Organic Chemistry Option II: Chemical Biology
|
|
- Maud Wiggins
- 5 years ago
- Views:
Transcription
1 Organic Chemistry Option II: Chemical Biology Recommended books: Dr Stuart Conway Department of Chemistry, Chemistry Research Laboratory, University of Oxford Teaching webpage (to download hand- outs): Biochemistry 4 th Edition by Voet and Voet, published by Wiley, ISBN: Foundations of Chemical Biology by Dobson, Gerrard and Pratt, published by OUP (primer) ISBN:
2 RNA synthesis: Transcription slide 39 It catalyses the DNA- directed coupling of nucleotide triphosphates to synthesise new RNA. The newly synthesised RNA is complementary to the template DNA. Transcription slide 40 Hence, the incoming nucleotide is added to the free 3 - OH of the growing RNA chain. RNA polymerase selects the nucleotide it incorporates into the growing RNA chain based on the requirement that it forms a Watson- Crick base pair with the DNA strand that is being transcribed (the template strand - only one strand of DNA is transcribed at a time). The RNA polymerase moves along the DNA duplex that it is transcribing and separates a short (~14 base pairs) segment of the DNA helix to form a transcription bubble. The DNA- RNA hybrid helix consists of antiparallel strands, hence the DNA s template strand is read in its 3 5 direction. 2
3 RNA polymerase slide 41 The outer surface of the protein is almost uniformly negatively charges, whereas the surfaces that interact with nucleic acids are positively charged. The DNA occupies the main channel, which directs the template strand to the active site. There the DNA base- pairs with the incoming nucleotide triphosphate (not in structure). Translation slide 42 Although the formation of a peptide bond is relatively simple, the translational process in highly complicated. This complexity arises from the need to link 20 different amino acids residues accurately in the order specified by a particular mrna. As the base sequence of DNA is the only variable element in this otherwise monotonously repeating polymer, the base sequence and the protein sequence must be linked. 3
4 Translation slide 43 The problem of how a sequence of four things can determine a sequence of twenty things is known as the coding problem. Translation slide 44 With only 4 bases in DNA to code for 20 amino acids, a group of several bases (a codon) is necessary to specify a single amino acid. A doublet code would only allow 4 2 = 16 codons, which is insufficient to specify 20 amino acids. In a triplet code as many as 44 codons might not code for amino acids. Alternatively, some amino acids might be specified by more than one codon - a degenerate code. 4
5 slide 45 How is DNA s continuous sequence grouped into codons? Is the code overlapping? E.g. ABC codes for the first amino acids and BDC codes for the second etc. slide 46 Or is the code non- overlapping? E.g. ABC specifies the first amino acid and DEF the second etc. slide 47 is highly degenerate: Three amino acids (L, R, S) are each specified by six codons. Only Met and Trp, two of the least common amino acids in proteins, are specified by a single codon. 5
6 slide 48 Sydney Brenner and Francis Crick formed the following hypotheses on the genetic code: 1. The code is a triplet code. 2. The code is read in a sequential manner starting from a fixed point in the gene. The insertion or deletion of a nucleotide shifts the frame (grouping) in which in which the succeeding nucleotides are read as codons. Thus the code has no internal punctuation that indicates the reading frame - the code is comma free. 3. slide 49 The sentence represents a gene in which the words (codons) each contain three letters (bases). The spaces have no physical significance; they only present to indicate the reading frame. The deletion of the fourth letter (B) shifts the reading frame so that all of the words after the deletion are meaningless - specify the wrong amino acids. slide 50 Insertion of a letter (X) passed the point of the original mutation restores the original reading frame. Hence on the words (codons) between the two changes (mutations) are altered. Therefore the sentence may still be intelligible (the gene could still specify a functional protein), particularly if the changes are close together. 6
7 slide 51 The major breakthrough in deciphering the genetic code came in 1961 when Nirenberg and Matthaei established that UUU is the codon specifying Phe. They added poly(u) to a cell- free protein synthesising system and showed that this stimulated synthesis of only poly(phe). In similar experiments, poly(a) was shown to specify poly(lys) and poly(c) was found to specify poly(pro). These stop codons are also known (somewhat inappropriately) as nonsense codons as they are the only codons that do not specify amino acids. UAG, UAA and UGA are sometimes referred to as ambre, ochre and opal codons. These codons also specify amino acids, Met and Val, respectively. The arrangement of the genetic code is not random. Most synonyms (codons that only differ in their third nucleotide) occupy the same box in the table. XYU and XYC always specify the same amino acids; XYA and XYG do so in all by two cases. Changes in the first codon position tend to specify the same or similar amino acids. Codons with second position pyrimidines (C AND U) tend to specify hydrophobic amino acids. Codons with second position purines (A and G) encode mostly polar amino acids. 7
