Download SEMESTER II LSM4241 FUNCTIONAL GENOMICS

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
Document related concepts

Protein moonlighting wikipedia , lookup

Promoter (genetics) wikipedia , lookup

Exome sequencing wikipedia , lookup

Deoxyribozyme wikipedia , lookup

Whole genome sequencing wikipedia , lookup

Histone acetylation and deacetylation wikipedia , lookup

RNA silencing wikipedia , lookup

Gene regulatory network wikipedia , lookup

Non-coding RNA wikipedia , lookup

List of types of proteins wikipedia , lookup

Epitranscriptome wikipedia , lookup

Community fingerprinting wikipedia , lookup

Endogenous retrovirus wikipedia , lookup

Transcriptional regulation wikipedia , lookup

Two-hybrid screening wikipedia , lookup

Gene expression profiling wikipedia , lookup

Molecular evolution wikipedia , lookup

Silencer (genetics) wikipedia , lookup

Gene expression wikipedia , lookup

Non-coding DNA wikipedia , lookup

Genome evolution wikipedia , lookup

Artificial gene synthesis wikipedia , lookup

Proteomics wikipedia , lookup

RNA-Seq wikipedia , lookup

Transcript 
SEMESTER II
LSM4241 FUNCTIONAL GENOMICS
Prerequisite: LSM3231
Workload: 30 lecture hours + 20 tutorial, self study and presentation hours
This module aims to introduce selected topics on functional genomics. Areas covered include: the assignment of
functions to novel genes following the genome-sequencing projects of human and other organisms; the principles
underlying enabling technologies: DNA microarrays, proteomics, protein chips, structural genomics, yeast two-hybrid
system, transgenics, and aspects of bioinformatics and its applications; and to understand the impact of functional
genomics on the study of diseases such as cancer, drug discovery, pharmacogenetics and healthcare.
S/N
Topics
Lecture
Hours
1.
Introduction
Understanding the human genome project, history and its
significance. Genome sequencing strategies.
Post-genomic era: functional genomics and comparative genomics.
Challenges of bridging genomics with advances in transcriptomics
and proteomics. Comparison of ‘Reverse Genetics’ and ‘Classical
Genetics’.
Genome sequencing: Physical and Genetic linkage maps, single
nucleotide polymorphisms (SNPs)
Epigenetics: Emergence of epigenetics as a new field.
Strategies for epigenetics and reading the ‘histone code’. DNA
methylation, histone modifications, gene transcription hotspots
RNA modifications: splicing, RNA processing, gene product
turnover, RNA interference
Functional Genomics tools: Gene knockouts, random and sitedirected mutagenesis, transposon mutagenesis, chemical
mutagenesis, knockdown, gene therapy and current trends
8
2.
Ganesh
DNA microarray: technologies and applications
Oligonucleotide and cDNA microarrays
Gene expression a analysis
Array comparative genomic hybridization
Chromatin immunoprecipitation microarray
Microarray experimental design and data analysis
8
Qingsong
Pharmacogenomics
SNPs (single nucleotide polymorphism)
HAPs (Haplotypes)
Personlized medicine
Lipidomics
Technologies
Applications in diseases
3.
Proteomics Methods and applications
Introduction
Gel –based proteomics :2DE, 2D-DIGE
MS-based proteomics : iCAT, iTRAQ, SILAC
Proteomic analysis of post-translationally modified (PTM) proteins
(Modificomics)
Protein chips (microarrays) : Functional and analytical arrays
Yeast proteme chip, cell microarrays, and tissue microarrays (TMA)
Interaction proteomics (interactome) : large scale studies of proteinprotein interactions
Localizome: large scale study of cellular localization of proteins
Structural genomics
93 14
Max
High throughput protein expression and structural analysis using
NMR and x-ray diffraction
Applications of functional proteomics in :
Disease detection (e.g. cancer)
Drug discovery
Total Lectures: 30 hrs
Tutorials, Project Presentation and CA: 8 hrs
Self-Study: 12 hrs
Total hours:
50h
MODE OF ASSESSMENT: 2 CAs: 40% (20% each); Semestral examination: 60%
MODULE CO-ORDINATOR: A/P Maxey Chung (Tel: 6516-3252, E-mail: [email protected])
Lecturers:
A/P Maxey Chung
A/P Ganesh S Anand
Dr Lin Qingsong.
(Tel: 6516-3252; E-mail: [email protected])
(Tel: 6516-7722; E-mail: [email protected])
(Tel: 6516-7769; E-mail: [email protected])
94
Related documents
Introduction to Statistical Genomics
Introduction to Statistical Genomics
The George Washington University School of Medicine and Health
The George Washington University School of Medicine and Health
Document
Document
Introduction to Protein Science Architecture, Function
Introduction to Protein Science Architecture, Function
Study Guide
Study Guide
Course Syllabus Course Objectives
Course Syllabus Course Objectives
Clinical and Research Genomics Assignment #6 1. A colleague in
Clinical and Research Genomics Assignment #6 1. A colleague in
Introduction to Genomics, Bioinformatics - UNC
Introduction to Genomics, Bioinformatics - UNC
Functional Genomics
Functional Genomics
Modern Biology and Applied Mathematics - dimacs
Modern Biology and Applied Mathematics - dimacs
Introduction to Genomics - Department of Microbiology and Plant
Introduction to Genomics - Department of Microbiology and Plant
Functional Genomics and Proteomics, Institute of
Functional Genomics and Proteomics, Institute of
Slide 1
Slide 1
Bioinformatics
Bioinformatics
Power Point presentation
Power Point presentation
Proteomics
Proteomics
Yeast Two Hybrid Screening: A new service at the DKFZ
Yeast Two Hybrid Screening: A new service at the DKFZ
BISC542: Seminar in Computational Molecular Biology
BISC542: Seminar in Computational Molecular Biology
Poster - Protein Information Resource
Poster - Protein Information Resource
PowerPoint Presentation - Genomics, Proteomics and Metabolomics
PowerPoint Presentation - Genomics, Proteomics and Metabolomics
The era of nanotechnology and omics sciences
The era of nanotechnology and omics sciences
FALL Meeting Netherlands Proteomics Platform
FALL Meeting Netherlands Proteomics Platform