📑 FREE VACCINE DESIGNING CERTIFICATE COURSE
BioFlix presents its vaccine designing course that focuses more on theory, applications, and recent advancement of immunoinformatics and vaccine designing with more emphasis on research.
https://bio-flix.com/course-directory/vaccine-designing-course/
1. Introduction to immunology
2. Innate and adaptive immunity
3. Introduction to b cells
4. Introduction to t cells
5. T cells and MHC
6. Introduction to antibodies
7. Introduction to vaccine designing
8. Reverse vaccine
9. Retrieval of protein sequence from NCBI
10. Sub-cellular localization of proteins
11. Antigenicity prediction of the sequence
12. Allergy prediction of the sequence
13. Physio-chemical parameter prediction of sequence
14. Super secondary protein prediction of sequence
15. Query antigen 3d structure
16. Interpretation of blast result
17. Introduction to homology modelling
18. Automated modelling of protein sequence
19. Interpretation of swiss model result
20. Interpretation of phyre result
21. Retrieval of swiss models
22. Validation of 3d antigen models
23. An introduction to ramachandran plot
24. Validation of models using ramachandran plot
25. Linear b cell epitope prediction
26. Interpretation of epitope prediction result
27. Discontinuous b cell epitope prediction
28. MHC 1 and MHC 2 class prediction
29. MHC 1 and MHC 2 class prediction interpretation
https://bio-flix.com/course-directory/vaccine-designing-course/
Channel: @Bioinformatics
BioFlix presents its vaccine designing course that focuses more on theory, applications, and recent advancement of immunoinformatics and vaccine designing with more emphasis on research.
https://bio-flix.com/course-directory/vaccine-designing-course/
1. Introduction to immunology
2. Innate and adaptive immunity
3. Introduction to b cells
4. Introduction to t cells
5. T cells and MHC
6. Introduction to antibodies
7. Introduction to vaccine designing
8. Reverse vaccine
9. Retrieval of protein sequence from NCBI
10. Sub-cellular localization of proteins
11. Antigenicity prediction of the sequence
12. Allergy prediction of the sequence
13. Physio-chemical parameter prediction of sequence
14. Super secondary protein prediction of sequence
15. Query antigen 3d structure
16. Interpretation of blast result
17. Introduction to homology modelling
18. Automated modelling of protein sequence
19. Interpretation of swiss model result
20. Interpretation of phyre result
21. Retrieval of swiss models
22. Validation of 3d antigen models
23. An introduction to ramachandran plot
24. Validation of models using ramachandran plot
25. Linear b cell epitope prediction
26. Interpretation of epitope prediction result
27. Discontinuous b cell epitope prediction
28. MHC 1 and MHC 2 class prediction
29. MHC 1 and MHC 2 class prediction interpretation
https://bio-flix.com/course-directory/vaccine-designing-course/
Channel: @Bioinformatics
📖 Molecular Biology for Computer Scientists
https://tandy.cs.illinois.edu/Hunter_MolecularBiology.pdf
Channel: @Bioinformatics
https://tandy.cs.illinois.edu/Hunter_MolecularBiology.pdf
Channel: @Bioinformatics
🦠 Is the COVID-19 data reliable?
Which countries from China, USA, Brazil, India, Peru, South Africa, Colombia, Mexico, Spain, Argentina, Chile, the United Kingdom, France, Saudi Arabia, Russia and Iran, seems to manipulate the related data?
👉🏻 https://www.researchgate.net/publication/344164702_Is_the_COVID-19_data_reliable_A_statistical_analysis_with_Benford's_Law
Channel: @Bioinformatics
Which countries from China, USA, Brazil, India, Peru, South Africa, Colombia, Mexico, Spain, Argentina, Chile, the United Kingdom, France, Saudi Arabia, Russia and Iran, seems to manipulate the related data?
👉🏻 https://www.researchgate.net/publication/344164702_Is_the_COVID-19_data_reliable_A_statistical_analysis_with_Benford's_Law
Channel: @Bioinformatics
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💰Bioinformatics Market Overview:
The global bioinformatics market generated $6,389 million in 2017, and is projected to reach $18,233 million by 2025, growing at a CAGR of 13.8% from 2018 to 2025.
KEY MARKET SEGMENTS includes:
By Technology & Services
o Knowledge Management Tools
-Generalized Knowledge Management Tools
-Specialized Knowledge Management Tools
o Bioinformatics Platforms
-Sequence Analysis Platforms
-Sequence Alignment Platforms
-Sequence Manipulation Platforms
-Structural Analysis Platforms
-Others
o Bioinformatics Services
-Sequencing Services
-Database & Management
-Data Analysis
-Others
By Application
o Metabolomics
o Molecular Phylogenetics
o Trannoscriptomics
o Proteomics
o Chemoinformatics
o Genomics
o Others
By Sector
o Medical Bioinformatics
o Animal Bioinformatics
o Agriculture Bioinformatics
o Academics
o Others
Competitive Landscape:
The key players operating in this market include
• Agilent Technologies, Inc.
