Bioinformatics
Bioinformatics (/ˌbaɪ.oʊˌɪnfərˈmætɪks/) is an interdisciplinary field that develops methods and software tools for understanding biological data, in particular when the data sets are large and complex. As an interdisciplinary field of science, bioinformatics combines biology, chemistry, physics, computer science, information engineering, mathematics and statistics to analyze and interpret the biological data. Bioinformatics has been used for in silico analyses of biological queries using computational and statistical techniques.
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- enBioinformatics (/ˌbaɪ.oʊˌɪnfərˈmætɪks/) is an interdisciplinary field that develops methods and software tools for understanding biological data, in particular when the data sets are large and complex. As an interdisciplinary field of science, bioinformatics combines biology, chemistry, physics, computer science, information engineering, mathematics and statistics to analyze and interpret the biological data. Bioinformatics has been used for in silico analyses of biological queries using computational and statistical techniques.
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- enBioinformatics (/ˌbaɪ.oʊˌɪnfərˈmætɪks/) is an interdisciplinary field that develops methods and software tools for understanding biological data, in particular when the data sets are large and complex. As an interdisciplinary field of science, bioinformatics combines biology, chemistry, physics, computer science, information engineering, mathematics and statistics to analyze and interpret the biological data. Bioinformatics has been used for in silico analyses of biological queries using computational and statistical techniques. Bioinformatics includes biological studies that use computer programming as part of their methodology, as well as specific analysis "pipelines" that are repeatedly used, particularly in the field of genomics. Common uses of bioinformatics include the identification of candidates genes and single nucleotide polymorphisms (SNPs). Often, such identification is made with the aim to better understand the genetic basis of disease, unique adaptations, desirable properties (esp. in agricultural species), or differences between populations. In a less formal way, bioinformatics also tries to understand the organizational principles within nucleic acid and protein sequences, called proteomics. Image and signal processing allow extraction of useful results from large amounts of raw data. In the field of genetics, it aids in sequencing and annotating genomes and their observed mutations. It plays a role in the text mining of biological literature and the development of biological and gene ontologies to organize and query biological data. It also plays a role in the analysis of gene and protein expression and regulation. Bioinformatics tools aid in comparing, analyzing and interpreting genetic and genomic data and more generally in the understanding of evolutionary aspects of molecular biology. At a more integrative level, it helps analyze and catalogue the biological pathways and networks that are an important part of systems biology. In structural biology, it aids in the simulation and modeling of DNA, RNA, proteins as well as biomolecular interactions.
- Has broader match
- genome-informatics
- Has close match
- bioinformatics
- computational-biology-and-bioinformatics
- Has related match
- functional-clustering
- Is primary topic of
- Bioinformatics
- Label
- enBioinformatics
- Link from a Wikipage to an external page
- www.nap.edu/catalog/11480.html
- www.nap.edu/catalog/2121.html
- jprr.org/index.php/jprr/article/view/8/5
- print.achuth.googlepages.com/BINFTutorialV5.0CSI07.pdf
- gjar.org/publishpaper/vol2issue1/d75r28.pdf
- expasy.org
- www.mediawiki.org/wiki/Extension:WikiOpener
- compbio.mit.edu/6.047/
- www.computational-genomics.net/
- web.archive.org/web/20071222091912/http:/ocw.mit.edu/OcwWeb/Biology/7-91JSpring2004/LectureNotes/index.htm
- www.jprr.org
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- .NET Bio