8 slide 52 How does the information in DNA actually translate into polypeptide sequences? In 1955 Francis Crick proposed the adaptor hypothesis stating that translation occurs through the mediation of adaptor molecules. Each adaptor was postulated to carry a specific amino acid and to recognise the corresponding codon. At a similar time it was shown that in the course of protein synthesis 14 C labelled amino acids become bound to low molecular mass fractions of RNA. Translation slide 53 All trnas contain: A 5 - terminal phosphate. A 7- base pair step that includes the 5 - terminal nucleotide and may include non- Watson- Crick base pairs, such as G U. This assembly is known as the acceptor stem as the amino acid is appended to the 3 - OH group. A 3- or 4- base stem ending in a loop that that frequently contains the modified base dihydrouridine (D), known as the D arm. A 5- base- pair stem ending in a loop that usually contains the sequence TΨC (Ψ = pseudouridine). All trnas terminate in the sequence CCA, with a free 3 - OH group. There are 15 invariant positions and 8 semi- invariant (only a purine or only a pyrimidine) positions. 8
9 Modified nucleotides that occur in trna slide 54 The structure of yeast trna Phe slide 55 9
10 Synthesis of trna slide 56 This mixed anhydride then reacts with trna to form aminoacyl- trna and AMP. Ribosome slide 57 For translation to occur, mrna and trna must bind to each other, and the amino acids carried by the trna must react to form the polypetide chain. Elucidating the molecular structure of the ribosome has been extremely challenging. 10
11 Dr Stuart Conway Organic Option II: Chemical Biology University of Oxford Ribosome slide 59 11
12 Dr Stuart Conway Organic Option II: Chemical Biology University of Oxford Translation slide 60 Translation slide 61 12
13 Translation slide 62 The ribosomal peptidyl transfer reaction occurs ~ fold faster than the uncatalysed reaction. Translation slide 63 The ribosome may also play a role in excluding water from the preorganised electrostatic environment of the active site. 13
14 Translation slide 64 14
Translation. Genetic code
Translation Genetic code If genes are segments of DNA and if DNA is just a string of nucleotide pairs, then how does the sequence of nucleotide pairs dictate the sequence of amino acids in proteins? Simple
More informationFrom Gene to Protein
From Gene to Protein Gene Expression Process by which DNA directs the synthesis of a protein 2 stages transcription translation All organisms One gene one protein 1. Transcription of DNA Gene Composed
More information(Lys), resulting in translation of a polypeptide without the Lys amino acid. resulting in translation of a polypeptide without the Lys amino acid.
1. A change that makes a polypeptide defective has been discovered in its amino acid sequence. The normal and defective amino acid sequences are shown below. Researchers are attempting to reproduce the
More informationVideos. Bozeman, transcription and translation: https://youtu.be/h3b9arupxzg Crashcourse: Transcription and Translation - https://youtu.
Translation Translation Videos Bozeman, transcription and translation: https://youtu.be/h3b9arupxzg Crashcourse: Transcription and Translation - https://youtu.be/itsb2sqr-r0 Translation Translation The
More informationTypes of RNA. 1. Messenger RNA(mRNA): 1. Represents only 5% of the total RNA in the cell.
RNAs L.Os. Know the different types of RNA & their relative concentration Know the structure of each RNA Understand their functions Know their locations in the cell Understand the differences between prokaryotic
More informationRNA & PROTEIN SYNTHESIS. Making Proteins Using Directions From DNA
RNA & PROTEIN SYNTHESIS Making Proteins Using Directions From DNA RNA & Protein Synthesis v Nitrogenous bases in DNA contain information that directs protein synthesis v DNA remains in nucleus v in order
More information1. In most cases, genes code for and it is that
Name Chapter 10 Reading Guide From DNA to Protein: Gene Expression Concept 10.1 Genetics Shows That Genes Code for Proteins 1. In most cases, genes code for and it is that determine. 2. Describe what Garrod
More informationMolecular Genetics Principles of Gene Expression: Translation
Paper No. : 16 Module : 13 Principles of gene expression: Translation Development Team Principal Investigator: Prof. Neeta Sehgal Head, Department of Zoology, University of Delhi Paper Coordinator: Prof.
