Vermont Genetics Network Outreach Proteomics Module

Slides:

Advertisements

Similar presentations

Martin John Bishop UK HGMP Resource Centre Hinxton Cambridge CB10 1 SB

Advertisements

Molecular Basis for Relationship between Genotype and Phenotype DNA RNA protein genotype function organism phenotype DNA sequence amino acid sequence transcription.

Gregor Mendel ( ) DNA (gene) mRNA Protein Transcription RNA processing (splicing etc) Translation Folding Post translational modifications Peptides/amino.

Relationship between Genotype and Phenotype

DNA Fingerprinting & Gel Electrophoresis

Do Now:. DNA Fingerprinting Everyone (except identical twins) has a unique DNA sequence in their cells. A technique called ________________________can.

Ulf Schmitz, Introduction to genomics and proteomics II1 Bioinformatics Introduction to genomics and proteomics II

Bioinformatics: a Multidisciplinary Challenge Ron Y. Pinter Dept. of Computer Science Technion March 12, 2003.

The Cell, Central Dogma and Human Genome Project.

This Week Chapters 9, 10.1 and for reference, –exam material will be on lecture content for the above, Chapter 11.5 (Friday). Monday Paper,

Signaling and the Signal Transduction Cascade. Question?????? External Stimulus Inside cell Nucleus, Gene transcription Other cellular effects.

Prepared with lots of help from friends... Metsada Pasmanik-Chor, Zohar Yakhini and NUMEROUS WEB RESOURCES. BioInformatics / Computational Biology Introduction.

Hybridization Diagnostic tools Nucleic acid Basics PCR Electrophoresis

Bioinformatics page 12, part of ch. 21 Cell and Mol Biol Lab.

More regulating gene expression. Fig 16.1 Gene Expression is controlled at all of these steps: DNA packaging Transcription RNA processing and transport.

Cloning, genomes, and proteomes

Proteomics Understanding Proteins in the Postgenomic Era.

SC.912.L.16.3 Describe the basic process of DNA replication and how it relates to the transmission and conservation of the genetic information.

A little about how DNA works David Sloane, MD Special Studies, HGSE Brigham and Women’s Hospital Harvard Medical School 2/10/2014David.

Finish up array applications Move on to proteomics Protein microarrays.

Molecular Biology Primer. Starting 19 th century… Cellular biology: Cell as a fundamental building block 1850s+: ``DNA’’ was discovered by Friedrich Miescher.

Genes and how they work!. Genetic Code How does the order of nucleotides in DNA encode information to specify the order of amino acids?

Chapter 11 DNA and GENES. DNA: The Molecule of Heredity DNA, the genetic material of organisms, is composed of four kinds nucleotides. A DNA molecule.

Do Now: On the “Modeling DNA” handout, determine the complimentary DNA sequence and the mRNA sequence by using the sequence given.

Molecular Basis for Relationship between Genotype and Phenotype DNA RNA protein genotype function organism phenotype DNA sequence amino acid sequence transcription.

Predicting protein degradation rates Karen Page. The central dogma DNA RNA protein Transcription Translation The expression of genetic information stored.

By drawing a picture describe the flow of genetic information from DNA to a protein.

Eukaryotic Genomes  The Organization and Control of Eukaryotic Genomes.

Human embryonic stem cells Human induced pluripotent stem cells Yamanaka S. et al. Cell 2007 Thomson J. et al. Science 2007.

Central dogma: the story of life RNA DNA Protein.

The Genetic Code. The DNA that makes up the human genome can be subdivided into information bytes called genes. Each gene encodes a unique protein that.

Starter What do you know about DNA and gene expression?

Biochemistry 412 Overview of Genomics & Proteomics (con’d) 21 January 2005.

DNA  RNA  Protein. Central Dogma Central Dogma – describes how information from DNA gets used to make proteins 3 processes: –1. Replication copies DNA.

DNA-The Code of Life Mr. Price 7 th Grade. What is DNA? DNA stands for deoxyribonucleic acid. DNA is a chemical that controls the activities of cells.

SC.912.L.16.3 DNA Replication. – During DNA replication, a double-stranded DNA molecule divides into two single strands. New nucleotides bond to each.

Biochemistry 412 Overview of Genomics & Proteomics 20 January 2004.

(3) Gene Expression Gene Expression (A) What is Gene Expression?

Protein Synthesis 3.A.1.c. Genetic information flows from a sequence of nucleotides in a gene sequence of amino acids in a protein.

The Function of DNA.

Introduction to Bioinformatics February 13, 2017

(3) Gene Expression Gene Expression (A) What is Gene Expression?

The ABC’s of DNA Barry Bowman.

From DNA to Proteins Transcription.

2/23/15 Learning Objectives

Types of Mutations.

Protein Synthesis.

Final Exam Review Answer Key Part 2

Translation and Protein Synthesis

Regulation of Gene Expression by Eukaryotes

“Proteomics is a science that focuses on the study of proteins: their roles, their structures, their localization, their interactions, and other factors.”

Genomes and Their Evolution

Unit 7 “DNA & RNA” 10 Words.

Isolating DNA from Bacterial Cells.

