Vorlesung Biophysik I - Molekulare Biophysik Kalbitzer/Kremer/Ziegler

Similar documents

Essentials of Real Time PCR. About Sequence Detection Chemistries

Technical Note. Roche Applied Science. No. LC 18/2004. Assay Formats for Use in Real-Time PCR

LAB TOPIC 4: ENZYMES. Enzyme catalyzed reactions can be expressed in the following way:

Co Extra (GM and non GM supply chains: Their CO EXistence and TRAceability) Outcomes of Co Extra

Real-Time PCR Vs. Traditional PCR

Replication Study Guide

2. True or False? The sequence of nucleotides in the human genome is 90.9% identical from one person to the next. False (it s 99.

Forensic DNA Testing Terminology

Enzymes and Metabolism

Transcription and Translation of DNA

How many of you have checked out the web site on protein-dna interactions?

Recombinant DNA and Biotechnology

Introduction To Real Time Quantitative PCR (qpcr)

VLLM0421c Medical Microbiology I, practical sessions. Protocol to topic J10

2. The number of different kinds of nucleotides present in any DNA molecule is A) four B) six C) two D) three

green B 1 ) into a single unit to model the substrate in this reaction. enzyme

What happens to the food we eat? It gets broken down!

Activity 4 Long-Term Effects of Drug Addiction

13.4 Gene Regulation and Expression

Molecular Spectroscopy

RNA Structure and folding

Medium Scale Integration of Molecular Logic Gates in an Automaton

Protein-responsive ribozyme switches in eukaryotic cells

Control of Gene Expression

Genetic information (DNA) determines structure of proteins DNA RNA proteins cell structure enzymes control cell chemistry ( metabolism )

Chapter 11: Molecular Structure of DNA and RNA

Biotechnology: DNA Technology & Genomics

Gene Mapping Techniques

Real-time qpcr Assay Design Software

Combinatorial Chemistry and solid phase synthesis seminar and laboratory course

Enzymes. A. a lipid B. a protein C. a carbohydrate D. a mineral

Gene mutation and molecular medicine Chapter 15

Basic Concepts of DNA, Proteins, Genes and Genomes

Name Date Period. Keystone Review Enzymes

Applications Guide. Real-Time PCR Applications Guide

Chapter 6. Antigen-Antibody Properties 10/3/2012. Antigen-Antibody Interactions: Principles and Applications. Precipitin reactions

13.2 Ribosomes & Protein Synthesis

Fields of Application / Industry:

Appendix 2 Molecular Biology Core Curriculum. Websites and Other Resources

14.3 Studying the Human Genome

Chapter 6 DNA Replication

DNA Fingerprinting. Unless they are identical twins, individuals have unique DNA

Lecture 1 MODULE 3 GENE EXPRESSION AND REGULATION OF GENE EXPRESSION. Professor Bharat Patel Office: Science 2, b.patel@griffith.edu.

DNA Technology Mapping a plasmid digesting How do restriction enzymes work?

Protocol. Introduction to TaqMan and SYBR Green Chemistries for Real-Time PCR

Introduction to Quantitative PCR

Bio 3A Lab: DNA Isolation and the Polymerase Chain Reaction

M.Sc. in Nano Technology with specialisation in Nano Biotechnology

Chapter 18 Regulation of Gene Expression

HCS Exercise 1 Dr. Jones Spring Recombinant DNA (Molecular Cloning) exercise:

Molecular Genetics: Challenges for Statistical Practice. J.K. Lindsey

1 Mutation and Genetic Change

DNA Sequence Analysis

Lecture Series 7. From DNA to Protein. Genotype to Phenotype. Reading Assignments. A. Genes and the Synthesis of Polypeptides

AP BIOLOGY 2008 SCORING GUIDELINES

Chapter 5: Organization and Expression of Immunoglobulin Genes

Complex multicellular organisms are produced by cells that switch genes on and off during development.

Illumina Sequencing Technology

Twincore - Zentrum für Experimentelle und Klinische Infektionsforschung Institut für Molekulare Bakteriologie

SmartFlare RNA Detection Probes: Principles, protocols and troubleshooting

Carbon Hydrogen Oxygen Nitrogen

Protein immunoblotting

Name Class Date. Figure Which nucleotide in Figure 13 1 indicates the nucleic acid above is RNA? a. uracil c. cytosine b. guanine d.

Crime Scenes and Genes

Molecular Genetics. RNA, Transcription, & Protein Synthesis

DNA and the Cell. Version 2.3. English version. ELLS European Learning Laboratory for the Life Sciences

Just the Facts: A Basic Introduction to the Science Underlying NCBI Resources

Bio 102 Practice Problems Chromosomes and DNA Replication

Oligonucleotide Stability Study

1. A covalent bond between two atoms represents what kind of energy? a. Kinetic energy b. Potential energy c. Mechanical energy d.