More informationNewly made RNA is called primary transcript and is modified in three ways before leaving the nucleus:
m Eukaryotic mrna processing Newly made RNA is called primary transcript and is modified in three ways before leaving the nucleus: Cap structure a modified guanine base is added to the 5 end. Poly-A tail
More informationGENETICS - CLUTCH CH.11 TRANSLATION.
!! www.clutchprep.com CONCEPT: GENETIC CODE Nucleotides and amino acids are translated in a 1 to 1 method The triplet code states that three nucleotides codes for one amino acid - A codon is a term for
More informationReading Assignments. A. Genes and the Synthesis of Polypeptides. Lecture Series 7 From DNA to Protein: Genotype to Phenotype
Lecture Series 7 From DNA to Protein: Genotype to Phenotype Reading Assignments Read Chapter 7 From DNA to Protein A. Genes and the Synthesis of Polypeptides Genes are made up of DNA and are expressed
More informationProtein Synthesis. Unit 6 Goal: Students will be able to describe the processes of transcription and translation.
Protein Synthesis Unit 6 Goal: Students will be able to describe the processes of transcription and translation. Protein Synthesis: Protein synthesis uses the information in genes to make proteins. 2 Steps
More informationProtein Synthesis. Unit 6 Goal: Students will be able to describe the processes of transcription and translation.
Protein Synthesis Unit 6 Goal: Students will be able to describe the processes of transcription and translation. Types of RNA Messenger RNA (mrna) makes a copy of DNA, carries instructions for making proteins,
More informationGene Expression: Translation. transmission of information from mrna to proteins Chapter 5 slide 1
Gene Expression: Translation transmission of information from mrna to proteins 601 20000 Chapter 5 slide 1 Fig. 6.1 General structural formula for an amino acid Peter J. Russell, igenetics: Copyright Pearson
More informationFrom gene to protein. Premedical biology
From gene to protein Premedical biology Central dogma of Biology, Molecular Biology, Genetics transcription replication reverse transcription translation DNA RNA Protein RNA chemically similar to DNA,
More informationMolecular Biology - Translation of RNA to make Protein *
OpenStax-CNX module: m49485 1 Molecular Biology - Translation of RNA to make Protein * Jerey Mahr Based on Translation by OpenStax This work is produced by OpenStax-CNX and licensed under the Creative
More informationTranslation Part 2 of Protein Synthesis
Translation Part 2 of Protein Synthesis IN: How is transcription like making a jello mold? (be specific) What process does this diagram represent? A. Mutation B. Replication C.Transcription D.Translation
More informationChapter 17. From Gene to Protein. Biology Kevin Dees
Chapter 17 From Gene to Protein DNA The information molecule Sequences of bases is a code DNA organized in to chromosomes Chromosomes are organized into genes What do the genes actually say??? Reflecting
More informationAdvanced Topics in RNA and DNA. DNA Microarrays Aptamers
Quiz 1 Advanced Topics in RNA and DNA DNA Microarrays Aptamers 2 Quantifying mrna levels to asses protein expression 3 The DNA Microarray Experiment 4 Application of DNA Microarrays 5 Some applications
More informationLaith AL-Mustafa. Protein synthesis. Nabil Bashir 10\28\ First
Laith AL-Mustafa Protein synthesis Nabil Bashir 10\28\2015 http://1drv.ms/1gigdnv 01 First 0 Protein synthesis In previous lectures we started talking about DNA Replication (DNA synthesis) and we covered
More informationSection 7. Junaid Malek, M.D.
Section 7 Junaid Malek, M.D. RNA Processing and Nomenclature For the purposes of this class, please do not refer to anything as mrna that has not been completely processed (spliced, capped, tailed) RNAs
More informationUNIT 5. Protein Synthesis 11/22/16
UNIT 5 Protein Synthesis IV. Transcription (8.4) A. RNA carries DNA s instruction 1. Francis Crick defined the central dogma of molecular biology a. Replication copies DNA b. Transcription converts DNA
More information9 The Process of Translation
9 The Process of Translation 9.1 Stages of Translation Process We are familiar with the genetic code, we can begin to study the mechanism by which amino acids are assembled into proteins. Because more
More informationComputational Biology: Basics & Interesting Problems
Computational Biology: Basics & Interesting Problems Summary Sources of information Biological concepts: structure & terminology Sequencing Gene finding Protein structure prediction Sources of information
More informationChapter
Chapter 17 17.4-17.6 Molecular Components of Translation A cell interprets a genetic message and builds a polypeptide The message is a series of codons on mrna The interpreter is called transfer (trna)
More informationMarshall Nirenberg and the discovery of the Genetic Code
Marshall Nirenberg and the discovery of the Genetic Code The Coding Problem Once the function of DNA as the genetic substance was shown by Avery et al in 1944 And once the double helical structure of DNA
More informationLecture 5. How DNA governs protein synthesis. Primary goal: How does sequence of A,G,T, and C specify the sequence of amino acids in a protein?
