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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Induction kinetics of the lac operon : Studied by single molecule methods

Hedén Gynnå, Arvid January 2014 (has links)
The repression of the E. coli lac operon seems to be more efficient than the current theoretical model allows for. Specifically, it is more quiet than expected during the replication of the chromosome. I have induced cells during short periods and counted the number of protein products from the operon to determine if there is a delay in activation of transcription that could account for the discrepancy. The results are compatible with a delay of 10-20 s, but the delay could not be conclusively proven. Furthermore, it has been investigated if the mechanism behind the delay might be differential localization of the lac operon with and without induction. It is shown that the lac operon is more often located in the periphery of the cell and in the internucleoid region when induced. These might be regions where genes are higher expressed, giving a delay in expression after de-repression before the gene is transported there.
2

Gene regulation in the lac operon

Patterson, Kathryn Grace. January 2009 (has links) (PDF)
Thesis (PhD)--Montana State University--Bozeman, 2009. / Typescript. Chairperson, Graduate Committee: Tomas Gedeon. Includes bibliographical references (leaves 118-125).
3

Characterization and application of Escherichia coli stress promoter-lacZ fusions /

Bianchi, Allison A. January 1999 (has links)
Thesis (Ph. D.)--University of Washington, 1999. / Vita. Includes bibliographical references (leaves 145-155).
4

lac of Time : Transcription Factor Kinetics in Living Cells

Hammar, Petter January 2013 (has links)
Gene regulation mediated by transcription factors (TFs) is essential for all organisms. The functionality of TFs can largely be described by the fraction of time they occupy their regulatory binding sites on the chromosome. DNA-binding proteins have been shown to find their targets through facilitated diffusion in vitro. In its simplest form this means that the protein combines a random 3D search in the cytoplasm with 1D sliding along DNA. This has been proposed to speed up target location. It is difficult to mimic the in vivo conditions for gene regulation in biochemistry experiments; i.e. the ionic strength, chromosomal structure, and the presence of other DNA-binding macromolecules.    In this thesis single molecule imaging assays for live cell measurements were developed to study the kinetics of the Escherichia coli transcription factor LacI. The low copy number LacI, in fusion with a fluorescent protein (Venus) is detected as a localized near-diffraction limited spot when being DNA-bound for longer than the exposure time. An allosteric inducer is used to control binding and release. Using this method we can measure the time it takes for LacI to bind to different operator sequences. We then extend the assay and show that LacI slides in to and out from the operator site, and that it is obstructed by another DNA-binding protein positioned next to its target. We present a new model where LacI redundantly passes over the operator many times before binding.    By combining experiments with molecular dynamics simulations we can characterize the details of non-specific DNA-binding. In particular, we validate long-standing assumptions that the non-specific association is diffusion-controlled. In addition it is seen that the non-specifically bound protein diffuses along DNA in a helical path.    Using microfluidics we design a chase assay to measure in vivo dissociation rates for the LacI-Venus dimer. Based on the comparison of these rates with association rates and equilibrium binding data we suggest that there might be a short time following TF dissociation when transcription initiation is silenced. This implies that the fraction of time the operator is occupied is not enough to describe the regulatory range of the promoter.
5

Beyond books : interactive lessons for the college biology classroom

Londeore, Cynthia Fay 15 February 2012 (has links)
College level science is frequently taught as a recitation of facts in a lecture hall, and the students are expected to gain understanding and insight with their own study. Interactive learning is more effective than lecture based learning and more memorable for the students. Teaching with hands on models has been shown to specifically be beneficial in a college level molecular biology context. Included here is a guide for the instructor leading her through topic selection, activity development, and presentation to the class, as well as five complete and tested lesson plans with notes on alteration made and the reasons for them. / text
6

Stabil och antibiotikafri läkemedelsproduktion i rekombinant Escherichia coli

Benevides, Kristina, Broström, Oscar, Elison Kalman, Grim, Swenson, Hugo, Vlassov, Andrei, Ågren, Josefin January 2017 (has links)
Den här rapporten presenterar ett antibiotikafritt, stabilt och kromosombaserat expressionssystem för läkemedelsproduktion i Escherichia coli på beställning av företaget Affibody AB. E. coli-stammen BL21(DE3) valdes som värdorganism för expressionssystemet. Systemet består av en genkassett som innehåller en T7-promotor, en 5′-UTR från genen ompA och en terminatorsekvens från RNA-operonet rrnB. Fyra kopior av genkassetten ska integreras i pseudogenerna caiB, yjjM, hsdS och yjiV. En datormodell som modellerar det egentliga kopietalet i cellerna har skapats i mjukvaran MATLAB, vilket visar att det uppskattas vara maximalt 32 kopior av genkassetten per cell på grund av replikation av kromosomen. Ett högt pH i fermentorn; att använda fed-batch och blandade kolhydratkällor; och att använda stammen BL21(DE3) minskar acetatproduktionen i cellen. En lägre acetatproduktion kan leda till en högre produkthalt. En proteinutbytesmodell för mjukvaran MATLAB har konstruerats för att uppskatta koncentrationen av Affibody®-molekylen i en E. coli cell.

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