usually guaranteed by a biostatistician. However, there are several related professions next to the biostatistician, for example epidemiologists, medical informaticians and bioinformaticians. For medical experts, it is often not clear what the differences between these professions are and how the specific role of a biostatistician can be described. For physicians involved in medical research, this is problematic because false expectations often lead to frustration on both sides. Therefore, the aim of this article is to outline the tasks and responsibilities of biostatisticians in clinical trials as well as in other fields of application in medical research.
π Read the paper
π²Channel: @Bioinformatics
πJournal: BMC Medical Research Methodology (I.F.=4.61)
πPublish year: 2020
π₯Abstract: The quality of medical research importantly depends, among other aspects, on a valid statistical planning of the study, analysis of the data, and reporting of the results, which is usually guaranteed by a biostatistician. However, there are several related professions next to the biostatistician, for example epidemiologists, medical informaticians and bioinformaticians. For medical experts, it is often not clear what the differences between these professions are and how the specific role of a biostatistician can be described. For physicians involved in medical research, this is problematic because false expectations often lead to frustration on both sides. Therefore, the aim of this article is to outline the tasks and responsibilities of biostatisticians in clinical trials as well as in other fields of application in medical research.
π Read the paper
π²Channel: @Bioinformatics
π4
πΈThe benefits and threats of blockchain technology in healthcare: A scoping review
πJournal: International Journal of Medical Informatics (I.F.=4.046)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
πJournal: International Journal of Medical Informatics (I.F.=4.046)
πPublish year: 2020
π Study the paper
π²Channel: @Bioinformatics
π4
πArtificial intelligence in cancer research: learning at different levels of data granularity
πJournal: Molecular Oncology Journal (I.F.=6.603)
πPublish year: 2021
π Study the paper
π²Channel: @Bioinformatics
πJournal: Molecular Oncology Journal (I.F.=6.603)
πPublish year: 2021
π Study the paper
π²Channel: @Bioinformatics
π2
πAdvances in clinical genetics and genomics
π₯Review paper
πJournal: Intelligent Medicine
πPublish year: September 2021
π Study the paper
π²Channel: @Bioinformatics
π₯Review paper
πJournal: Intelligent Medicine
πPublish year: September 2021
π Study the paper
π²Channel: @Bioinformatics
π1
πProtein domain identification methods and online resources
πJournal: Computational and Structural Biotechnology (I.F.=7.271)
πPublish year: 2021
π₯Abstract: Protein domains are the basic units of proteins that can fold, function, and evolve independently. Knowledge of protein domains is critical for protein classification, understanding their biological functions, annotating their evolutionary mechanisms and protein design. Thus, many protein domain identification approaches have been developed, and a variety of protein domain databases have also been constructed. This review divides protein domain prediction methods into two categories, sequence-based and structure-based. These methods are introduced in detail, and their advantages and limitations are compared. Furthermore, this review also provides a comprehensive overview of popular online protein domain sequence and structure databases. Finally, we discuss potential improvements of these prediction methods.
π Study the paper
π²Channel: @Bioinformatics
πJournal: Computational and Structural Biotechnology (I.F.=7.271)
πPublish year: 2021
π₯Abstract: Protein domains are the basic units of proteins that can fold, function, and evolve independently. Knowledge of protein domains is critical for protein classification, understanding their biological functions, annotating their evolutionary mechanisms and protein design. Thus, many protein domain identification approaches have been developed, and a variety of protein domain databases have also been constructed. This review divides protein domain prediction methods into two categories, sequence-based and structure-based. These methods are introduced in detail, and their advantages and limitations are compared. Furthermore, this review also provides a comprehensive overview of popular online protein domain sequence and structure databases. Finally, we discuss potential improvements of these prediction methods.
π Study the paper
π²Channel: @Bioinformatics
π5π₯1