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Related Concept Videos

What is Gene Expression?01:42

What is Gene Expression?

Overview
Gene expression is the process in which DNA directs the synthesis of functional products, that is, proteins. Cells can regulate gene expression at various stages. It allows organisms to generate different cell types and enables cells to adapt to internal and external factors.
Genetic Information Flows from DNA to RNA to Protein
A gene is a stretch of DNA that serves as the blueprint for functional RNAs and proteins. Since DNA is made up of nucleotides and proteins consist of amino...
What is Gene Expression?01:36

What is Gene Expression?

A gene is a stretch of DNA that serves as the blueprint for functional RNAs and proteins. Since DNA is comprised  of nucleotides and proteins are comprised of amino acids, a mediator is required to convert the information encoded in DNA into proteins. This mediator is the messenger RNA (mRNA). mRNA copies the blueprint from DNA by a process called transcription. In eukaryotes, transcription occurs in the nucleus by complementary base-pairing with the DNA template. The mRNA is then processed and...
What is Gene Expression?01:42

What is Gene Expression?

Overview
Gene expression is the process in which DNA directs the synthesis of functional products, that is, proteins. Cells can regulate gene expression at various stages. It allows organisms to generate different cell types and enables cells to adapt to internal and external factors.
Genetic Information Flows from DNA to RNA to Protein
A gene is a stretch of DNA that serves as the blueprint for functional RNAs and proteins. Since DNA is made up of nucleotides and proteins consist of amino...
Regulation of Expression at Multiple Steps01:23

Regulation of Expression at Multiple Steps

The gene expression in cells is regulated at different stages: (i) transcription, (ii) RNA processing, (iii) RNA localization, and (iv) translation. Transcriptional regulation is mediated by regulatory proteins such as transcription factors, activators, or repressors—these control gene expression by initiating or inhibiting the transcription of genes. Once a precursor or pre-mRNA is produced, it undergoes post-transcriptional modification, including 5' capping, splicing, and the addition of a...
Neural Regulation01:37

Neural Regulation

Digestion begins with a cephalic phase that prepares the digestive system to receive food. When our brain processes visual or olfactory information about food, it triggers impulses in the cranial nerves innervating the salivary glands and stomach to prepare for food.
Regulation of Expression Occurs at Multiple Steps02:24

Regulation of Expression Occurs at Multiple Steps

Gene expression can be regulated at almost every step from gene to protein. Transcription is the step that is most commonly regulated. This involves the binding of proteins to short regulatory sequences on the DNA. This association can either promote or inhibit the transcription of a gene associated with the respective sequence.
Transcription results in the generation of precursor (pre-mRNA) that consists of both exons and introns, which needs further processing before being translated to a...

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Predicting Gene Silencing Through the Spatiotemporal Control of siRNA Release from Photo-responsive Polymeric Nanocarriers
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Modelling formulations using gene expression programming--a comparative analysis with artificial neural networks.

E A Colbourn1, S J Roskilly, R C Rowe

  • 1Intelligensys Ltd., Springboard Business Centre, Ellerbeck Way, Stokesley TS9 5JZ, UK. colbourn@intelligensys.co.uk

European Journal of Pharmaceutical Sciences : Official Journal of the European Federation for Pharmaceutical Sciences
|September 10, 2011
PubMed
Summary
This summary is machine-generated.

Gene expression programming (GEP) effectively models pharmaceutical formulation data, revealing interpretable cause-and-effect relationships unlike neural networks. GEP offers advantages for understanding complex formulation dynamics.

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Area of Science:

  • Computational intelligence
  • Pharmaceutical sciences
  • Data modeling

Background:

  • Pharmaceutical formulation development relies on understanding complex data relationships.
  • Neural networks are widely used but often act as black boxes.
  • Gene expression programming (GEP) is an evolutionary computing technique for automatic equation generation.

Purpose of the Study:

  • To investigate the utility and advantages of GEP for pharmaceutical formulation data modeling.
  • To compare GEP-generated models with those from neural networks.
  • To assess the interpretability of models generated by both techniques.

Main Methods:

  • Applied GEP to four types of pharmaceutical formulation data.
  • Utilized neural networks for comparison in formulation development.
  • Evaluated models based on their ability to discover non-linear relationships and interpretability.

Main Results:

  • Both GEP and neural networks identified subtle, non-linear data relationships without predefined functional forms.
  • Neural networks developed models faster with higher ANOVA R(2) values but lacked interpretability.
  • GEP, though slower, generated simpler, interpretable equations describing key relationships.

Conclusions:

  • GEP is an effective and efficient modeling technique for pharmaceutical formulation data.
  • GEP provides greater insight into cause-and-effect relationships compared to neural networks.
  • GEP's interpretable models are valuable for formulation development and understanding.