Recombinant DNA & Genetic Engineering. Tools for Genetic Manipulation

Viruses. Viral components: Capsid. Chapter 10: Viruses. Viral components: Nucleic Acid. Viral components: Envelope

Ms. Campbell Protein Synthesis Practice Questions Regents L.E.

Concepts and methods in sequencing and genome assembly

CHAPTER 6: RECOMBINANT DNA TECHNOLOGY YEAR III PHARM.D DR. V. CHITRA

Blood-Based Cancer Diagnostics

Nucleotides and Nucleic Acids

HiPer RT-PCR Teaching Kit

Micro RNAs: potentielle Biomarker für das. Blutspenderscreening

CCR Biology - Chapter 9 Practice Test - Summer 2012

Fluorescence in situ hybridisation (FISH)

Genetic Analysis. Phenotype analysis: biological-biochemical analysis. Genotype analysis: molecular and physical analysis

Transcription in prokaryotes. Elongation and termination

AP BIOLOGY 2009 SCORING GUIDELINES

Transfection-Transfer of non-viral genetic material into eukaryotic cells. Infection/ Transduction- Transfer of viral genetic material into cells.

DNA. Discovery of the DNA double helix

March 19, Dear Dr. Duvall, Dr. Hambrick, and Ms. Smith,

Student name ID # 2. (4 pts) What is the terminal electron acceptor in respiration? In photosynthesis? O2, NADP+

Molecular Cloning, Product Brochure

IIID 14. Biotechnology in Fish Disease Diagnostics: Application of the Polymerase Chain Reaction (PCR)

Effects of Antibiotics on Bacterial Growth and Protein Synthesis: Student Laboratory Manual

CHAPTER 2 ANTIGEN/ANTIBODY INTERACTIONS

Transcription:

Vorlesung Biophysik I - Molekulare Biophysik Kalbitzer/Kremer/Ziegler 23.10. Zelle 30.10. Biologische Makromoleküle I 06.11. Biologische Makromoleküle II 13.11. Nukleinsäuren-Origami (DNA, RNA) 20.11. Aminosäuren-Origami (Protein-Nanotechnologie) 27.11. Molekulare Motoren 04.12. Methoden zur Strukturbestimmung: Magnetische Resonanzspektroskopie I - Grundlagen 11.12. Magnetische Resonanzspektroskopie II - Mehrdimensionale NMR- Spektroskopie 18.12. Magnetische Resonanzspektroskopie III Proteinstrukturbestimmung, Dynamik und Bewegung, ESR-Spektroskopie 08.01. Röntgenstrukturanalyse I Streuung von Wellen, Faltungstheorem, Pattersonfunktion, Phasenproblem 15.01. Röntgenstrukturanalyse II - Synchrotronstrahlung, zeitaufgelöste Kristallographie Röntgenkleinwinkelstreuung 22.01. Elektronenmikroskopie I Elektronenoptik, Kontrastentstehung und Bildinformation 29.01. Elektronenmikroskopie II Kristalline Objekte, Tomographie 05.02. Klausur

DNA-Struktur

DNA-Struktur

RNA-Struktur

RNA-Struktur

DNA als Molekül für Nanotechnologen N.C. Seeman, Karriere für die Doppelhelix, Spektrum der Wissenschaften Januar 2005

DNA als Molekül für Nanotechnologen 5 -ACCGGGTTTT-3 binds most strongly to 3 -TGGCCCAAAA-5 Less strongly to a sequence with a Hamming distance of 1 from the perfect complement 3 -TGGCCCAAAC-5 Binding strength even less strongly to a sequence of Hamming distance 2, such as 3 -TGGCACAAAC-5, etc. Ordering of binding strength approximately governed by Hamming distance

DNA-Kreuzungspunkte mit klebrigen Enden

Kreuzungspunkte von DNA

DNA Crosslinks

DNA-Strukturen

DNA Arrays

DNA-Würfel

Molekularer Schalter auf DNA-Basis

DNA-Oktaeder

DNA-Origami

DNA-Origami

DNA- Origami Design

DNA- Origami

DNA-Origami

DNA-Origami (Beispiele)

DNA-Origami (Beispiele)

DNA-Origami (Beispiele)

DNA-Origami (Faltungsbeispiel)

DNA-Origami (Faltungsbeispiel)

DNA-Origami (Faltungsbeispiel)