• Geneva Bioinformatics (Genebio)
• Dassault Systems
• Eurofins Scientific
• Illumina Inc.
• Bruker Daltonics Inc.
• Biomax Informatics AG
• Perkinelmer Inc.
• Qiagen N.V.
• Thermo Fisher Scientific, Inc.
more information:
https://www.alliedmarketresearch.com/bioinformatics-market
https://www.marketwatch.com/press-release/global-bioinformatics-market-2020-top-countries-data-industry-size-share-business-growth-revenue-trends-market-demand-penetration-and-forecast-to-by-360-market-updates-2020-09-09
Channel: @Bioinformatics
The global bioinformatics market generated $6,389 million in 2017, and is projected to reach $18,233 million by 2025, growing at a CAGR of 13.8% from 2018 to 2025.
KEY MARKET SEGMENTS includes:
By Technology & Services
o Knowledge Management Tools
-Generalized Knowledge Management Tools
-Specialized Knowledge Management Tools
o Bioinformatics Platforms
-Sequence Analysis Platforms
-Sequence Alignment Platforms
-Sequence Manipulation Platforms
-Structural Analysis Platforms
-Others
o Bioinformatics Services
-Sequencing Services
-Database & Management
-Data Analysis
-Others
By Application
o Metabolomics
o Molecular Phylogenetics
o Trannoscriptomics
o Proteomics
o Chemoinformatics
o Genomics
o Others
By Sector
o Medical Bioinformatics
o Animal Bioinformatics
o Agriculture Bioinformatics
o Academics
o Others
Competitive Landscape:
The key players operating in this market include
• Agilent Technologies, Inc.
• Geneva Bioinformatics (Genebio)
• Dassault Systems
• Eurofins Scientific
• Illumina Inc.
• Bruker Daltonics Inc.
• Biomax Informatics AG
• Perkinelmer Inc.
• Qiagen N.V.
• Thermo Fisher Scientific, Inc.
more information:
https://www.alliedmarketresearch.com/bioinformatics-market
https://www.marketwatch.com/press-release/global-bioinformatics-market-2020-top-countries-data-industry-size-share-business-growth-revenue-trends-market-demand-penetration-and-forecast-to-by-360-market-updates-2020-09-09
Channel: @Bioinformatics
Allied Market Research
Bioinformatics Market Size, Share & Growth Report, 2030
The global bioinformatics market size is projected to reach USD 24.73 Billion by 2027, growing at a CAGR of 13.4% from 2020 to 2027.
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👨🏫 FREE COMPUTER AIDED DRUG DISCOVERY CERTIFICATE COURSE
BioFlix presents its Computer-Aided Drug Designing Course that focuses more on theory, applications, and recent advancement of computational drug discovery and designing techniques with more emphasis on research.
https://bio-flix.com/course-directory/computer-aided-drug-designing-course/
The contents of this free certificate course include:
1) Introduction to CADD
2) Introduction to ligands and ligand databases
3) Retrieval of ligand structure from PubChem
4) Generation of 3D structure of ligand using OpenBabel
5) Generation of 3D structure of ligand using ChemSketch and SMILES notation
6) Determination of human health effect of the ligand based on Cramer's decision tree
7) Prediction of molecular and drug likeness properties of the ligand
8) Prediction of ADMET effect of the ligand
9) Introduction to protein and protein databases
10) retrieval of primary structure of proteins
11) retrieval and visualizing 3D structure of proteins
12) Modelling of 3D crystal structure of protein from its sequence
13) Validation of the generated model using Ramachandran plot
14) Virtual screening using molecular docking approach
15) Visualization of the docked protein and ligand interaction using PyMOL
https://bio-flix.com/course-directory/computer-aided-drug-designing-course/
Channel: @Bioinformatics
BioFlix presents its Computer-Aided Drug Designing Course that focuses more on theory, applications, and recent advancement of computational drug discovery and designing techniques with more emphasis on research.
