APh161 - Lecture 2: The Rate of Things Rob Phillips California Institute of Technology.

Slides:

Advertisements

Similar presentations

Development of Cell Lines for Controlled Proliferation and Apoptosis Mohamed Al-Rubeai University College Dublin Cell Line Development and Engineering,

Advertisements

BE/APh161 – Physical Biology of the Cell Rob Phillips Applied Physics and Bioengineering California Institute of Technology.

BE/APh161 – Physical Biology of the Cell Rob Phillips Applied Physics and Bioengineering California Institute of Technology.

Structure and Function of Organelles Sizing up Cells Mannella et al. Theriot et al. Quantitative Models of Biological Function APh/BE161: Physical Biology.

Lecture 10: Diffusive Dynamics Rob Phillips California Institute of Technology Verkman et al.

Lecture 6: The Mathematics of Recruitment Rob Phillips California Institute of Technology (Beautiful work of David Goodsell)

Lecture 8: Genome Packing and Accessibility Rob Phillips California Institute of Technology (Beautiful work of David Goodsell) (Bustamante et al.)

Membranes in Biology Rob Phillips California Institute of Technology (McMahon)

Lecture 3/4 Rob Phillips California Institute of Technology (Block et al.) (Wuite et al.)

Chromosome Geography Lecture. Chromosome Caltech Sturtevant and Morgan Benzer.

APh161 - Lecture 11: The Cytoskeleton is Always Under Construction Rob Phillips California Institute of Technology Mullins et al.

Lecture 4: Statistical Mechanics of Gene Regulation Rob Phillips California Institute of Technology (Beautiful work of David Goodsell)

Lecture 2 Rob Phillips California Institute of Technology (Block et al.) (Wuite et al.)

APh161 - Lecture 11: The Cytoskeleton is Always Under Construction Rob Phillips California Institute of Technology Mullins et al.

Lecture 1 Rob Phillips California Institute of Technology (Block et al.) (Wuite et al.)

Chromosome Geography Lecture. The Chromosome as a Polymer Blob b=2P.

APh161 - Lecture 2: The Rate of Things Rob Phillips California Institute of Technology (Pollard and Earnshaw)

APh161 - Lecture 13: Molecular Motors Rob Phillips California Institute of Technology.

APh161 - Lecture 15: Molecular Motors Rob Phillips California Institute of Technology.

Lecture 1: Introduction Dr. Mamoun Ahram Faculty of Medicine Second year, Second semester, Principles of Genetics and Molecular Biology.

The Cell Division Cycle

Getting organized – how bacterial cells move proteins and DNA

Control of Gene Expression

Honors Biology CELL DIVISION & DIFFERENTIATION.  What are some reasons why cells divide?  Replacement  Growth  Regeneration  Too big (more on that.

Biology, Raven et al. 9 th Edition Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 15 1 Minute Papers.

Production of Eukaryotic Proteins in Bacteria Human insulin, human growth hormone, and other valuable eukaryotic proteins can be produced economically.

How do Molecules form Living, Moving, Reproducing Cells? 1683, Leeuwenhoek: “An unbelievably great company of living animalcules, a-swimming more nimbly.

The Response of Bacterial Growth and Division to Osmotic Shock

Introductory Phylogenetic Workflows in the Discovery Environment Sheldon McKay iPlant Collaborative, DNALC, Cold Spring Harbor Laboratory Feb 8, 2012.

Excellent cell biology hormone and light signaling pathways operative few cell types & simple developmental pattern polar tip growth and division tolerant.

Anees C *, and Majumdar A C Reproductive Physiology and ETT Laboratory Division of Physiology and Climatology Indian Veterinary Research Institute, Bareilly,

10-3 Regulating the Cell Cycle How is the cell regulated? How are cancer cells different from other cells?

Omic data from evolved E. coli are consistent with computed optimal growth from genome ‐ scale models by Nathan E Lewis, Kim K Hixson, Tom M Conrad, Joshua.

Production of Eukaryotic Proteins in Bacteria

Synthetic Biology Sergio Peisajovich Lim Lab June 2007.

University of California at San Diego

Cancer, reproductive system diseases, lipid metabolism 48 22

How to read data off a log axis

APh161 - Lecture 13: Molecular Motors

University of California at San Diego

Production of Eukaryotic Proteins in Bacteria

Circadian gene expression induced by prostaglandin E2 (PGE2) in NIH3T3 cells. Circadian gene expression induced by prostaglandin E2 (PGE2) in NIH3T3 cells.

Transcriptional response to mating in whole A. gambiae females.

Four design-build-test cycles produced JCVI-syn3.0.

Lecture 7: Biological Network Crosstalk Y. Z

HIS-24 regulates expression of infection-inducible genes.

Similarity of gene expression level (A) and nucleosome occupancy profile (B) between paralog pairs. Similarity of gene expression level (A) and nucleosome.

Volume 42, Issue 4, Pages (May 2011)

Opening the HIV Mystery Box

EDLC(Embedded system Development Life Cycle ).

(A-B) Expression of dominant negative p73. (C) Knockdown of p73

Xenopus Current Biology

Patrick M. Boyle et al. JACEP 2018;4:

Figure 3. Genes differentially expressed in batch cultures during adaptation to low temperature. Genes differentially expressed in batch cultures during.

Bicoid by the Numbers: Quantifying a Morphogen Gradient

Covering the Cover Gastroenterology

Expression profiles of GAS virulence factors during planktonic and biofilm growth. Expression profiles of GAS virulence factors during planktonic and biofilm.

Sponge Explain the process of mitosis in your own words.

The evolutionary conservation of the phosphoproteomes.a, E. coli. b, B. subtilis. The evolutionary conservation of the phosphoproteomes.a, E. coli. b,

When Biology Doesn’t Add Up

Monitor Producer Consumer.

Characterising dermis expansion and gene expression changes during mouse development (related to Fig 1)‏ Characterising dermis expansion and gene expression.

Expression of Glasso network genes in PC12 cells.

Live-cell imaging of transcriptional activation following TSA treatment. Live-cell imaging of transcriptional activation following TSA treatment. (A) Frames.

Arrest of Giardia cell cycle with aphidicolin and nocodazole.

Semiquantitative RT-PCR of GpGCS1 expression in strains K41 (mating-type plus) and K34 (mating-type minus). Semiquantitative RT-PCR of GpGCS1 expression.

ITS rRNA gene locus. ITS rRNA gene locus. Schematic of the eukaryotic ribosomal gene cluster. The SILVA database contains sequences of the 18S gene, while.

Figure 2 Diffusio-osmotic process for osmotic energy conversion

ACE/EPAM (ELECTRON, PROTON, AND APLPHA MONITOR) INTERCALIBRATION WITH STEREO/SEPT SEP EVENT OBSERVATIONS Olga Malandraki Institute of Astronomy and Astrophysics,

Presentation transcript:

APh161 - Lecture 2: The Rate of Things Rob Phillips California Institute of Technology

The Hierarchy of Time Scales

E. Coli Cell Division: The Standard Stopwatch

The Eukaryotic Cell Cycle Adapted from Pollard and Earnshaw

Timing of Gene Expression Lucy Shapiro et al., Stanford

Putting the Stopwatch on Cell Motility - the place to be! Courtesy of Julie Theriot et al., Stanford

Stopwatch on Biological Assembly

Monitoring the Motors of the Cell Paul Selvin et al.

Embryonic Development: Telescoping up in Time