- Accuracy
- Algorithm
- Alzheimer's disease
- Amino acid
- Amino acid sequence
- Anduril (workflow engine)
- Apache Taverna
- Approximation algorithms
- Artificial intelligence
- Artificial life
- Base calling
- Bayesian analysis
- Ben Hesper
- Bernd Sturmfels
- Biochemistry
- Bioclipse
- BioCompute Object
- Bioconductor
- BioCyc database collection
- Biodiversity
- Biodiversity informatics
- Bioengineering
- Bioimage informatics
- Bioinformatics companies
- Bioinformatics Open Source Conference
- Bioinformatics workflow management systems
- BioJava
- BioJS
- Biological computation
- Biological data
- Biological database
- Biological Data Visualization
- Biological network
- Biology
- BioPerl
- Biopython
- BioRuby
- BLAST
- Bovine spongiform encephalopathy
- Breast cancer
- Canadian Bioinformatics Workshops
- Cancer
- Category:Bioinformatics
- Cell (biology)
- Cell cycle
- Cell nucleus
- Cellular model
- Cellular respiration
- Chemistry
- ChIA-PET
- Chromosome conformation capture
- Cluster analysis
- Comparative genomic hybridization
- Computational biology
- Computational biomodeling
- Computational genomics
- Computational linguistics
- Computer
- Computer program
- Computer programming
- Computer science
- Computer simulation
- Consensus clustering
- Controlled vocabulary
- Control theory
- Copy number variation
- Coursera
- Creative Commons
- Current Protocols
- Cyberbiosecurity
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- De facto
- Diagnostics
- Directed acyclic graph
- Discrete mathematics
- DNA
- DNA barcoding
- DNA microarray
- DNA sequence
- DNA sequencing
- Drug design
- Drug discovery
- Educational technology
- EdX
- Elvin A. Kabat
- EMBOSS
- ENCODE
- Endosymbiosis
- Enhancer (genetics)
- Enzyme
- Epithelial
- European Bioinformatics Institute
- European Conference on Computational Biology
- European Federation for Medical Informatics
- Evolution
- Evolutionary biology
- Evolutionary tree
- Exome
- Expressed sequence tag
- File:1kqf opm.png
- File:Example DNA sequence.png
- File:Genome viewer screenshot small.png
- File:MIcroarray vs RNA-Seq.png
- File:Muscle alignment view.png
- File:Sequencing analysis steps.png
- File:The protein interaction network of Treponema pallidum.png
- File:WPP domain alignment.PNG
- Flow cytometry
- Food and Drug Administration
- Frederick Sanger
- Free and open-source software
- Functional genomics
- Galaxy (computational biology)
- Genbank
- Gene
- Gene Disease Database
- Gene duplication
- Gene expression
- Gene finding
- Gene mapping
- GeneMark
- Gene ontology
- Gene regulatory network
- Genes
- Genetic algorithm
- GenoCAD
- Genome assembly
- Genome project
- Genomes
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- Genomics
- George Washington University
- Germline
- Graph theory
- Haemophilus influenzae
- Harvard University
- Health informatics
- Heuristics
- Hi-C (genomic analysis technique)
- Hidden Markov model
- Hierarchical clustering
- High-content screening
- High-performance Integrated Virtual Environment
- Homology (biology)
- Homology modeling
- Horizontal gene transfer
- Hormone
- Human genome
- Human Genome Project
- Human Variome Project
- Image analysis
- Image processing
- Immunohistochemistry
- Infertility
- Informatics (academic field)
- Information engineering (field)
- Information technologies
- Information theory
- In silico
- Insulin
- Intelligent Systems for Molecular Biology
- Interactome
- Interdisciplinary
- International Society for Computational Biology
- InterPro
- Johns Hopkins University
- Jumping library
- KEGG
- Kepler scientific workflow system
- K-means clustering
- Leghemoglobin
- Lesion
- Lior Pachter
- List of bioinformatics companies
- List of bioinformatics institutions
- List of bioinformatics journals
- List of bioinformatics software
- List of open-source bioinformatics software
- Machine learning
- Margaret Oakley Dayhoff
- Markov chain Monte Carlo
- Massively parallel signature sequencing
- Massive open online course
- Mass spectrometry
- Master's degree
- Mathematics
- Medical imaging