https://bio-flix.com/course-directory/computer-aided-drug-designing-course/
The contents of this free certificate course include:
1) Introduction to CADD
2) Introduction to ligands and ligand databases
3) Retrieval of ligand structure from PubChem
4) Generation of 3D structure of ligand using OpenBabel
5) Generation of 3D structure of ligand using ChemSketch and SMILES notation
6) Determination of human health effect of the ligand based on Cramer's decision tree
7) Prediction of molecular and drug likeness properties of the ligand
8) Prediction of ADMET effect of the ligand
9) Introduction to protein and protein databases
10) retrieval of primary structure of proteins
11) retrieval and visualizing 3D structure of proteins
12) Modelling of 3D crystal structure of protein from its sequence
13) Validation of the generated model using Ramachandran plot
14) Virtual screening using molecular docking approach
15) Visualization of the docked protein and ligand interaction using PyMOL
https://bio-flix.com/course-directory/computer-aided-drug-designing-course/
Channel: @Bioinformatics
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🏬 Introduction to European Bioinformatics Institute - EMBL-EBI
https://www.youtube.com/watch?v=cABhbUHsKIk
Channel: @Bioinformatics
https://www.youtube.com/watch?v=cABhbUHsKIk
Channel: @Bioinformatics
YouTube
Working at EMBL-EBI
EMBL’s European Bioinformatics Institute employs over 800 skilled staff from all over the world. At EMBL-EBI science and technology come together in mind-blowing ways, so we are always looking for bioinformaticians, biologists, software developers, engineers…
Bioinformatics
💥New version, 2019, of the "Theoretical Biology and Bioinformatics" Booklet from Utrecht University is now downloadable form here: http://tbb.bio.uu.nl/BDA/2019/reader_2019.pdf Channel: @Bioinformatics
💥New version, 2020, of the "Theoretical Biology and Bioinformatics" Booklet from Utrecht University is now downloadable form here:
http://tbb.bio.uu.nl/BDA/2020/reader_2020.pdf
Channel: @Bioinformatics
http://tbb.bio.uu.nl/BDA/2020/reader_2020.pdf
Channel: @Bioinformatics
🏛 HarvardX Biomedical Data Science Open Online Training
🖇 Includes:
-Data Analysis for the Life Sciences
-Genomics Data Analysis
-Using Python for Research
http://rafalab.github.io/pages/harvardx.html
Channel: @Bioinformatics
🖇 Includes:
-Data Analysis for the Life Sciences
-Genomics Data Analysis
-Using Python for Research
http://rafalab.github.io/pages/harvardx.html
Channel: @Bioinformatics
Here comes 5th International career talk webinar series from LLB-SCHOOL, France 🎊
👉Topic: “Are you ready for the opportunities in Bioinformatics domains? A walkthrough!”
Guest Speaker:
Dr. Girinath Pillai
Zastra Innovations, Pvt Ltd
Bangalore, India
👉 Here is the Registration link 🔗
https://tinyurl.com/ICTWS5Register
Scheduled on : September 26th, 2 30PM (CEST) & 6PM (IST)⏳
After your successful feedback completion you will receive your e-certificates within a week
Channel: @Bioinformatics
👉Topic: “Are you ready for the opportunities in Bioinformatics domains? A walkthrough!”
Guest Speaker:
Dr. Girinath Pillai
Zastra Innovations, Pvt Ltd
Bangalore, India
👉 Here is the Registration link 🔗
https://tinyurl.com/ICTWS5Register
Scheduled on : September 26th, 2 30PM (CEST) & 6PM (IST)⏳
After your successful feedback completion you will receive your e-certificates within a week
Channel: @Bioinformatics
💥Alternative drug repurposing methods for COVID-19
https://www.sciencedirect.com/science/article/pii/S2589750020301928
Channel: @Bioinformatics
https://www.sciencedirect.com/science/article/pii/S2589750020301928
Channel: @Bioinformatics
🏢 Job Prospects as a Bioinformatics Graduate
Studying bioinformatics, I was often asked where you can work as a bioinformatician. In my experience, about 80% of bioinformatics position are in research or the public sector. The problem with research positions is that they are usually fixed-term (e.g. two years) because these positions are often financed using project funds. In the public sector, bioinformaticians are often sought after in the medical field (e.g. in hospitals) and in health-related government institutions. The advantage of positions in the public-sector is that they are frequently permanent. However, a job in a public institution such as a hospital often involves system administration duties such as setting up computers and databases - tasks that have little to do with bioinformatics itself. Moreover, both research and public-sector positions offer relatively low salaries compared to industry.
In my estimation, only about 20% of bioinformatics positions are in industry. Why is the percentage so low? In my view, the main reason is that only industry sector that employs bioinformaticians is big pharma. Here, bioinformaticians are needed to perform tasks such as:
Modeling: Estimation of protein structures and simulation of molecular interactions
Data processing: processing and analyzing sequencing data, for example, from next-generation sequencing or single-cell sequencing
Virtual screening: discovery of leads (potential new drugs) using computational methods
Data science: analysis and interpretation of data
Since bioinformatics is very research-oriented and jobs in industry are few, many graduates (maybe 40%) join PhD programs. The ones joining industry usually work in non-bioinformatics positions, for example, as IT consultants, software developers, solutions architects, or data scientists.