Lecture 5 (FW) February 4, 2009 Translation, trna adaptors, and the code Reading.Chapters 8 and 9 Lecture 5. How DNA governs protein synthesis. Primary goal: How does sequence of A,G,T, and C specify the
More informationCHAPTER4 Translation
CHAPTER4 Translation 4.1 Outline of Translation 4.2 Genetic Code 4.3 trna and Anticodon 4.4 Ribosome 4.5 Protein Synthesis 4.6 Posttranslational Events 4.1 Outline of Translation From mrna to protein
More informationومن أحياها Translation 1. Translation 1. DONE BY :Maen Faoury
Translation 1 DONE BY :Maen Faoury 0 1 ومن أحياها Translation 1 2 ومن أحياها Translation 1 In this lecture and the coming lectures you are going to see how the genetic information is transferred into proteins
More informationTranslation and the Genetic Code
Chapter 11. Translation and the Genetic Code 1. Protein Structure 2. Components required for Protein Synthesis 3. Properties of the Genetic Code: An Overview 4. A Degenerate and Ordered Code 1 Sickle-Cell
More informationTranslation and Operons
Translation and Operons You Should Be Able To 1. Describe the three stages translation. including the movement of trna molecules through the ribosome. 2. Compare and contrast the roles of three different
More informationBME 5742 Biosystems Modeling and Control
BME 5742 Biosystems Modeling and Control Lecture 24 Unregulated Gene Expression Model Dr. Zvi Roth (FAU) 1 The genetic material inside a cell, encoded in its DNA, governs the response of a cell to various
More informationLesson Overview. Ribosomes and Protein Synthesis 13.2
13.2 The Genetic Code The first step in decoding genetic messages is to transcribe a nucleotide base sequence from DNA to mrna. This transcribed information contains a code for making proteins. The Genetic
More informationMolecular Biology (9)
Molecular Biology (9) Translation Mamoun Ahram, PhD Second semester, 2017-2018 1 Resources This lecture Cooper, Ch. 8 (297-319) 2 General information Protein synthesis involves interactions between three
More informationBiochemistry Prokaryotic translation
1 Description of Module Subject Name Paper Name Module Name/Title Dr. Vijaya Khader Dr. MC Varadaraj 2 1. Objectives 2. Understand the concept of genetic code 3. Understand the concept of wobble hypothesis
More informationIntroduction to the Ribosome Overview of protein synthesis on the ribosome Prof. Anders Liljas
Introduction to the Ribosome Molecular Biophysics Lund University 1 A B C D E F G H I J Genome Protein aa1 aa2 aa3 aa4 aa5 aa6 aa7 aa10 aa9 aa8 aa11 aa12 aa13 a a 14 How is a polypeptide synthesized? 2
More informationFrom DNA to protein, i.e. the central dogma
From DNA to protein, i.e. the central dogma DNA RNA Protein Biochemistry, chapters1 5 and Chapters 29 31. Chapters 2 5 and 29 31 will be covered more in detail in other lectures. ph, chapter 1, will be
More informationWhat is the central dogma of biology?
Bellringer What is the central dogma of biology? A. RNA DNA Protein B. DNA Protein Gene C. DNA Gene RNA D. DNA RNA Protein Review of DNA processes Replication (7.1) Transcription(7.2) Translation(7.3)
More information-14. -Abdulrahman Al-Hanbali. -Shahd Alqudah. -Dr Ma mon Ahram. 1 P a g e
-14 -Abdulrahman Al-Hanbali -Shahd Alqudah -Dr Ma mon Ahram 1 P a g e In this lecture we will talk about the last stage in the synthesis of proteins from DNA which is translation. Translation is the process
More informationChapter 12. Genes: Expression and Regulation
Chapter 12 Genes: Expression and Regulation 1 DNA Transcription or RNA Synthesis produces three types of RNA trna carries amino acids during protein synthesis rrna component of ribosomes mrna directs protein
More informationMidterm Review Guide. Unit 1 : Biochemistry: 1. Give the ph values for an acid and a base. 2. What do buffers do? 3. Define monomer and polymer.