- Messenger RNA
- Metabolic network
- Metabolism
- Metabolomics
- Microarray
- Microbiome
- Mitochondrion
- Molecular evolution
- Molecular systematics
- Morphometrics
- Multiple sequence alignment
- Mutation
- Named-entity recognition
- National Institutes of Health
- New York Genome Center
- Niche modelling
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- Nucleic acid
- Nucleic acid sequence
- Nucleotide
- Objectivity (science)
- OBO Foundry
- Oligonucleotide
- Ontology (information science)
- Open Bioinformatics Foundation
- Open code
- Orange (software)
- Organelle
- Owen White
- Pattern recognition
- Paulien Hogeweg
- Pfam
- Phi X 174
- Phylogenetics
- Phylogenetic tree
- Physics
- Plug-in (computing)
- Point mutation
- Population genetics
- Primary structure
- Prion
- Protein
- Protein Data Bank
- Protein domain
- Protein family
- Protein function prediction
- Protein microarray
- Protein nuclear magnetic resonance spectroscopy
- Protein–peptide
- Protein–protein docking
- Protein–protein interaction
- Protein sequences
- Protein structural alignment
- Protein structure
- Protein structure prediction
- Protein subcellular localization prediction
- Protein superfamily
- Proteomics
- Provenance
- QSAR
- Quaternary structure
- Raspberry Pi
- Regulation of gene expression
- Regulatory elements
- Research in Computational Molecular Biology
- REST
- RNA-Seq
- RNA splicing
- Rosalind (education platform)
- Science
- Secondary structure
- Self-organizing map
- Sequence alignment
- Sequence alignment software
- Sequence homology
- Sequence motif
- Sequence Read Archive
- Sequencing
- Serial analysis of gene expression
- Service-orientation
- Shotgun sequencing
- Signal (information theory)
- Signal processing
- Signal transduction
- Single-nucleotide polymorphism
- SOAP
- Soft computing
- Software tool
- Speciation
- Species
- Speciesism
- Species richness
- Srinivas Aluru
- Stanford University
- Statistics
- Structural biology
- Sulston score
- Swiss Institute of Bioinformatics
- Systems biology
- System theory
- Taxonomic database
- Terabyte
- Tertiary structure
- Text mining
- The Institute for Genomic Research
- Tissue microarray
- Topologically Associating Domain
- Transmembrane domain
- UGENE
- UniProt
- University of California, San Diego
- Virtual screening
- Workflow management system
- X-ray crystallography
- SameAs
- 4611085-9
- 4809615-5
- Bioinformaatika
- Bioinformasi
- Bioinformatica
- Bioinformatica
- Bioinformatica
- Bioinformatică
- Bioinformática
- Bioinformática
- Bioinformática
- Bioinformàtica
- Bio-informatica
- Bioinformatics
- Bioinformatiikka
- Bioinformatik
- Bioinformatik
- Bioinformatik
- Bioinformatik
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformatika
- Bioinformātika
- Bioinformatikk
- Bioinformatikk
- Bioinformatiko
- Bio-informatique
- Bioinformatyka
- Biokomputiko
- Biologia dei sistemi
- Biología de sistemas
- Biologia de sistemes
- Biologia sistêmica
- Biologia systemów
- Biologie des systèmes
- Biologie sistemică
- Biologi sistem
- Bioloxía dos sistemas
- Biyoenformatik
- Biyoimpormatika
- Biyoimpormatika
- Informatio genetica
- K5aM
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- m.01c62
- Mx4r2GnTUd-xSjiSey5NScw76Q
- Q128570
- Q815297
- Rendszerbiológia
- Sinh học hệ thống
- Sistem biologiyası
- Sistem biyolojisi
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- بیوانفورماتیک
- حیاتی اطلاعیات
- زیستشناسی سامانهها
- زیندەزانیارییەکان
- علم أنظمة الأحياء
- معلوماتية حيوية
- معلوماتيه حيويه
- जैव सूचना विज्ञान
- सिस्टम्स बायोलॉजी
- জৈব তথ্যবিজ্ঞান
- সাংগঠনিক জীববিদ্যা
- உயிர் தகவலியல்
- தொகுப்பியக்க உயிரியல்
- ಬಯೋಇನ್ಫರ್ಮ್ಯಾಟಿಕ್ಸ್
- ബയോ ഇൻഫർമാറ്റിക്സ്
- ชีววิทยาระบบ
- ชีวสารสนเทศศาสตร์
- システム生物学
- バイオインフォマティクス
- 生物信息学
- 系统生物学
- 생물정보학
- 시스템 생물학
- SeeAlso
- Sequence analysis
- Structural motif
- Subject
- Category:Bioinformatics
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- Bioinformatics?oldid=1123990252&ns=0
- WikiPageLength
- 72369
- Wikipage page ID
- 4214
- Wikipage revision ID
- 1123990252
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