Lesson 1: Evolution.

Isolating DNA from Bacterial Cells.

Relationship between Genotype and Phenotype

Relationship between Genotype and Phenotype

AH Biology: Unit 1 Proteomics and Protein Structure 1

Proteomics and Amino Acids

Replication, Transcription, Translation

DNA: The Secret of Life By: James Watson Chapter 3: Reading the Code.

Post-Translational Modification

Relationship between Genotype and Phenotype

Nat. Rev. Neurol. doi: /nrneurol

Vermont Genetics Network Outreach Proteomics Module

Genes Determine the characteristics of individuals.

Presentation transcript:

Vermont Genetics Network Outreach Proteomics Module Proteomics Overview

“What is Proteomics ?” or Proteome - “ics” ? or Protein - “omics” ? CREDIT: JOE SUTLIFF, Science 291: 1221. 2001

First let’s ask, “What is Genomics?” or Genome - “ics” ? or Gene - “omics” ?

The Human Genome and the “Birth” of Genomics You have likely heard, that not long ago (2001) the human genome was sequenced. What does this mean? Genomics is the study of an organism’s (sometimes a cell’s or a tissue’s) DNA (includes all genes) in its totality.

“ OMICS ” The term “omics” is of recent origin but Is now used by biologists to refer to the study of a type of molecule or compound in its totality (or at least on a large scale) Some examples of “omic” disciplines are: genomics, lipidomics, metabolomics and proteomics.

So, now, what is Proteomics? Proteomics is the study of an organism’s (or a cell’s or a tissue’s or an organelle’s) Proteins in their totality (or at least on a large scale). So, a large-scale study of proteins is proteomics.

What can we learn from seeing things in their totality that we can’t learn from seeing them individually? What things can we learn from seeing things individually that we can’t see from seeing them in their totality?

“I can’t see the forest for the trees.” “I can’t see the trees for the forest.” Guard Cell Chloroplast But I can see the trees! But I can see the forest!

Technological Advances Help Us See Both the Forest and the Trees

Remembering the “Central Dogma” of biology and how Inherited information is (most usually) interpreted by a cell. DNA Transcription ( Splicing ) Translation mRNA Protein Smith et al. 2000 Ann. Rev. of Biochem.

Remembering what a protein is: Proteins are Polymers of amino acids, whose unique sequence Gives them unique structures and thereby unique functions.

Remembering what an amino acid is:

The Scope of Proteomics In Humans there are ~20,000-25,000 genes (almost all genes encode proteins). So humans have ~ 20,000-25,000 basic protein “ types ”.

The Scope of Proteomics However !!! There can be great variability in proteins due to: ● Alternative Splicing ● Post Translational Modifications: ● phosphorylation ● methylation ● glycosylation ● ubiquitylation ● acetylation ● Proteolysis ● Polymorphisms (Single Nucleotide Polymorphisms)

Phosphorylation is a Common Protein Modification Humans Devote 653 (roughly 3% of their genes) to proteins that directly add phosphate (Kinases) or remove phosphate (Phosphatases).

Is Protein Modification Important? ab/ab ab/ab = 2 tyrosine to phenylalanine mutations, or loss of only 2 hydroxyl groups!

Is Protein Modification Important? MSTETELQVAVKTSAKKDSRKKGQDRSEATLIKRFKGEGVRYKAKLIGIDEVSAARGDKLCQDSMMKLKGVVAGARSKGEHKQKIFLTISFGGIKIFDEKTGALQHHHAVHEISYIAKDITDHRAFGYVCGKEGNHRFVAIKTAQAAEPVILDLRDLFQLIYELKQREELEKKAQKDKQCEQAVYQTILEEDVEDPVYQYIVFEAGHEPIRDPETEENIYQVPTSQKKEGVYDVPKSQPVSAVTQLELFGDMSTPPDITSPPTPATPGDAFLPSSSQTLPGSADVFGSMSFGTAAVPSGYVAMGAVLPSFWGQQPLVQQQIAMGAQPPVAQVIPGAQPIAWGQPGLFPATQQAWPTVAGQFPPAAFMPTQTVMPLAAAMFQGPLTPLATVPGTNDSARSSPQSDKPRQKMGKESFKDFQMVQPPPVPSRKPDQPSLTCTSEAFSSYFNKVGVAQDTDDCDDFDISQLNLTPVTSTTPSTNSPPTPAPRQSSPSKSSASHVSDPTADDIFEEGFESPSKSEEQEAPDGSQASSTSDPFGEPSGEPSGDNISPQDGS Feng and Cooper. MCB 2009

Examples of Proteomics Studies

Identification of Proteins in Embryonic Cerebral Spinal Fluid Zappaterra et al, Journal of Proteome Research, 2007

Protein-Protein Interactions in Drosophila (“ Interactomes ”) Proteomic Scientists often seek to understand and monitor how proteins behave collectively inside a cell. Protein-Protein Interactions in Drosophila (“ Interactomes ”) 2346/~ total 5000 proteins Science 302:1727 - 1736

Two Essential Partner Tools in Proteomics Mass Spectrometry Gel Electrophoresis