Some people advise against studying bioinformatics because it is supposed to be difficult to find a job afterwards. I didn’t have that experience at all and I received many job offers from recruiters. I would argue that, having a bioinformatics degree, job prospects are fine, considering that bioinformaticians have a special skill set, which makes them attractive for companies:
--Bioinformatics graduates exhibit the characteristics of T-shaped professionals. This allows them to perform a variety of tasks and to act as facilitators in interdisciplinary teams.
-Bioinformatics graduates often have more practical experience writing software than computer-science graduates.
-Bioinformatics graduates are keen learners. Their proficiency in multiple disciplines demonstrates that they can easily adapt to new situations.
study here more:
https://www.datascienceblog.net/post/commentary/studying-bioinformatics-is-it-worth-it/
Channel: @Bioinformatics
Studying bioinformatics, I was often asked where you can work as a bioinformatician. In my experience, about 80% of bioinformatics position are in research or the public sector. The problem with research positions is that they are usually fixed-term (e.g. two years) because these positions are often financed using project funds. In the public sector, bioinformaticians are often sought after in the medical field (e.g. in hospitals) and in health-related government institutions. The advantage of positions in the public-sector is that they are frequently permanent. However, a job in a public institution such as a hospital often involves system administration duties such as setting up computers and databases - tasks that have little to do with bioinformatics itself. Moreover, both research and public-sector positions offer relatively low salaries compared to industry.
In my estimation, only about 20% of bioinformatics positions are in industry. Why is the percentage so low? In my view, the main reason is that only industry sector that employs bioinformaticians is big pharma. Here, bioinformaticians are needed to perform tasks such as:
Modeling: Estimation of protein structures and simulation of molecular interactions
Data processing: processing and analyzing sequencing data, for example, from next-generation sequencing or single-cell sequencing
Virtual screening: discovery of leads (potential new drugs) using computational methods
Data science: analysis and interpretation of data
Since bioinformatics is very research-oriented and jobs in industry are few, many graduates (maybe 40%) join PhD programs. The ones joining industry usually work in non-bioinformatics positions, for example, as IT consultants, software developers, solutions architects, or data scientists.
Some people advise against studying bioinformatics because it is supposed to be difficult to find a job afterwards. I didn’t have that experience at all and I received many job offers from recruiters. I would argue that, having a bioinformatics degree, job prospects are fine, considering that bioinformaticians have a special skill set, which makes them attractive for companies:
--Bioinformatics graduates exhibit the characteristics of T-shaped professionals. This allows them to perform a variety of tasks and to act as facilitators in interdisciplinary teams.
-Bioinformatics graduates often have more practical experience writing software than computer-science graduates.
-Bioinformatics graduates are keen learners. Their proficiency in multiple disciplines demonstrates that they can easily adapt to new situations.
study here more:
https://www.datascienceblog.net/post/commentary/studying-bioinformatics-is-it-worth-it/
Channel: @Bioinformatics
www.datascienceblog.net
Studying Bioinformatics: Is it Worth it?
Learn from my experiences studying Bioinformatics as a Bachelor's, Master's, and as a PhD. What kind of career opportunities exist?
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👨💻 12 days Mega workshop with e-certificate
Organised by- decodelife.org
Registration link
https://decodelife.org/recent-training-workshop/
Channel: @Bioinformatics
Organised by- decodelife.org
Registration link
https://decodelife.org/recent-training-workshop/
Channel: @Bioinformatics
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🎞 Recorded Workshops of Immunoinformatics:
https://youtu.be/6i_KzbLfSCQ
https://youtu.be/GDDZu6ZRI_g
Channel: @Bioinformatics
https://youtu.be/6i_KzbLfSCQ
https://youtu.be/GDDZu6ZRI_g
Channel: @Bioinformatics
📖 Gene Set Analysis: A Step-By-Step Guide
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4638147/
Channel: @Bioinformatics
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4638147/
Channel: @Bioinformatics
🥇 Nobel Prize in Chemistry awarded to scientists who discovered CRISPR gene editing tool for 'rewriting the code of life'.
https://www.cnn.com/2020/10/07/health/nobel-prize-2020-winner-chemistry-scn-intl/index.html
Channel: @Bioinformatics
https://www.cnn.com/2020/10/07/health/nobel-prize-2020-winner-chemistry-scn-intl/index.html
Channel: @Bioinformatics
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💻 All the techniques applied to COVID-19 from the Artificial Intelligence field:
https://www.sciencedirect.com/science/article/pii/S0960077920307335
Channel: @Bioinformatics
https://www.sciencedirect.com/science/article/pii/S0960077920307335
Channel: @Bioinformatics
👨🏫 One Day Virtual Symposium on "Application of Next Generation Data Analysis in Omics"
Oct 26, 2020
Registration link:
https://tinyurl.com/y37owqby
Channel: @Bioinformatics
Oct 26, 2020
Registration link:
https://tinyurl.com/y37owqby
Channel: @Bioinformatics