Protein design


Ontology type: npg:Subject  | skos:Concept     


Concept Info

NAME

Protein design

DESCRIPTION

Protein design (or protein engineering) is a technique by which proteins with enhanced or novel functional properties are created. Proteins can be engineered by rational design, which typically uses computational tools to identify useful mutations, or by directed evolution, which uses random mutagenesis coupled with a selection process to identify desired variants.

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91 skos:definition Computational biology and bioinformatics is an interdisciplinary field that develops and applies computational methods to analyse large collections of biological data, such as genetic sequences, cell populations or protein samples, to make new predictions or discover new biology. The computational methods used include analytical methods, mathematical modelling and simulation.
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93 skos:narrower sg:ontologies/subjects/biochemical-reaction-networks
94 sg:ontologies/subjects/cellular-signalling-networks
95 sg:ontologies/subjects/classification-and-taxonomy
96 sg:ontologies/subjects/communication-and-replication
97 sg:ontologies/subjects/computational-models
98 sg:ontologies/subjects/computational-neuroscience
99 sg:ontologies/subjects/computational-platforms-and-environments
100 sg:ontologies/subjects/data-acquisition
101 sg:ontologies/subjects/data-integration
102 sg:ontologies/subjects/data-mining
103 sg:ontologies/subjects/data-processing
104 sg:ontologies/subjects/data-publication-and-archiving
105 sg:ontologies/subjects/databases
106 sg:ontologies/subjects/functional-clustering
107 sg:ontologies/subjects/gene-ontology
108 sg:ontologies/subjects/gene-regulatory-networks
109 sg:ontologies/subjects/genome-informatics
110 sg:ontologies/subjects/hardware-and-infrastructure
111 sg:ontologies/subjects/high-throughput-screening
112 sg:ontologies/subjects/image-processing
113 sg:ontologies/subjects/literature-mining
114 sg:ontologies/subjects/machine-learning
115 sg:ontologies/subjects/microarrays
116 sg:ontologies/subjects/network-topology
117 sg:ontologies/subjects/phylogeny
118 sg:ontologies/subjects/power-law
119 sg:ontologies/subjects/predictive-medicine
120 sg:ontologies/subjects/probabilistic-data-networks
121 sg:ontologies/subjects/programming-language-and-code
122 sg:ontologies/subjects/protein-analysis
123 sg:ontologies/subjects/protein-design
124 sg:ontologies/subjects/protein-folding
125 sg:ontologies/subjects/protein-function-predictions
126 sg:ontologies/subjects/protein-structure-predictions
127 sg:ontologies/subjects/proteome-informatics
128 sg:ontologies/subjects/quality-control
129 sg:ontologies/subjects/scale-invariance
130 sg:ontologies/subjects/sequence-annotation
131 sg:ontologies/subjects/software
132 sg:ontologies/subjects/standards
133 sg:ontologies/subjects/statistical-methods
134 sg:ontologies/subjects/virtual-drug-screening
135 skos:prefLabel Computational biology and bioinformatics
136 sg:ontologies/subjects/molecular-engineering sgo:sdDataset onto_subjects
137 rdf:type npg:Subject
138 skos:Concept
139 rdfs:label Molecular engineering
140 skos:broader sg:ontologies/subjects/biological-techniques
141 sg:ontologies/subjects/biotechnology
142 sg:ontologies/subjects/systems-biology
143 skos:definition Molecular engineering includes methods for the design and synthesis of novel molecules with desirable physical properties or functionalities.
144 skos:inScheme sg:ontologies/subjects/
145 skos:narrower sg:ontologies/subjects/antimicrobials
146 sg:ontologies/subjects/metabolic-engineering
147 sg:ontologies/subjects/protein-design
148 sg:ontologies/subjects/synthetic-biology
149 sg:ontologies/subjects/virtual-drug-screening
150 skos:prefLabel Molecular engineering
151 skos:Concept sgo:sdDataset for_codes
152 rdf:type rdfs:Class
153 rdfs:Resource
154 rdfs:subClassOf rdfs:Resource
155 skos:Concept
 




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