Midterm Review Guide Name: Unit 1 : Biochemistry: 1. Give the ph values for an acid and a base. 2. What do buffers do? 3. Define monomer and polymer. 4. Fill in the Organic Compounds chart : Elements Monomer
More informationDegeneracy. Two types of degeneracy:
Degeneracy The occurrence of more than one codon for an amino acid (AA). Most differ in only the 3 rd (3 ) base, with the 1 st and 2 nd being most important for distinguishing the AA. Two types of degeneracy:
More informationGCD3033:Cell Biology. Transcription
Transcription Transcription: DNA to RNA A) production of complementary strand of DNA B) RNA types C) transcription start/stop signals D) Initiation of eukaryotic gene expression E) transcription factors
More information1. Contains the sugar ribose instead of deoxyribose. 2. Single-stranded instead of double stranded. 3. Contains uracil in place of thymine.
Protein Synthesis & Mutations RNA 1. Contains the sugar ribose instead of deoxyribose. 2. Single-stranded instead of double stranded. 3. Contains uracil in place of thymine. RNA Contains: 1. Adenine 2.
More informationMultiple Choice Review- Eukaryotic Gene Expression
Multiple Choice Review- Eukaryotic Gene Expression 1. Which of the following is the Central Dogma of cell biology? a. DNA Nucleic Acid Protein Amino Acid b. Prokaryote Bacteria - Eukaryote c. Atom Molecule
More informationBCH 4054 Spring 2001 Chapter 33 Lecture Notes
BCH 4054 Spring 2001 Chapter 33 Lecture Notes Slide 1 The chapter covers degradation of proteins as well. We will not have time to get into that subject. Chapter 33 Protein Synthesis Slide 2 Prokaryotic
More informationLecture 9 Translation.
1 Translation Summary of important events in translation. 2 Translation Reactions involved in peptide bond formation. Lecture 9 3 Genetic code Three types of RNA molecules perform different but complementary
More informationTranslation. A ribosome, mrna, and trna.
Translation The basic processes of translation are conserved among prokaryotes and eukaryotes. Prokaryotic Translation A ribosome, mrna, and trna. In the initiation of translation in prokaryotes, the Shine-Dalgarno
More informationProtein synthesis II Biochemistry 302. Bob Kelm February 25, 2004
Protein synthesis II Biochemistry 302 Bob Kelm February 25, 2004 Two idealized views of the 70S ribosomal complex during translation 70S cavity Fig. 27.25 50S tunnel View with 30S subunit in front, 50S
More informationBiophysics Lectures Three and Four
Biophysics Lectures Three and Four Kevin Cahill cahill@unm.edu http://dna.phys.unm.edu/ 1 The Atoms and Molecules of Life Cells are mostly made from the most abundant chemical elements, H, C, O, N, Ca,
More informationLecture 7: Simple genetic circuits I
Lecture 7: Simple genetic circuits I Paul C Bressloff (Fall 2018) 7.1 Transcription and translation In Fig. 20 we show the two main stages in the expression of a single gene according to the central dogma.
