Challenges in Bioinformatics Part I

Slides:

Advertisements

Similar presentations

Tracing Evolutionary History

Advertisements

Taxonomy The classification of living things…. There may be over 100 million different living things on Earth. Less than 2 million have been classified.

THE FOSSIL RECORD The Rank and Order of Life Latin binomial nomenclature A system of binomial nomenclature is used to name organisms. The first of the.

Biotechnology and Recombinant DNA

1 Library Screening, Characterization, and Amplification Screening of libraries Amplification of DNA (PCR) Analysis of DNA (Sequencing) Chemical Synthesis.

Life A Short Summary Slime Mold Tardigrade. What is Life? Composed of organic compounds Resistance to entropy (disorder) –Requires energy (must be able.

1 Characterization, Amplification, Expression Screening of libraries Amplification of DNA (PCR) Analysis of DNA (Sequencing) Chemical Synthesis of DNA.

Applications of Genetics 1. Gene Therapy – Pg 248 & 267 introducing correct gene to “cure” genetic disease 2. Polymerase Chain Reaction Pg making.

Restriction Enzymes.

CHAPTER - 9 HEREDITY AND EVOLUTION

Molecular Genetics Introduction to The Structures of DNA and RNA

Biotechnology and Genomics Chapter 16. Biotechnology and Genomics 2Outline DNA Cloning  Recombinant DNA Technology Restriction Enzyme DNA Ligase 

Origin of Life Life’s Timeline. 1 st Life Earth formed about 4.5 billion years ago Life began with autotrophic bacteria/prokaryotes 3.5 billion year old.

Chapter 1: The Science of Life.

Organization Unit 3.

Chapter 20: Biotechnology. Essential Knowledge u 3.a.1 – DNA, and in some cases RNA, is the primary source of heritable information (20.1 & 20.2)

Polymerase Chain Reaction (PCR)

Systematics. Kingdom Genus Species Family Order Class Phylum Plant Zea Z. mays Poaceae Poales Monocotyledonae Anthophyta Plant Vanilla V. planifolia Orchidaceae.

Ten Themes Unify The Study of Life.

Linnaeus Mendel Lamarck Darwin Hyperlinked slide…

Chapter 16 Gene Technology. Focus of Chapter u An introduction to the methods and developments in: u Recombinant DNA u Genetic Engineering u Biotechnology.

Biotechnology and Recombinant DNA

1 Web-based Course วิชา ความหลากหลายทางชีวภาพ ในประเทศไทย (Biodiversity in Thailand)

Manipulation of DNA. Restriction enzymes are used to cut DNA into smaller fragments. Different restriction enzymes recognize and cut different DNA sequences.

Classification of Organisms BIO Ch. 17. Ch. 17, section 1: Classification of Organisms -Taxonomy is the science of describing, naming, and classifying.

A.Definition of Taxonomy: The science of naming organisms and classifying them into groups B.The need for classification Provides a universal language.

Strategies of Life Chapter 20 Great Idea: Living things use many different strategies to deal with the problems of acquiring and using matter and energy.

Taxonomy Bio 250.

Biotechnology and Recombinant DNA

Copyright © 2010 Pearson Education, Inc. Lectures prepared by Christine L. Case Chapter 9 Biotechnology and Recombinant DNA.

Molecular Techniques in Microbiology These include 9 techniques (1) Standard polymerase chain reaction Kary Mullis invented the PCR in 1983 (USA)Kary.

19.1 Techniques of Molecular Genetics Have Revolutionized Biology

Dating 1.Radioactive Half-Lifes 2.Index Fossils 3.Tree Rings 4.Genetic.

Earth History - The Geologic Time Scale

Biotechnology Chapter 17.

Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings. MICHAEL D. JOHNSON EVOLUTION AND THE ORIGINS OF LIFE CHAPTER 22 EVOLUTION AND.

Recombinant DNA Technology Genetic engineering requires copies of a specific sequence of DNA ( gene) that codes for 1 protein. Example: 1. The jellyfish.

KEY CONCEPT Biotechnology relies on cutting DNA at specific places.

Biotechnology and Genomics Chapter 16. Biotechnology and Genomics 2Outline DNA Cloning  Recombinant DNA Technology Restriction Enzyme DNA Ligase 

Human Genomics. Writing in RED indicates the SQA outcomes. Writing in BLACK explains these outcomes in depth.

Strategies of Life.  Biology –branch of science dealing with living systems –How do we define life? What do all living things have in common? How do.

Topics of AP Biology Adapted from The College Board,

KINGDOM ANIMALIA roundworm flatworm Snail Segmented worm Sea Sponge

Chapter 10: Genetic Engineering- A Revolution in Molecular Biology.

Chapter 18 Classification.

Biotechnology DNA technology can be used in forensics, agriculture, and medicine.

History of Life on Earth Evolutionary TIMELINE Ms. Herrera.

DNA Technology How DNA is Analyzed in today’s world?

A.What is of Taxonomy? The science of naming organisms and classifying them into groups B.Why classify? Provides a universal language so scientists can.

1 Studying Life. 1 Studying Life 1.1 What Is Biology? 1.2 How Is All Life on Earth Related? 1.3 How Do Biologists Investigate Life? 1.4 How Does Biology.

How much biodiversity 2.0 million species and increasing! 24 March 2009Biodiversity.ppt2.

