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Molecular and Cellular Bioengineering

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Presentation on theme: "Molecular and Cellular Bioengineering"— Presentation transcript:

1 Molecular and Cellular Bioengineering
Yingxiao Wang Beckman 4261 x36727

2 Objective To introduce the cutting-edge engineering technologies applied in the molecular and cellular biology research, i.e. how can the properties of genes, molecules, and cells be monitored, measured, manipulated, and modeled to advance our understanding of the complex biological system.

3 Introduction Cells Genomes Genomes Control Cellular Functions
Molecules Reactions between Molecules

4 Cells and Genomes

5 Different Cells Determine the Whole Multi-cellular Organism
movies

6 DNA Units and Assembly

7 DNA Units and Assembly

8 DNA Replication

9 From DNA to Protein

10 Transcription (From DNA to RNA)

11 The Conformation of RNA
Hepatitis Delta Virus

12 The Function of Proteins

13 tRNA tRNA and rRNA

14 Translation (mRNA->Protein)

15 3D Structure of Ribosome
tRNAs Ribosome mRNA

16 Gene and Regulatory DNA

17 Bilayer of amphipathic Lipids Forming Membrane: Plasma Membrane

18 Plasma Membrane

19 Summary 1 DNA->RNA->Protein Replication, Transcription, Translation DNA and RNA, phosphate+sugar+base DNA, Double Helix, AGTC RNA, tRNA, mRNA (AGUC), rRNA RNA and Protein, Various 3D structures Protein, enzyme, structure supports Lipids, cell membrane

20 Gene Alteration (I)

21 Gene Alteration (II)

22 Gene Comparison

23 Procaryotes (without nucleus) and Eucaryotes (with nucleus)
Cell Types Procaryotes (without nucleus) and Eucaryotes (with nucleus)

24 An Eucaryotic Cell

25 White blood cell engulfing a red blood cell
Phagocytosis White blood cell engulfing a red blood cell

26 Own tRNA, mRNA, ribosome, own circular DNA
Mitochondrion Own tRNA, mRNA, ribosome, own circular DNA Produce ATP

27 Proposed Hypothesis: the Origin of Mitochondria

28 The Origin of Chloroplasts

29 Environment and Cellular Functions and Fate

30 Yeast: the Simplest Eucaryote Cell Model

31 Microarray Study of Yeast Genome upon Stimulation

32 Model Systems and the Ultimate Goal-Human Beings
C-elegan Drosophila Mouse

33 Mutational Genesis to Find Gene Functions in Model Systems

34 Summary 2 Gene Alterations: mutation, duplication, segment shuffling, horizontal transfer Homologous gene comparison Procaryote and Eucaryote cells (nucleus) Eucaryote cells as predators Environment effects on Gene expressions Model systems: yeast, c elegans, drosophila, mouse Gene mutagenesis

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