More informationPROTEIN SYNTHESIS INTRO
MR. POMERANTZ Page 1 of 6 Protein synthesis Intro. Use the text book to help properly answer the following questions 1. RNA differs from DNA in that RNA a. is single-stranded. c. contains the nitrogen
More informationGENE ACTIVITY Gene structure Transcription Transcript processing mrna transport mrna stability Translation Posttranslational modifications
1 GENE ACTIVITY Gene structure Transcription Transcript processing mrna transport mrna stability Translation Posttranslational modifications 2 DNA Promoter Gene A Gene B Termination Signal Transcription
More informationMile-stones leading to the concept of nature of the gene: 1. The discovery of discrete units of inheritance in 1860s. - Mendel s pea experiments(
Homework IV. Bioenergetics 1. Calculate the G for ATP hydrolysis in a cell in which the [ATP]/[ADP] ratio had climbed to 100:1 while the P i concentration remained at10 mm. How does this compare to the
More informationRanjit P. Bahadur Assistant Professor Department of Biotechnology Indian Institute of Technology Kharagpur, India. 1 st November, 2013
Hydration of protein-rna recognition sites Ranjit P. Bahadur Assistant Professor Department of Biotechnology Indian Institute of Technology Kharagpur, India 1 st November, 2013 Central Dogma of life DNA
More informationRibosome readthrough
Ribosome readthrough Starting from the base PROTEIN SYNTHESIS Eukaryotic translation can be divided into four stages: Initiation, Elongation, Termination and Recycling During translation, the ribosome
More information9/11/18. Molecular and Cellular Biology. 3. The Cell From Genes to Proteins. key processes
Molecular and Cellular Biology Animal Cell ((eukaryotic cell) -----> compare with prokaryotic cell) ENDOPLASMIC RETICULUM (ER) Rough ER Smooth ER Flagellum Nuclear envelope Nucleolus NUCLEUS Chromatin
More informationBio 1B Lecture Outline (please print and bring along) Fall, 2007
Bio 1B Lecture Outline (please print and bring along) Fall, 2007 B.D. Mishler, Dept. of Integrative Biology 2-6810, bmishler@berkeley.edu Evolution lecture #5 -- Molecular genetics and molecular evolution
More informationChapters 12&13 Notes: DNA, RNA & Protein Synthesis
Chapters 12&13 Notes: DNA, RNA & Protein Synthesis Name Period Words to Know: nucleotides, DNA, complementary base pairing, replication, genes, proteins, mrna, rrna, trna, transcription, translation, codon,
More informationLecture 25: Protein Synthesis Key learning goals: Be able to explain the main stuctural features of ribosomes, and know (roughly) how many DNA and
Lecture 25: Protein Synthesis Key learning goals: Be able to explain the main stuctural features of ribosomes, and know (roughly) how many DNA and protein subunits they contain. Understand the main functions
More information9/2/17. Molecular and Cellular Biology. 3. The Cell From Genes to Proteins. key processes
Molecular and Cellular Biology Animal Cell ((eukaryotic cell) -----> compare with prokaryotic cell) ENDOPLASMIC RETICULUM (ER) Rough ER Smooth ER Flagellum Nuclear envelope Nucleolus NUCLEUS Chromatin
More informationOrganization of Genes Differs in Prokaryotic and Eukaryotic DNA Chapter 10 p
Organization of Genes Differs in Prokaryotic and Eukaryotic DNA Chapter 10 p.110-114 Arrangement of information in DNA----- requirements for RNA Common arrangement of protein-coding genes in prokaryotes=
More informationBerg Tymoczko Stryer Biochemistry Sixth Edition Chapter 1:
Berg Tymoczko Stryer Biochemistry Sixth Edition Chapter 1: Biochemistry: An Evolving Science Tips on note taking... Remember copies of my lectures are available on my webpage If you forget to print them
More informationFlow of Genetic Information
presents Flow of Genetic Information A Montagud E Navarro P Fernández de Córdoba JF Urchueguía Elements Nucleic acid DNA RNA building block structure & organization genome building block types Amino acid
More informationومن أحياها Translation 2. Translation 2. DONE BY :Nisreen Obeidat
Translation 2 DONE BY :Nisreen Obeidat Page 0 Prokaryotes - Shine-Dalgarno Sequence (2:18) What we're seeing here are different portions of sequences of mrna of different promoters from different bacterial
More informationLecture 13: PROTEIN SYNTHESIS II- TRANSLATION
http://smtom.lecture.ub.ac.id/ Password: https://syukur16tom.wordpress.com/ Password: Lecture 13: PROTEIN SYNTHESIS II- TRANSLATION http://hyperphysics.phy-astr.gsu.edu/hbase/organic/imgorg/translation2.gif
More informationCHAPTER 3. Cell Structure and Genetic Control. Chapter 3 Outline
CHAPTER 3 Cell Structure and Genetic Control Chapter 3 Outline Plasma Membrane Cytoplasm and Its Organelles Cell Nucleus and Gene Expression Protein Synthesis and Secretion DNA Synthesis and Cell Division
More informationCellular Neuroanatomy I The Prototypical Neuron: Soma. Reading: BCP Chapter 2
Cellular Neuroanatomy I The Prototypical Neuron: Soma Reading: BCP Chapter 2 Functional Unit of the Nervous System The functional unit of the nervous system is the neuron. Neurons are cells specialized
More informationAQA Biology A-level. relationships between organisms. Notes.