Higher Human Biology Unit 1 Human Cells KEY AREA 5: Human Genomics.

9.1 Manipulating DNA KEY CONCEPT Biotechnology relies on cutting DNA at specific places.

DNA Technology & Genomics CHAPTER 20. Restriction Enzymes enzymes that cut DNA at specific locations (restriction sites) yielding restriction fragments.

Copyright © 2010 Pearson Education, Inc. Lectures prepared by Christine L. Case Chapter 9 Biotechnology and Recombinant DNA.

DNA technology Gene cloning (making more copies of genes) Genetic modification of organisms (genetic engineering) Gene therapy (treating genetic disorders)

Explain how scientists manipulate DNA. Describe the importance of recombinant DNA. Define transgenic and describe the usefulness of some transgenic organisms.

Studying and Manipulating Genomes

Everyone is a Biologist: Studier of Life!

4600 million years ago (4.6 billion years ago) Formation of Earth.

Higher Biology Genomic Sequencing Mr G R Davidson.

DNA Technology & GMO Technology

______ Technology & ______ Technology

Scientists use several techniques to manipulate DNA.

Kingdom: Monera Definition: Small, simple single celled prokaryotic cell Nutrients: absorb food/ photosynthesis Cyanobacteria Spirochetes Blue green algae.

9-2 Replication of DNA.

TIMELINE LAB Week of October 7th, 2013.

Presentation transcript:

Challenges in Bioinformatics Part I Vasileios Hatzivassiloglou University of Texas at Dallas

Evolution timeline Earth forms (4.5 billion years ago) Earth acquires solid crust (4.1 by) First life form, self-replicating RNA (4 by); no oxygen in the atmosphere First bacteria and archaea (3.9 by) Photosynthesis in bacteria (3.5 by) First eukaryotes (2.1 by) Sexual reproduction (1.2 by)

Evolution timeline, part II First multicellular organisms (algae and seaweeds, 1 by) Sponges, jellyfish, worms (600 my) First fish (500 my) First plants on land (475 my) Arthropods on land (450 my) First insects (400 my) Seeds in plants, amphibians (350 my) Pangaea, First reptiles (300 my)

Evolution timeline, part III Crocodiles, first dinosaurs (250 my) Giant dinosaurs (150 my) First flowers (130 my) First ancenstor of mice and humans (100 my) Dinosaurs extinct, mammals dominate (65 my) First primates (55 my)

Evolution timeline, part IV Earliest humans (homo habilis, erectus; 2 my) Homo sapiens (140,000 years ago) population reaches 5 million 11,000 years ago 150 million 2,000 years ago 6 billion 6 years ago 6.7 billion as of July 2008

Interactive evolution timeline Online at http://www.johnkyrk.com/evolution.swf

A familiar organism Kingdom: Animalia Phylum: Chordata Subphylum: Vertebrata Class: Mammalia Order: Primates Suborder: Anthropoidea Superfamily: Hominoidea Family: Hominidae Genus: Homo Species: Homo sapiens Subspecies: Homo sapiens sapiens

Hominid species

What kind of biology? Biochemistry Molecular biology lowest level, studies chemical substances and interactions Molecular biology gene/protein interactions, structure, and function molecular genetics proteomics

What kind of biology? Cellular biology Histology / physiology / anatomy studies multi-cell groups Developmental biology cell growth, morphogenesis Genetics mechanisms of heredity and variation Evolutionary biology

Human migration Based on fossil record study of mtDNA (mitochondrial DNA) mtDNA better suited to tracking generations more mutations more copies inherited only through the mother

Identification through mtDNA Stone AC, Starrs JE, Stoneking, M. Mitochondrial DNA analysis of the presumptive remains of Jesse James. J of Forensic Sci 2001; 46(1):173–176. Jesse James (1847-1882) Notorious outlaw in Missouri

Human migration animation Online animation at http://www.bradshawfoundation.com/journey/timeline.swf

Problems in Bioinformatics Overview of major topics in bioinformatics What the problem is Elements of the solution Computational issues

Sequencing Find the sequence of nucleotides A genome must be sequenced in small parts (~1000 bp) For each part, given fragments of a DNA sequence (e.g., matches via a DNA chip), assemble the entire fragment in the correct order Reassemble the parts an NP-hard problem

Polymerase chain reaction (PCR) A general method for amplifying DNA (or RNA via reverse transcription) In vitro technique (as opposed to in vivo) Uses DNA polymerase to simulate replication, and primers (10-45 bp) as start and end markers Proceeds in cycles; can amplify fragments up to 10kb long (sometimes 50kb) Invented in 1983, Nobel prize in 1993

Applications of PCR Chain reaction (Sanger) sequencing Genetic fingerprinting Forensics Paternity tests Detection of hereditary diseases Cloning of genes Gene modification (mutagenesis) directed versus random production of recombinant DNA (rDNA)

Sample DNA fingerprint Father Child Mother

Zebra fish

Recombinant DNA on zebra fish Insert an additional gene that changes color and causes fluorescence Added gene comes from jellyfish (green, yellow) or sea coral (red) Developed in 1999 in Singapore / Taiwan Purpose: Detect pollution by making fluorescence activated by toxins Group of Texas entrepreneurs markets the fish for aquariums (2002)

GloFishTM