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Engineering Genetic Circuits: Modeling and Analysis

Engineering Genetic Circuits: Modeling and Analysis

本课程是 Engineering Genetic Circuits 专项课程的一部分

位教师：Chris Myers

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5个模块

深入了解一个主题并学习基础知识。

中级等级

推荐体验

3 周完成

在 10 小时一周

灵活的计划

自行安排学习进度

攻读学位

了解更多

5个模块

深入了解一个主题并学习基础知识。

中级等级

推荐体验

3 周完成

在 10 小时一周

灵活的计划

自行安排学习进度

攻读学位

了解更多

您将学到什么

Design and analyze models of genetic circuits.
Simulate genetic circuit models using ODE simulation methods.
Simulate genetic circuit models using stochastic simulation methods.
Utilize genetic technology mappers to select parts for genetic designs.

您将获得的技能

您将学习的工具

Mathematical Software

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作业

16 项作业

授课语言：英语（English）

91% of learners achieved a positive career outcome

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本课程是 Engineering Genetic Circuits 专项课程专项课程的一部分

在注册此课程时，您还会同时注册此专项课程。

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该课程共有5个模块

This course gives an introduction to how to create genetic circuit models. These models leverage chemical reactions represented using the Systems Biology Markup Language (SBML). The second module introduces methods to simulate these models using ordinary differential equation (ODE) methods. The third module teach stochastic simulation methods. The fourth module introduces several variations of the stochastic simulation algorithm. Finally, the fifth module introduces genetic technology method that leverage computational analysis for selecting parts and verifying their performance.  

单元详情

This week will describe the basics of modeling biological systems using chemical reactions, how these models can be represented using the Systems Biology Markup Language (SBML) standard, and how these models can be constructed using software tools such as iBioSim.

涵盖的内容

23个视频9篇阅读材料2个作业1次同伴评审

23个视频总计156分钟

Chemical Reaction Models8分钟
Laws of Thermodynamics9分钟
Law of Mass Action11分钟
Genetic Circuit Models14分钟
System Biology Markup Language12分钟
Overview10分钟
Project Management 5分钟
Creating a Model4分钟
Species7分钟
Promoters5分钟
Compartments 1分钟
Modules7分钟
Events14分钟
Event Examples15分钟
Unit Definitions 3分钟
Model Editor3分钟
Constraints, Parameters, and Variables2分钟
Reactions7分钟
SBML Mathematical Formulas7分钟
iBioSim Functions4分钟
Rules4分钟
Constraints 1分钟
Model Editor Preferences3分钟

9篇阅读材料总计141分钟

Course Updates and Accessibility Support1分钟
Non-Credit Students: Welcome and Where to Find Help10分钟
Optional Reading Materials 10分钟
Engineering Genetic Circuits - Chapter 1 (Section 1.1)10分钟
Engineering Genetic Circuits - Chapter 1 (Section 1.7.4)10分钟
SBML Level 3: An Extensible Format for the Exchange and Reuse of Biological Models25分钟
iBioSim 3: A Tool for Model-Based Genetic Circuit Design25分钟
iBioSim Tutorial45分钟
iBioSim Demo Video5分钟

2个作业总计25分钟

Chemical Reaction Model Basics10分钟
Genetic Circuit Models Using SMBL15分钟

1次同伴评审总计60分钟

Genetic Toggle Switch Model60分钟

This module will introduce the theory and methods for the analysis of genetic circuit models using ordinary differential equations (ODEs). In particular, it will describe the classical chemical kinetic model, numerical methods for ODE simulation of these models, and techniques to analyze these ODE models qualitatively.