AQA Biology A-level Topic 4: Genetic information, variation and relationships between organisms Notes DNA, genes and chromosomes Both DNA and RNA carry information, for instance DNA holds genetic information
More informationInformation Content in Genetics:
Information Content in Genetics: DNA, RNA and protein mrna translation into protein (protein synthesis) Francis Crick, 1958 [Crick, F. H. C. in Symp. Soc. Exp. Biol., The Biological Replication of Macromolecules,
More informationL I F E S C I E N C E S
1a L I F E S C I E N C E S 5 -UUA AUA UUC GAA AGC UGC AUC GAA AAC UGU GAA UCA-3 5 -TTA ATA TTC GAA AGC TGC ATC GAA AAC TGT GAA TCA-3 3 -AAT TAT AAG CTT TCG ACG TAG CTT TTG ACA CTT AGT-5 NOVEMBER 7, 2006
More informationChapter 19 Overview. Protein Synthesis. for amino acid. n Protein Synthesis genetic info encoded in nucleic acids translated into standard amino acids
Chapter 19 Overview Protein Synthesis n Protein Synthesis genetic info encoded in nucleic acids translated into standard amino acids n Genetic code dictionary defining meaning for base sequence n Codon
More informationPROTEIN SYNTHESIS: TRANSLATION AND THE GENETIC CODE
PROTEIN SYNTHESIS: TRANSLATION AND THE GENETIC CODE HLeeYu Jsuico Junsay Department of Chemistry School of Science and Engineering Ateneo de Manila University 1 Nucleic Acids are important for their roles
More informationDNA. Announcements. Invertebrates DNA. DNA Code. DNA Molecule of inheritance. & Protein Synthesis. Midterm II is Friday
Midterm II is Friday Announcements DNA & Protein Synthesis Shannon and Val Review session on Wednesday April 5 from 5:30 to 6:30pm in 2301 Tolman Invertebrates DNA Molecule of inheritance. Contains code
More informationIntroduction to Molecular and Cell Biology
Introduction to Molecular and Cell Biology Molecular biology seeks to understand the physical and chemical basis of life. and helps us answer the following? What is the molecular basis of disease? What
More informationPart IV => DNA and RNA. 4.6 RNA Translation 4.6a Genetic Code 4.6b Translational Machinery
Part IV => DNA and RNA 4.6 RNA Translation 4.6a Genetic Code 4.6b Translational Machinery Section 4.6a: Genetic Code Synopsis 4.6a - In order to translate the genetic information (or genetic code) carried
More information2012 Univ Aguilera Lecture. Introduction to Molecular and Cell Biology
2012 Univ. 1301 Aguilera Lecture Introduction to Molecular and Cell Biology Molecular biology seeks to understand the physical and chemical basis of life. and helps us answer the following? What is the
More informationLesson Overview The Structure of DNA
12.2 THINK ABOUT IT The DNA molecule must somehow specify how to assemble proteins, which are needed to regulate the various functions of each cell. What kind of structure could serve this purpose without
More informationThe Gene The gene; Genes Genes Allele;
Gene, genetic code and regulation of the gene expression, Regulating the Metabolism, The Lac- Operon system,catabolic repression, The Trp Operon system: regulating the biosynthesis of the tryptophan. Mitesh
More informationMore Protein Synthesis and a Model for Protein Transcription Error Rates
More Protein Synthesis and a Model for Protein James K. Peterson Department of Biological Sciences and Department of Mathematical Sciences Clemson University October 3, 2013 Outline 1 Signal Patterns Example
More informationThe MOLECULES of LIFE
The MLEULE of LIFE Physical and hemical Principles olutions Manual Prepared by James Fraser and amuel Leachman hapter 1 From enes to RA and Proteins Problems and olutions and Multiple hoice 1. When two
More informationFoundations in Microbiology Seventh Edition
Lecture PowerPoint to accompany Foundations in Microbiology Seventh Edition Talaro Chapter 2 The Chemistry of Biology Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
More informationProkaryotic Regulation
Prokaryotic Regulation Control of transcription initiation can be: Positive control increases transcription when activators bind DNA Negative control reduces transcription when repressors bind to DNA regulatory
More informationName Date Period Unit 1 Basic Biological Principles 1. What are the 7 characteristics of life?
Unit 1 Basic Biological Principles 1. What are the 7 characteristics of life? Eukaryotic cell parts you should be able a. to identify and label: Nucleus b. Nucleolus c. Rough/smooth ER Ribosomes d. Golgi
More informationBiomolecules. Energetics in biology. Biomolecules inside the cell
Biomolecules Energetics in biology Biomolecules inside the cell Energetics in biology The production of energy, its storage, and its use are central to the economy of the cell. Energy may be defined as
More information2. What was the Avery-MacLeod-McCarty experiment and why was it significant? 3. What was the Hershey-Chase experiment and why was it significant?
