list 6 séquences
assignment Niveau : Intermédiaire
chat_bubble_outline Langue : Anglais
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Les infos clés

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timer 24 heures de cours

En résumé

DNA encodes our genetic information and is passed on within cells to maintain living organisms and to produce the next generation. The recognition of DNA as the genetic material and the ensuing identification of its structure and coding mechanism were both revolutionary and foundational. These discoveries led to transformational integration across the biological sciences with a common understanding of this fundamental unit of life! Join this exploration of DNA structure, packaging, replication, and manipulation.

The course utilizes video lectures, research articles, case studies, and molecular models to convey information. The course grade will be based on questions with each video lecture, quizzes, homework, and a final exam.

  • Methods that identified DNA as the genetic material
  • Structure of DNA and methods for packaging DNA into the cell
  • Impacts of packaging on DNA expression in higher organisms and passage of information with no change in DNA (epigenetics)
  • Location-specific DNA expression in the cell
  • Machinery for replicating DNA with an extremely low error rate
  • Place of origin and timing for DNA replication
  • Mechanisms for “preserving” the ends of linear DNA
  • Types of damage that affect DNA structure and how DNA moves around
  • Procedures to amplify DNA sequences and to determine base sequence
  • Enzymes to fragment DNA into specific segments that can be separated
  • Methods to recombine DNA segments from different sources
  • Ways to introduce recombined DNA into cells, including human cells

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Les prérequis

High school chemistry and biology and BIOC300.1x OR understanding and knowledge of protein structure and function


Le programme

Lecture 1: DNA Structure

Comprised of only four monomers, DNA serves as the genetic material of living organisms. We explore how DNA was identified as the genetic material, review the characteristics and structure of DNA, examine the information encoded in this interesting macromolecule, and explore implications of variations in DNA size and sequence.

Lecture 2: DNA Organization 

We explore how DNA is arranged, packaged, and organized within the cell. We examine chromatin architecture, how chromatin is modified by histones, and how epigenetics can affect gene expression.

Lecture 3: DNA Replication I

We explore the mechanisms by which DNA is copied and the complications that arise due to the asymmetric construction of DNA with respect to its 3' and 5' ends. We examine the dynamic nature of the replication proteins and the exquisite specificity with which these proteins can catalyze essential biochemical reactions, and how enzymatic activity can be regulated within the larger context of the cell.

Lecture 4: DNA Replication II

We explore further the replication machinery that allows for the coordination of leading and lagging strand synthesis during DNA replication, a feature of both prokaryotic and eukaryotic DNA replication. We examine the initiation of DNA replication at origins of replication. We also discuss the involvement of nucleosomes and histones in this process, which is a unique feature of eukaryotic DNA. We also examine termination of DNA replication and the involvement of telomerase in solving a unique problem of eukaryotic DNA replication: shortening of chromosomal ends during DNA replication.

Lecture 5: DNA Manipulation

We examine the manipulation of DNA. The cell can restore (or sometimes alter) DNA by repairing damage from a variety of environmental sources. Repair of double-stranded breaks includes recombination (or exchanging DNA sequences between two different dsDNAs). We examine methods of DNA amplification, analysis, "cloning," and sequencing. These forms of "manipulating" DNA employ enzymes and functional properties that we have discussed. Our ever-more-efficient and cost-effective ability to sequence and to recombine DNA fragments has transformed biological and biomedical sciences, and much remains to be discovered!

Les intervenants

Elizabeth Eich
Professor of the Practice Department of Biosciences
Rice University

Daniel J. Catanese
Assistant Teaching Professor, Department of Biosciences
Rice University


Le concepteur

Located on a 300-acre forested campus in Houston, Rice University is consistently ranked among the top 20 universities in the U.S. and the top 100 in the world. Rice has highly respected schools of Architecture, Business, Continuing Studies, Engineering, Humanities, Music, Natural Sciences and Social Sciences and is home to the Baker Institute for Public Policy.

La plateforme

EdX est une plateforme d'apprentissage en ligne (dite FLOT ou MOOC). Elle héberge et met gratuitement à disposition des cours en ligne de niveau universitaire à travers le monde entier. Elle mène également des recherches sur l'apprentissage en ligne et la façon dont les utilisateurs utilisent celle-ci. Elle est à but non lucratif et la plateforme utilise un logiciel open source.

EdX a été fondée par le Massachusetts Institute of Technology et par l'université Harvard en mai 2012. En 2014, environ 50 écoles, associations et organisations internationales offrent ou projettent d'offrir des cours sur EdX. En juillet 2014, elle avait plus de 2,5 millions d'utilisateurs suivant plus de 200 cours en ligne.

Les deux universités américaines qui financent la plateforme ont investi 60 millions USD dans son développement. La plateforme France Université Numérique utilise la technologie openedX, supportée par Google.

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