涵盖的内容

13个视频3篇阅读材料3个作业1次同伴评审

13个视频总计99分钟

Overview10分钟
Classic Chemical Kinetic Model10分钟
ODE Model Example9分钟
Differential Equation Simulation2分钟
Euler's Method12分钟
Runge-Kutta Method4分钟
Adaptive Stepsize Control10分钟
Qualitative ODE Analysis2分钟
Saddle-Node Example8分钟
Transcritical Bifurcation Example2分钟
Pitchfork Bifurcation Example1分钟
Two-Dimentional ODE Model11分钟
Spatial Methods16分钟

3篇阅读材料总计40分钟

Engineering Genetic Circuits Chapter 3 (Section 3.1)10分钟
Engineering Genetic Circuits Chapter 3 (Section 3.2)15分钟
Engineering Genetic Circuits Chapter 3 (Sections 3.3 and 3.4)15分钟

3个作业总计60分钟

Chemical Kinetic Models15分钟
ODE Simulation Methods30分钟
Qualitative ODE Analysis15分钟

1次同伴评审总计60分钟

ODE Simulation Using iBioSim60分钟

This module will introduce stochastic analysis methods for genetic circuits. In particular, it will introduce the stochastic chemical kinetics model, Gillespie's Stochastic Simulation Algorithm (SSA) to analyze these models, and various alternative stochastic analysis methods. Finally, the module will conclude with some additional topics: the Chemical Langevin Equation, stochastic Petri nets, the phage lambda model, and spatial Gillespie methods.

涵盖的内容

20个视频4篇阅读材料4个作业1次同伴评审

20个视频总计155分钟

Introduction6分钟
Stochastic Chemical Kinetic Model9分钟
Biomolecular Reaction Channel14分钟
Monomolecular Reactions1分钟
Trimolecular Reactions6分钟
Jump Markov Processes9分钟
Introduction2分钟
Derivation of Gillespie's Stochastic Simulation Algorithm9分钟
Implementation of Gillespie's SSA3分钟
Gillespie's SSA Examples7分钟
Gillespie's First Reaction Method4分钟
Gibson/Bruck's Improvements8分钟
Composition and Rejection9分钟
Tau Leaping18分钟
Explicit Tau-Leaping Simulation Algorithm13分钟
The Chemical Langevin Equation8分钟
The Reaction Rate Equation9分钟
Stochastic Petri Nets6分钟
Phage Lambda Model12分钟
Spatial Gillespie3分钟

4篇阅读材料总计65分钟

Engineering Genetic Circuits Chapter 4 (Sections 4.1 and 4.2)15分钟
Engineering Genetic Circuits Chapter 4 (Section 4.3)15分钟
Engineering Genetic Circuits Chapter 4 (Sections 4.4 and 4.5)15分钟
Engineering Genetic Circuits Chapter 4 (Sections 4.6 to 4.9)20分钟

4个作业总计70分钟

Stochastic Chemical Kinetics10分钟
Stochastic Simulation Methods30分钟
Alternative Stochastic Simulation Algorithms15分钟
Additional Stochastic Simulation Topics15分钟

1次同伴评审总计60分钟

Stochastic Simulation Using iBioSim60分钟

This module presents several variations on the SSA algorithm to solve particular analysis problems. In particular, the hierarchical SSA (hSSA) methods enable the analysis of large models, the weighted SSA (wSSA) methods allow for the analysis of rare events, and the incremental SSA (iSSA) methods enable the determination of typical behaviors.

涵盖的内容

18个视频4篇阅读材料3个作业

18个视频总计79分钟

Population-Based Models4分钟
The Hierarchical Stochastic Simulation Algorithm6分钟
Hierarchical Simulation Example11分钟
Runtime Comparison between hSSA and SSA3分钟
Array Package for Tracking Cellular Populations7分钟
Population of Repressilator Circuits Using Arrays2分钟
Population of Genetic Toggle Circuits Using Arrays6分钟
Motivation and Background5分钟
Important Sampling3分钟
Underlying Mathematics of the wSSA7分钟
The weighted stochastic simulation algorithm 3分钟
Introduction and Motivation3分钟
Incremental Stochastic Simulation Algorithm5分钟
Marginal Probability Density Evolution5分钟
Mean Path3分钟
Median Path3分钟
Adaptive Time Step2分钟
Multiple Paths4分钟

4篇阅读材料总计125分钟

Hierarchical Stochastic Simulation Algorithm for SBML Models of Genetic Circuits35分钟
Efficient Analysis of Systems Biology Markup Language Models of Cellular Populations using Arrays30分钟
An Efficient and Exact Stochastic Simulation Method to Analyze Rare Events in Biochemical Systems30分钟
An Incremental Stochastic Simulation Algorithm for Genetic Circuits30分钟