Name Date Period AP Exam Review Part 6: Molecular Genetics I. DNA and RNA Basics A. History of finding out what DNA really is 1. What was Griffith s experiment and why was it significant? 1 2. What was
More informationBiology 2018 Final Review. Miller and Levine
Biology 2018 Final Review Miller and Levine bones blood cells elements All living things are made up of. cells If a cell of an organism contains a nucleus, the organism is a(n). eukaryote prokaryote plant
More informationMolecular Biology of the Cell
Alberts Johnson Lewis Morgan Raff Roberts Walter Molecular Biology of the Cell Sixth Edition Chapter 6 (pp. 333-368) How Cells Read the Genome: From DNA to Protein Copyright Garland Science 2015 Genetic
More informationBCMB Chapters 39 & 40 Translation (protein synthesis)
BCMB 3100 - Chapters 39 & 40 Translation (protein synthesis) Translation Genetic code trna Amino acyl trna Ribosomes Initiation Elongation Termination How is the nucleotide code translated into a protein
More informationBCMB Chapters 39 & 40 Translation (protein synthesis)
BCMB 3100 - Chapters 39 & 40 Translation (protein synthesis) Translation Genetic code trna Amino acyl trna Ribosomes Initiation Elongation Termination How is the nucleotide code translated into a protein
More informationTRANSLATION: How to make proteins?
TRANSLATION: How to make proteins? EUKARYOTIC mrna CBP80 NUCLEUS SPLICEOSOME 5 UTR INTRON 3 UTR m 7 GpppG AUG UAA 5 ss 3 ss CBP20 PABP2 AAAAAAAAAAAAA 50-200 nts CYTOPLASM eif3 EJC PABP1 5 UTR 3 UTR m 7
More information.PROTEIN SYNTHESIS AND I T S CONTROI D.
212..PROTEIN SYNTHESIS AND I T S CONTROI D. CALIFORNIA J. McCONNELL INSTITUTE O F TECHNOLOGY Recent advances i n molecular biology have given us a c l e a r p i c t u r e of t h e mechanism of p r o t
More informationMolecular Biology of the Cell
Alberts Johnson Lewis Raff Roberts Walter Molecular Biology of the Cell Fifth Edition Chapter 6 How Cells Read the Genome: From DNA to Protein Copyright Garland Science 2008 Figure 6-1 Molecular Biology
More informationGENE REGULATION AND PROBLEMS OF DEVELOPMENT
GENE REGULATION AND PROBLEMS OF DEVELOPMENT By Surinder Kaur DIET Ropar Surinder_1998@ yahoo.in Mob No 9988530775 GENE REGULATION Gene is a segment of DNA that codes for a unit of function (polypeptide,
More information15.2 Prokaryotic Transcription *
OpenStax-CNX module: m52697 1 15.2 Prokaryotic Transcription * Shannon McDermott Based on Prokaryotic Transcription by OpenStax This work is produced by OpenStax-CNX and licensed under the Creative Commons
More informationDNA Structure. Voet & Voet: Chapter 29 Pages Slide 1
DNA Structure Voet & Voet: Chapter 29 Pages 1107-1122 Slide 1 Review The four DNA bases and their atom names The four common -D-ribose conformations All B-DNA ribose adopt the C2' endo conformation All
More informationLecture 18 June 2 nd, Gene Expression Regulation Mutations
Lecture 18 June 2 nd, 2016 Gene Expression Regulation Mutations From Gene to Protein Central Dogma Replication DNA RNA PROTEIN Transcription Translation RNA Viruses: genome is RNA Reverse Transcriptase
More informationName Block Date Final Exam Study Guide
Name Block Date Final Exam Study Guide Unit 7: DNA & Protein Synthesis List the 3 building blocks of DNA (sugar, phosphate, base) Use base-pairing rules to replicate a strand of DNA (A-T, C-G). Transcribe
More informationChapter 9 DNA recognition by eukaryotic transcription factors
Chapter 9 DNA recognition by eukaryotic transcription factors TRANSCRIPTION 101 Eukaryotic RNA polymerases RNA polymerase RNA polymerase I RNA polymerase II RNA polymerase III RNA polymerase IV Function
More information