DNA-Origami Science 2006

DNA-Origami Science 2006

DNA-Origami Science 2006

Molecular Logic Gate Components DNA enzymes The switch part for a molecular logic gate is derived from a deoxyribozyme, a nucleic acid enzyme that catalyzes DNA reactions. In this case the enzyme is a phosphodiesterase, which cleaves an oligonucleotide substrate (a short sequence of single-stranded DNA) into two shorter oligonucleotide products, or outputs. https://digamma.cs.unm.edu/wiki/bin/view/mcogpublicweb/molecularlogicgates M.N. Stojanovic, T.E. Mitchell, & D.Stefanovic (2002) Deoxyribozyme-Based Logic Gates J.Am.Chem.Soc.124, 3555-3561

DNA outputs and fluorescence monitoring In order to monitor output formation, the outputs can be labeled with fluorescent dyes. In the case above, the Substrate is labeled with red channel TAMRA (T) dye, but its fluorescence is quenched by the Black-Hole 2 (BH2) quencher, which absorbs all of the TAMRA fluorescence. After cleavage, the TAMRA is separated from the BH2 and the fluorescence is no longer absorbed, leading to an increase in fluorescence within the mixture, which can be monitored via fluorescence spectroscopy. We have successfully used several combinations of fluorescent dye/quencher combinations, including Fluorescein/Black Hole Quencher 1 and Fluorescein/Tamra. The fluorescence is merely a byproduct of the reaction for monitoring purposes. Output formation can be coupled to many different downstream events, such as the activation of a downstream gate, and release of a small molecule such as a drug.

DNA inputs and stem-loop controllers The DNA enzyme is turned into a switch that is regulated by input DNA through the addition of specific stem-loop regions, which contain oligonucleotide binding regions. If input DNA (a short single-stranded oligonucleotide) is added, it will hybridize to the oligonucleotide binding region, causing the stem-loop to undergo a conformational change and break apart.. DNA inputs are highly selective, and will only hybridize to their specific complementary sequence. Thus it is possible to have many inputs and stemloop regions in the same mixture without undesirable gate activation from input cross-reactivity. The use of stem-loop controlling structures also makes the gates fully modular, such that many oligonucleotide sequences can be placed for input binding in the loop regions.

Types of Molecular Logic gates The YES gate. https://digamma.cs.unm.edu/wiki/bin/view/mcogpublicweb/molecularlogicgates

Types of Molecular Logic gates The NOT gate. https://digamma.cs.unm.edu/wiki/bin/view/mcogpublicweb/molecularlogicgates

Types of Molecular Logic gates The AND gate. https://digamma.cs.unm.edu/wiki/bin/view/mcogpublicweb/molecularlogicgates

Types of Molecular Logic gates The ANDNOT gate. https://digamma.cs.unm.edu/wiki/bin/view/mcogpublicweb/molecularlogicgates

Types of Molecular Logic gates

DNA- Elektronik Science 2006

DNA- Elektronik Science 2006

DNA-Elektronik Science 2006

RNA- Nanotechnologie Purdue scientists treat cancer with RNA nanotechnology Image: This triangular particle, which is about 25 billionths of a meter across, could become one of nanotechnology's contributions to the fight against cancer. Three strands of RNA a close chemical cousin of DNA are linked together to form this "nanoparticle," created in the lab of Purdue University's Peixuan Guo. Each of the strands is spliced together from two kinds of RNA one sort serves as a scaffold and dovetail to hold the particle together; while the other carries a hunter to find cancer cells, a marker to detect the target, or genetic instructions deadly to a cancer cell. The nanoparticles have already proven effective against cancer growth in living mice as well as lab-grown human nasopharlyngeal carcinoma and breast cancer cells. (Guo Laboratories)

Vorlesung Biophysik I - Molekulare Biophysik Kalbitzer/Kremer/Ziegler 23.10. Zelle 30.10. Biologische Makromoleküle I 06.11. Biologische Makromoleküle II 13.11. Nukleinsäuren-Origami (DNA, RNA) 20.11. Aminosäuren-Origami (Protein-Nanotechnologie) 27.11. Molekulare Motoren 04.12. Methoden zur Strukturbestimmung: Magnetische Resonanzspektroskopie I - Grundlagen 11.12. Magnetische Resonanzspektroskopie II - Mehrdimensionale NMR- Spektroskopie 18.12. Magnetische Resonanzspektroskopie III Proteinstrukturbestimmung, Dynamik und Bewegung, ESR-Spektroskopie 08.01. Röntgenstrukturanalyse I Streuung von Wellen, Faltungstheorem, Pattersonfunktion, Phasenproblem 15.01. Röntgenstrukturanalyse II - Synchrotronstrahlung, zeitaufgelöste Kristallographie Röntgenkleinwinkelstreuung 22.01. Elektronenmikroskopie I Elektronenoptik, Kontrastentstehung und Bildinformation 29.01. Elektronenmikroskopie II Kristalline Objekte, Tomographie 05.02. Klausur